+#ifdef HAVE_CONFIG_H
+# include "config.h"
+#endif
+
+#include <simgear/constants.h>
#include "hud.hxx"
#include "panel.hxx"
-#define DO_PANEL_HACK
-
-//====================== Top of HudLadder Class =======================
-HudLadder :: HudLadder( string name,
- int x,
- int y,
- UINT width,
- UINT height,
- float factr,
- FLTFNPTR ptch_source,
- FLTFNPTR roll_source,
- float span_units,
- float major_div,
- float minor_div,
- UINT screen_hole,
- UINT lbl_pos,
- bool frl_spot,
- bool target,
- bool vel_vec,
- bool drift,
- bool alpha,
- bool energy,
- bool climb,
- bool glide,
- float glide_slope_val,
- bool worm_energy,
- bool waypoint,
- bool working) :
- dual_instr_item( x, y, width, height,
- ptch_source,
- roll_source,
- working,
- HUDS_RIGHT),
- width_units ( (int)(span_units) ),
- div_units ( (int)(major_div < 0? -major_div: major_div) ),
- minor_div ( (int)(minor_div) ),
- label_pos ( lbl_pos ),
- scr_hole ( screen_hole ),
- vmax ( span_units/2 ),
- vmin ( -vmax ),
- factor ( factr ),
- hudladder_type ( name ),
- frl ( frl_spot ),
- velocity_vector ( vel_vec ),
- drift_marker ( drift ),
- alpha_bracket ( alpha ),
- energy_marker ( energy ),
- climb_dive_marker ( climb ),
- target_spot ( target ),
- glide_slope_marker ( glide ),
- glide_slope ( glide_slope_val),
- energy_worm ( worm_energy),
- waypoint_marker ( waypoint)
-
+// FIXME
+extern float get_roll(void);
+extern float get_pitch(void);
+
+
+HudLadder::HudLadder(const SGPropertyNode *node) :
+ dual_instr_item(
+ node->getIntValue("x"),
+ node->getIntValue("y"),
+ node->getIntValue("width"),
+ node->getIntValue("height"),
+ get_roll,
+ get_pitch, // FIXME getter functions from cockpit.cxx
+ node->getBoolValue("working", true),
+ HUDS_RIGHT),
+ width_units(int(node->getFloatValue("span_units"))),
+ div_units(int(fabs(node->getFloatValue("division_units")))),
+ minor_div(0 /* hud.cxx: static float minor_division = 0 */),
+ label_pos(node->getIntValue("lbl_pos")),
+ scr_hole(node->getIntValue("screen_hole")),
+ factor(node->getFloatValue("compression_factor")),
+ hudladder_type(node->getStringValue("name")),
+ frl(node->getBoolValue("enable_frl", false)),
+ target_spot(node->getBoolValue("enable_target_spot", false)),
+ velocity_vector(node->getBoolValue("enable_velocity_vector", false)),
+ drift_marker(node->getBoolValue("enable_drift_marker", false)),
+ alpha_bracket(node->getBoolValue("enable_alpha_bracket", false)),
+ energy_marker(node->getBoolValue("enable_energy_marker", false)),
+ climb_dive_marker(node->getBoolValue("enable_climb_dive_marker", false)),
+ glide_slope_marker(node->getBoolValue("enable_glide_slope_marker",false)),
+ glide_slope(node->getFloatValue("glide_slope", -4.0)),
+ energy_worm(node->getBoolValue("enable_energy_marker", false)),
+ waypoint_marker(node->getBoolValue("enable_waypoint_marker", false)),
+ zenith(node->getIntValue("zenith")),
+ nadir(node->getIntValue("nadir")),
+ hat(node->getIntValue("hat"))
{
- if( !width_units ) {
- width_units = 45;
- }
-}
-
-HudLadder :: ~HudLadder()
-{
-}
-
-HudLadder ::
-HudLadder( const HudLadder & image ) :
- dual_instr_item ( (dual_instr_item &) image),
- width_units ( image.width_units ),
- div_units ( image.div_units ),
- label_pos ( image.label_pos ),
- scr_hole ( image.scr_hole ),
- vmax ( image.vmax ),
- vmin ( image.vmin ),
- factor ( image.factor ),
- hudladder_type ( image.hudladder_type),
- frl ( image.frl),
- velocity_vector ( image.velocity_vector),
- drift_marker ( image.drift_marker),
- alpha_bracket ( image.alpha_bracket),
- energy_marker ( image.energy_marker),
- climb_dive_marker ( image.climb_dive_marker),
- target_spot ( image.target_spot),
- glide_slope_marker ( image.glide_slope_marker),
- glide_slope ( image.glide_slope),
- energy_worm ( image.energy_worm),
- waypoint_marker ( image.waypoint_marker)
-{
-}
-HudLadder & HudLadder :: operator = ( const HudLadder & rhs )
-{
- if( !(this == &rhs)) {
- (dual_instr_item &)(*this) = (dual_instr_item &)rhs;
- width_units = rhs.width_units;
- div_units = rhs.div_units;
- label_pos = rhs.label_pos;
- scr_hole = rhs.scr_hole;
- vmax = rhs.vmax;
- vmin = rhs.vmin;
- factor = rhs.factor;
- hudladder_type = rhs.hudladder_type;
- frl = rhs.frl;
- velocity_vector = rhs.velocity_vector;
- drift_marker = rhs.drift_marker;
- alpha_bracket = rhs.alpha_bracket;
- energy_marker = rhs.energy_marker;
- climb_dive_marker = rhs.climb_dive_marker;
- target_spot = rhs.target_spot;
- glide_slope_marker = rhs.glide_slope_marker;
- glide_slope = rhs.glide_slope;
- energy_worm = rhs.energy_worm;
- waypoint_marker = rhs.waypoint_marker;
- }
- return *this;
+ // The factor assumes a base of 55 degrees per 640 pixels.
+ // Invert to convert the "compression" factor to a
+ // pixels-per-degree number.
+ if (fgGetBool("/sim/hud/enable3d", true) && HUD_style == 1)
+ factor = 640.0 / 55.0;
+
+ SG_LOG(SG_INPUT, SG_INFO, "Done reading HudLadder instrument"
+ << node->getStringValue("name", "[unnamed]"));
+
+ if (!width_units)
+ width_units = 45;
+
+ vmax = width_units / 2;
+ vmin = -vmax;
}
-
+
+
//
// Draws a climb ladder in the center of the HUD
//
-void HudLadder :: draw( void )
+void HudLadder::draw(void)
{
- float x_ini,x_ini2;
- float x_end,x_end2;
- float y;
+ float x_ini, x_ini2;
+ float x_end, x_end2;
+ float y = 0;
int count;
- float cosine, sine,xvvr,yvvr,Vxx,Vyy,Vzz,up_vel,ground_vel,actslope;
- float Axx,Ayy,Azz,total_vel,pot_slope,t1,t2,psi,alpha,pla;
- float vel_x,vel_y,drift;
- char Textaux[8] ;
- bool pitch_ladder;
- bool climb_dive_ladder;
- bool clip_plane;
-
- GLdouble eqn_top[4] = {0.0,-1.0,0.0,0.0};
- GLdouble eqn_left[4] = {-1.0,0.0,0.0,100.0};
- GLdouble eqn_right[4] = {1.0,0.0,0.0,100.0};
-
- POINT centroid = get_centroid();
- RECT box = get_location();
-
- float half_span = box.right / 2.0;
- float roll_value = current_ch2();
+ float cosine, sine, xvvr, yvvr, Vxx = 0.0, Vyy = 0.0, Vzz = 0.0;
+ float up_vel, ground_vel, actslope = 0.0;
+ float Axx = 0.0, Ayy = 0.0, Azz = 0.0, total_vel = 0.0, pot_slope, t1;
+ float t2 = 0.0, psi = 0.0, alpha, pla;
+ float vel_x = 0.0, vel_y = 0.0, drift;
+ bool pitch_ladder = false;
+ bool climb_dive_ladder = false;
+ bool clip_plane = false;
+
+ GLdouble eqn_top[4] = {0.0, -1.0, 0.0, 0.0};
+ GLdouble eqn_left[4] = {-1.0, 0.0, 0.0, 100.0};
+ GLdouble eqn_right[4] = {1.0, 0.0, 0.0, 100.0};
+
+ POINT centroid = get_centroid();
+ RECT box = get_location();
+
+ float half_span = box.right / 2.0;
+ float roll_value = current_ch2();
alpha = get_aoa();
pla = get_throttleval();
- int lgear,wown,wowm,ilcanclaw,ihook;
- ilcanclaw = get_iaux1();
- lgear = get_iaux2();
- wown = get_iaux3();
- wowm = get_iaux4();
- ihook = get_iaux5();
-
- float pitch_value = current_ch1() * RAD_TO_DEG;
-
- if(hudladder_type=="Climb/Dive Ladder") {
- pitch_ladder = false;
- climb_dive_ladder = true;
- clip_plane = true;
+#ifdef ENABLE_SP_FDM
+ int lgear, wown, wowm, ilcanclaw, ihook;
+ ilcanclaw = get_iaux2();
+ lgear = get_iaux3();
+ wown = get_iaux4();
+ wowm = get_iaux5();
+ ihook = get_iaux6();
+#endif
+ float pitch_value = current_ch1() * SGD_RADIANS_TO_DEGREES;
+
+ if (hudladder_type == "Climb/Dive Ladder") {
+ pitch_ladder = false;
+ climb_dive_ladder = true;
+ clip_plane = true;
+
+ } else { // hudladder_type == "Pitch Ladder"
+ pitch_ladder = true;
+ climb_dive_ladder = false;
+ clip_plane = false;
}
- else
- if(hudladder_type=="Pitch Ladder") {
- pitch_ladder = true;
- climb_dive_ladder = false;
- clip_plane = false;
- }
-
+
//**************************************************************
glPushMatrix();
- // define (0,0) as center of screen
- glTranslatef( centroid.x, centroid.y, 0);
+ // define (0, 0) as center of screen
+ glTranslatef(centroid.x, centroid.y, 0);
// OBJECT STATIC RETICLE
// TYPE FRL
// ATTRIB - ALWAYS
// Draw the FRL spot and line
- if(frl) {
+ if (frl) {
#define FRL_DIAMOND_SIZE 2.0
- glBegin(GL_LINE_LOOP);
- glVertex2f( -FRL_DIAMOND_SIZE, 0.0);
- glVertex2f(0.0, FRL_DIAMOND_SIZE);
- glVertex2f( FRL_DIAMOND_SIZE, 0.0);
- glVertex2f(0.0, -FRL_DIAMOND_SIZE);
- glEnd();
- glBegin(GL_LINE_STRIP);
- glVertex2f(0, FRL_DIAMOND_SIZE);
- glVertex2f(0, 8.0 );
- glEnd();
+ glBegin(GL_LINE_LOOP);
+ glVertex2f(-FRL_DIAMOND_SIZE, 0.0);
+ glVertex2f(0.0, FRL_DIAMOND_SIZE);
+ glVertex2f(FRL_DIAMOND_SIZE, 0.0);
+ glVertex2f(0.0, -FRL_DIAMOND_SIZE);
+ glEnd();
+
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(0, FRL_DIAMOND_SIZE);
+ glVertex2f(0, 8.0);
+ glEnd();
#undef FRL_DIAMOND_SIZE
}
// TYPE WATERLINE_MARK (W shaped _ _ )
- // \/\/
+ // \/\/
- //****************************************************************
+ //****************************************************************
// TYPE TARGET_SPOT
// Draw the target spot.
- if (target_spot) {
+ if (target_spot) {
#define CENTER_DIAMOND_SIZE 6.0
- glBegin(GL_LINE_LOOP);
- glVertex2f( -CENTER_DIAMOND_SIZE, 0.0);
- glVertex2f(0.0, CENTER_DIAMOND_SIZE);
- glVertex2f( CENTER_DIAMOND_SIZE, 0.0);
- glVertex2f(0.0, -CENTER_DIAMOND_SIZE);
- glEnd();
+ glBegin(GL_LINE_LOOP);
+ glVertex2f(-CENTER_DIAMOND_SIZE, 0.0);
+ glVertex2f(0.0, CENTER_DIAMOND_SIZE);
+ glVertex2f(CENTER_DIAMOND_SIZE, 0.0);
+ glVertex2f(0.0, -CENTER_DIAMOND_SIZE);
+ glEnd();
#undef CENTER_DIAMOND_SIZE
}
- //****************************************************************
+ //****************************************************************
//velocity vector reticle - computations
- if(velocity_vector) {
- Vxx = get_Vx();
- Vyy = get_Vy();
- Vzz = get_Vz();
- Axx = get_Ax();
- Ayy = get_Ay();
- Azz = get_Az();
- psi = get_heading();
-
- if (psi > 180.0) psi = psi - 360;
-
- total_vel = sqrt(Vxx*Vxx + Vyy*Vyy + Vzz*Vzz);
- ground_vel = sqrt(Vxx*Vxx + Vyy*Vyy);
- up_vel = Vzz;
-
- if (ground_vel < 2.0) {
- if (fabs(up_vel) < 2.0) {
- actslope = 0.0;
- } else {
- actslope = (up_vel/fabs(up_vel))*90.0;
- }
- } else {
- actslope = atan(up_vel/ground_vel)*RAD_TO_DEG;
- }
-
- xvvr = (((atan2(Vyy,Vxx)*RAD_TO_DEG)-psi)*(640.0/45.0));
- drift = ((atan2(Vyy,Vxx)*RAD_TO_DEG)-psi);
- yvvr = ((actslope - pitch_value)*factor);
- vel_y = ((actslope -pitch_value) * cos(roll_value) + drift*sin(roll_value))*factor;
- vel_x = (-(actslope -pitch_value)*sin(roll_value) + drift*cos(roll_value))*(640/45.0);
- // printf("%f %f %f %f\n",vel_x,vel_y,drift,psi);
- //****************************************************************
- // OBJECT MOVING RETICLE
- // TYPE - DRIFT MARKER
- // ATTRIB - ALWAYS
- // drift marker
- if(drift_marker) {
- glBegin(GL_LINE_STRIP);
- glVertex2f((xvvr*25/120)-6, -4);
- glVertex2f(xvvr*25/120, 8);
- glVertex2f((xvvr*25/120)+6, -4);
- glEnd();
- }
-
- //****************************************************************
- // Clipping coordinates for ladder to be input from xml file
- // Clip hud ladder
- if (clip_plane) {
- glClipPlane(GL_CLIP_PLANE0,eqn_top);
- glEnable(GL_CLIP_PLANE0);
- glClipPlane(GL_CLIP_PLANE1,eqn_left);
- glEnable(GL_CLIP_PLANE1);
- glClipPlane(GL_CLIP_PLANE2,eqn_right);
- glEnable(GL_CLIP_PLANE2);
- // glScissor(-100,-240,200,240);
- // glEnable(GL_SCISSOR_TEST);
- }
- //****************************************************************
- // OBJECT MOVING RETICLE
- // TYPE VELOCITY VECTOR
- // ATTRIB - ALWAYS
- // velocity vector
- glBegin(GL_LINE_LOOP); // Use polygon to approximate a circle
- for(count=0; count<50; count++) {
- cosine = 6 * cos(count * 2 * FG_PI/50.0);
- sine = 6 * sin(count * 2 * FG_PI/50.0);
- glVertex2f(cosine+vel_x, sine+vel_y);
- }
- glEnd();
- //velocity vector reticle orientation lines
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x-12, vel_y);
- glVertex2f(vel_x-6, vel_y);
- glEnd();
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x+12, vel_y);
- glVertex2f(vel_x+6, vel_y);
- glEnd();
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x, vel_y+12);
- glVertex2f(vel_x, vel_y+6);
- glEnd();
-
- // OBJECT MOVING RETICLE
- // TYPE LINE
- // ATTRIB - ON CONDITION
- if (lgear == 1) {
- // undercarriage status
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x+8, vel_y);
- glVertex2f(vel_x+8, vel_y-4);
- glEnd();
- // OBJECT MOVING RETICLE
- // TYPE LINE
- // ATTRIB - ON CONDITION
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x-8, vel_y);
- glVertex2f(vel_x-8, vel_y-4);
- glEnd();
- // OBJECT MOVING RETICLE
- // TYPE LINE
- // ATTRIB - ON CONDITION
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x, vel_y-6);
- glVertex2f(vel_x, vel_y-10);
- glEnd();
- }
-
- // OBJECT MOVING RETICLE
- // TYPE V
- // ATTRIB - ON CONDITION
- if (ihook == 1) {
- // arrestor hook status
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x-4, vel_y-8);
- glVertex2f(vel_x, vel_y-10);
- glVertex2f(vel_x+4, vel_y-8);
- glEnd();
- }
- }//if velocity_vector
+ if (velocity_vector) {
+ Vxx = get_Vx();
+ Vyy = get_Vy();
+ Vzz = get_Vz();
+ Axx = get_Ax();
+ Ayy = get_Ay();
+ Azz = get_Az();
+ psi = get_heading();
+
+ if (psi > 180.0)
+ psi = psi - 360;
+
+ total_vel = sqrt(Vxx * Vxx + Vyy * Vyy + Vzz * Vzz);
+ ground_vel = sqrt(Vxx * Vxx + Vyy * Vyy);
+ up_vel = Vzz;
+
+ if (ground_vel < 2.0) {
+ if (fabs(up_vel) < 2.0)
+ actslope = 0.0;
+ else
+ actslope = (up_vel / fabs(up_vel)) * 90.0;
+
+ } else {
+ actslope = atan(up_vel / ground_vel) * SGD_RADIANS_TO_DEGREES;
+ }
+
+ xvvr = (((atan2(Vyy, Vxx) * SGD_RADIANS_TO_DEGREES) - psi)
+ * (factor / globals->get_current_view()->get_aspect_ratio()));
+ drift = ((atan2(Vyy, Vxx) * SGD_RADIANS_TO_DEGREES) - psi);
+ yvvr = ((actslope - pitch_value) * factor);
+ vel_y = ((actslope - pitch_value) * cos(roll_value) + drift * sin(roll_value)) * factor;
+ vel_x = (-(actslope - pitch_value) * sin(roll_value) + drift * cos(roll_value))
+ * (factor/globals->get_current_view()->get_aspect_ratio());
+ // printf("%f %f %f %f\n",vel_x, vel_y, drift, psi);
+
+ //****************************************************************
+ // OBJECT MOVING RETICLE
+ // TYPE - DRIFT MARKER
+ // ATTRIB - ALWAYS
+ // drift marker
+ if (drift_marker) {
+ glBegin(GL_LINE_STRIP);
+ glVertex2f((xvvr * 25 / 120) - 6, -4);
+ glVertex2f(xvvr * 25 / 120, 8);
+ glVertex2f((xvvr * 25 / 120) + 6, -4);
+ glEnd();
+ }
+
+ //****************************************************************
+ // Clipping coordinates for ladder to be input from xml file
+ // Clip hud ladder
+ if (clip_plane) {
+ glClipPlane(GL_CLIP_PLANE0, eqn_top);
+ glEnable(GL_CLIP_PLANE0);
+ glClipPlane(GL_CLIP_PLANE1, eqn_left);
+ glEnable(GL_CLIP_PLANE1);
+ glClipPlane(GL_CLIP_PLANE2, eqn_right);
+ glEnable(GL_CLIP_PLANE2);
+ // glScissor(-100,-240, 200, 240);
+ // glEnable(GL_SCISSOR_TEST);
+ }
+
+ //****************************************************************
+ // OBJECT MOVING RETICLE
+ // TYPE VELOCITY VECTOR
+ // ATTRIB - ALWAYS
+ // velocity vector
+ glBegin(GL_LINE_LOOP); // Use polygon to approximate a circle
+ for (count = 0; count < 50; count++) {
+ cosine = 6 * cos(count * SGD_2PI / 50.0);
+ sine = 6 * sin(count * SGD_2PI / 50.0);
+ glVertex2f(cosine + vel_x, sine + vel_y);
+ }
+ glEnd();
+
+ //velocity vector reticle orientation lines
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x - 12, vel_y);
+ glVertex2f(vel_x - 6, vel_y);
+ glEnd();
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x + 12, vel_y);
+ glVertex2f(vel_x + 6, vel_y);
+ glEnd();
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x, vel_y + 12);
+ glVertex2f(vel_x, vel_y + 6);
+ glEnd();
+
+#ifdef ENABLE_SP_FDM
+ // OBJECT MOVING RETICLE
+ // TYPE LINE
+ // ATTRIB - ON CONDITION
+ if (lgear == 1) {
+ // undercarriage status
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x + 8, vel_y);
+ glVertex2f(vel_x + 8, vel_y - 4);
+ glEnd();
+
+ // OBJECT MOVING RETICLE
+ // TYPE LINE
+ // ATTRIB - ON CONDITION
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x - 8, vel_y);
+ glVertex2f(vel_x - 8, vel_y - 4);
+ glEnd();
+
+ // OBJECT MOVING RETICLE
+ // TYPE LINE
+ // ATTRIB - ON CONDITION
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x, vel_y - 6);
+ glVertex2f(vel_x, vel_y - 10);
+ glEnd();
+ }
+
+ // OBJECT MOVING RETICLE
+ // TYPE V
+ // ATTRIB - ON CONDITION
+ if (ihook == 1) {
+ // arrestor hook status
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x - 4, vel_y - 8);
+ glVertex2f(vel_x, vel_y - 10);
+ glVertex2f(vel_x + 4, vel_y - 8);
+ glEnd();
+ }
+#endif
+ } // if velocity_vector
+
//***************************************************************
// OBJECT MOVING RETICLE
// TYPE - SQUARE_BRACKET
// ATTRIB - ON CONDITION
// alpha bracket
- if (alpha_bracket) {
- if (ihook == 1) {
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x-20 , vel_y-(16-alpha)*factor);
- glVertex2f(vel_x-17, vel_y-(16-alpha)*factor);
- glVertex2f(vel_x-17, vel_y-(14-alpha)*factor);
- glVertex2f(vel_x-20, vel_y-(14-alpha)*factor);
- glEnd();
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x+20 , vel_y-(16-alpha)*factor);
- glVertex2f(vel_x+17, vel_y-(16-alpha)*factor);
- glVertex2f(vel_x+17, vel_y-(14-alpha)*factor);
- glVertex2f(vel_x+20, vel_y-(14-alpha)*factor);
- glEnd();
- }
+#ifdef ENABLE_SP_FDM
+ if (alpha_bracket && ihook == 1) {
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x - 20 , vel_y - (16 - alpha) * factor);
+ glVertex2f(vel_x - 17, vel_y - (16 - alpha) * factor);
+ glVertex2f(vel_x - 17, vel_y - (14 - alpha) * factor);
+ glVertex2f(vel_x - 20, vel_y - (14 - alpha) * factor);
+ glEnd();
+
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x + 20 , vel_y - (16 - alpha) * factor);
+ glVertex2f(vel_x + 17, vel_y - (16 - alpha) * factor);
+ glVertex2f(vel_x + 17, vel_y - (14 - alpha) * factor);
+ glVertex2f(vel_x + 20, vel_y - (14 - alpha) * factor);
+ glEnd();
}
- //printf("xvr=%f,yvr=%f,Vx=%f,Vy=%f,Vz=%f\n",xvvr,yvvr,Vx,Vy,Vz);
- //printf("Ax=%f,Ay=%f,Az=%f\n",Ax,Ay,Az);
- //****************************************************************
+#endif
+ //printf("xvr=%f, yvr=%f, Vx=%f, Vy=%f, Vz=%f\n",xvvr, yvvr, Vx, Vy, Vz);
+ //printf("Ax=%f, Ay=%f, Az=%f\n",Ax, Ay, Az);
+
+ //****************************************************************
// OBJECT MOVING RETICLE
// TYPE ENERGY_MARKERS
// ATTRIB - ALWAYS
//energy markers - compute potential slope
- if(energy_marker) {
- if (total_vel < 5.0) {
- t1 = 0;
- t2 = 0;
- } else {
- t1 = up_vel/total_vel;
- t2 = asin((Vxx*Axx + Vyy*Ayy + Vzz*Azz)/(9.81*total_vel));
- }
- pot_slope = ((t2/3)*RAD_TO_DEG)*factor + vel_y;
- // if (pot_slope < (vel_y - 45)) pot_slope = vel_y-45;
- // if (pot_slope > (vel_y + 45)) pot_slope = vel_y+45;
-
- //energy markers
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x-20, pot_slope-5);
- glVertex2f(vel_x-15, pot_slope);
- glVertex2f(vel_x-20, pot_slope+5);
- glEnd();
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x+20, pot_slope-5);
- glVertex2f(vel_x+15, pot_slope);
- glVertex2f(vel_x+20, pot_slope+5);
- glEnd();
- if (pla > (105.0/131.0)) {
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x-24, pot_slope-5);
- glVertex2f(vel_x-19, pot_slope);
- glVertex2f(vel_x-24, pot_slope+5);
- glEnd();
- glBegin(GL_LINE_STRIP);
- glVertex2f(vel_x+24, pot_slope-5);
- glVertex2f(vel_x+19, pot_slope);
- glVertex2f(vel_x+24, pot_slope+5);
- glEnd();
- }
+ if (energy_marker) {
+ if (total_vel < 5.0) {
+ t1 = 0;
+ t2 = 0;
+ } else {
+ t1 = up_vel / total_vel;
+ t2 = asin((Vxx * Axx + Vyy * Ayy + Vzz * Azz) / (9.81 * total_vel));
+ }
+ pot_slope = ((t2 / 3) * SGD_RADIANS_TO_DEGREES) * factor + vel_y;
+ // if (pot_slope < (vel_y - 45)) pot_slope = vel_y - 45;
+ // if (pot_slope > (vel_y + 45)) pot_slope = vel_y + 45;
+
+ //energy markers
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x - 20, pot_slope - 5);
+ glVertex2f(vel_x - 15, pot_slope);
+ glVertex2f(vel_x - 20, pot_slope + 5);
+ glEnd();
+
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x + 20, pot_slope - 5);
+ glVertex2f(vel_x + 15, pot_slope);
+ glVertex2f(vel_x + 20, pot_slope + 5);
+ glEnd();
+
+ if (pla > (105.0 / 131.0)) {
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x - 24, pot_slope - 5);
+ glVertex2f(vel_x - 19, pot_slope);
+ glVertex2f(vel_x - 24, pot_slope + 5);
+ glEnd();
+
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(vel_x + 24, pot_slope - 5);
+ glVertex2f(vel_x + 19, pot_slope);
+ glVertex2f(vel_x + 24, pot_slope + 5);
+ glEnd();
+ }
}
- //**********************************************************
+
+ //**********************************************************
// ramp reticle
// OBJECT STATIC RETICLE
// TYPE LINE
// ATTRIB - ON CONDITION
- if (energy_worm) {
- if (ilcanclaw == 1) {
- glBegin(GL_LINE_STRIP);
- glVertex2f(-15, -134);
- glVertex2f(15, -134);
- glEnd();
- // OBJECT MOVING RETICLE
- // TYPE BOX
- // ATTRIB - ON CONDITION
- glBegin(GL_LINE_STRIP);
- glVertex2f(-6, -134);
- glVertex2f(-6, t2*RAD_TO_DEG*4.0 - 134);
- glVertex2f(+6, t2*RAD_TO_DEG*4.0 - 134);
- glVertex2f(6, -134);
- glEnd();
- // OBJECT MOVING RETICLE
- // TYPE DIAMOND
- // ATTRIB - ON CONDITION
- glBegin(GL_LINE_LOOP);
- glVertex2f(-6, actslope*4.0 - 134);
- glVertex2f(0, actslope*4.0 -134 +3);
- glVertex2f(6, actslope*4.0 - 134);
- glVertex2f(0, actslope*4.0 -134 -3);
- glEnd();
- }
+#ifdef ENABLE_SP_FDM
+ if (energy_worm && ilcanclaw == 1) {
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(-15, -134);
+ glVertex2f(15, -134);
+ glEnd();
+
+ // OBJECT MOVING RETICLE
+ // TYPE BOX
+ // ATTRIB - ON CONDITION
+ glBegin(GL_LINE_STRIP);
+ glVertex2f(-6, -134);
+ glVertex2f(-6, t2 * SGD_RADIANS_TO_DEGREES * 4.0 - 134);
+ glVertex2f(+6, t2 * SGD_RADIANS_TO_DEGREES * 4.0 - 134);
+ glVertex2f(6, -134);
+ glEnd();
+
+ // OBJECT MOVING RETICLE
+ // TYPE DIAMOND
+ // ATTRIB - ON CONDITION
+ glBegin(GL_LINE_LOOP);
+ glVertex2f(-6, actslope * 4.0 - 134);
+ glVertex2f(0, actslope * 4.0 -134 + 3);
+ glVertex2f(6, actslope * 4.0 - 134);
+ glVertex2f(0, actslope * 4.0 -134 -3);
+ glEnd();
}
+#endif
+
//*************************************************************
// OBJECT MOVING RETICLE
// TYPE DIAMOND
// ATTRIB - ALWAYS
// Draw the locked velocity vector.
- if(climb_dive_marker) {
- glBegin(GL_LINE_LOOP);
- glVertex2f( -3.0, 0.0+vel_y);
- glVertex2f(0.0, 6.0+vel_y);
- glVertex2f( 3.0, 0.0+vel_y);
- glVertex2f(0.0, -6.0+vel_y);
- glEnd();
+ if (climb_dive_marker) {
+ glBegin(GL_LINE_LOOP);
+ glVertex2f(-3.0, 0.0 + vel_y);
+ glVertex2f(0.0, 6.0 + vel_y);
+ glVertex2f(3.0, 0.0 + vel_y);
+ glVertex2f(0.0, -6.0 + vel_y);
+ glEnd();
}
- //****************************************************************
+ //****************************************************************
- if(climb_dive_ladder) {// CONFORMAL_HUD
-
- vmin = pitch_value - (float)width_units;
- vmax = pitch_value + (float)width_units;
-
- glTranslatef( vel_x, vel_y, 0);
+ if (climb_dive_ladder) { // CONFORMAL_HUD
+ vmin = pitch_value - (float)width_units;
+ vmax = pitch_value + (float)width_units;
+ glTranslatef(vel_x, vel_y, 0);
+ } else { // pitch_ladder - Default Hud
+ vmin = pitch_value - (float)width_units * 0.5f;
+ vmax = pitch_value + (float)width_units * 0.5f;
}
- else
- if (pitch_ladder) {//Default Hud
-
- vmin = pitch_value - (float)width_units * 0.5f;
- vmax = pitch_value + (float)width_units * 0.5f;
- }
-
- glRotatef(roll_value * RAD_TO_DEG, 0.0, 0.0, 1.0);
+ glRotatef(roll_value * SGD_RADIANS_TO_DEGREES, 0.0, 0.0, 1.0);
// FRL marker not rotated - this line shifted below
- if( div_units ) {
-
- char TextLadder[8] ;
- float label_length ;
- float label_height ;
- float left ;
- float right ;
- float bot ;
- float top ;
- float text_offset = 4.0f ;
- float zero_offset;
-
- if(climb_dive_ladder)
- zero_offset = 50.0f ;
- else
- if(pitch_ladder)
- zero_offset = 10.0f ;
-
- fntFont *font = HUDtext->getFont();
- float pointsize = HUDtext->getPointSize();
- float italic = HUDtext->getSlant();
-
- TextList.setFont( HUDtext );
+ if (div_units) {
+ char TextLadder[8];
+ float label_length;
+ float label_height;
+ float left;
+ float right;
+ float bot;
+ float top;
+ float text_offset = 4.0f;
+ float zero_offset = 0.0;
+
+ if (climb_dive_ladder)
+ zero_offset = 50.0f; // horizon line is wider by this much (hard coded ??)
+ else
+ zero_offset = 10.0f;
+
+ fntFont *font = HUDtext->getFont(); // FIXME
+ float pointsize = HUDtext->getPointSize();
+ float italic = HUDtext->getSlant();
+
+ TextList.setFont(HUDtext);
TextList.erase();
LineList.erase();
StippleLineList.erase();
- int last = FloatToInt(vmax)+1;
- int i = FloatToInt(vmin);
-
- if( !scr_hole ) {
- x_end = half_span;
- for( ; i<last ; i++ ) {
-
- y = (((float)(i - pitch_value) * factor) + .5f);
- if( !(i % div_units )) { // At integral multiple of div
-
- sprintf( TextLadder, "%d", i );
- font->getBBox ( TextLadder, pointsize, italic,
- &left, &right, &bot, &top ) ;
- label_length = right - left;
+ int last = float_to_int(vmax) + 1;
+ int i = float_to_int(vmin);
+
+ if (!scr_hole) {
+ x_end = half_span;
+
+ for (; i<last; i++) {
+ y = (((float)(i - pitch_value) * factor) + .5f);
+
+ if (!(i % div_units)) { // At integral multiple of div
+ sprintf(TextLadder, "%d", i);
+ font->getBBox(TextLadder, pointsize, italic,
+ &left, &right, &bot, &top);
+ label_length = right - left;
label_length += text_offset;
- label_height = (top - bot)/2.0f;
-
+ label_height = (top - bot) / 2.0f;
+
x_ini = -half_span;
-
- if( i >= 0 ) {
+
+ if (i >= 0) {
// Make zero point wider on left
- if( i == 0 )
+ if (i == 0)
x_ini -= zero_offset;
+
// Zero or above draw solid lines
Line(x_ini, y, x_end, y);
+
+ if (i == 90 && zenith == 1)
+ drawZenith(x_ini, x_end, y);
} else {
// Below zero draw dashed lines.
StippleLine(x_ini, y, x_end, y);
+
+ if (i == -90 && nadir ==1)
+ drawNadir(x_ini, x_end, y);
}
-
+
// Calculate the position of the left text and write it.
- Text( x_ini-label_length, y-label_height, TextLadder );
- Text( x_end+text_offset, y-label_height, TextLadder );
+ Text(x_ini-label_length, y-label_height, TextLadder);
+ Text(x_end+text_offset, y-label_height, TextLadder);
+ }
+ }
+
+ } else { // if (scr_hole)
+ // Draw ladder with space in the middle of the lines
+ float hole = (float)((scr_hole) / 2.0f);
+
+ x_end = -half_span + hole;
+ x_ini2 = half_span - hole;
+
+ for (; i < last; i++) {
+ if (hudladder_type == "Pitch Ladder")
+ y = (((float)(i - pitch_value) * factor) + .5);
+ else if (hudladder_type == "Climb/Dive Ladder")
+ y = (((float)(i - actslope) * factor) + .5);
+
+ if (!(i % div_units)) { // At integral multiple of div
+ sprintf(TextLadder, "%d", i);
+ font->getBBox(TextLadder, pointsize, italic,
+ &left, &right, &bot, &top);
+ label_length = right - left;
+ label_length += text_offset;
+ label_height = (top - bot) / 2.0f;
+ // printf("l %f r %f b %f t %f\n",left, right, bot, top);
+
+ // Start by calculating the points and drawing the
+ // left side lines.
+ x_ini = -half_span;
+ x_end2 = half_span;
+
+ if (i >= 0) {
+ // Make zero point wider on left
+ if (i == 0) {
+ x_ini -= zero_offset;
+ x_end2 += zero_offset;
+ }
+ //draw climb bar vertical lines
+ if (climb_dive_ladder) {
+ // Zero or above draw solid lines
+ Line(x_end, y - 5.0, x_end, y);
+ Line(x_ini2, y - 5.0, x_ini2, y);
+ }
+ // draw pitch / climb bar
+ Line(x_ini, y, x_end, y);
+ Line(x_ini2, y, x_end2, y);
+
+ if (i == 90 && zenith == 1)
+ drawZenith(x_ini2, x_end, y);
+
+ } else { // i < 0
+ // draw dive bar vertical lines
+ if (climb_dive_ladder) {
+ Line(x_end, y + 5.0, x_end, y);
+ Line(x_ini2, y + 5.0, x_ini2, y);
+ }
+
+ // draw pitch / dive bars
+ StippleLine(x_ini, y, x_end, y);
+ StippleLine(x_ini2, y, x_end2, y);
+
+ if (i == -90 && nadir == 1)
+ drawNadir(x_ini2, x_end, y);
+ }
+
+ // Now calculate the location of the left side label using
+ Text(x_ini-label_length, y - label_height, TextLadder);
+ Text(x_end2+text_offset, y - label_height, TextLadder);
}
}
+
+ // OBJECT LADDER MARK
+ // TYPE LINE
+ // ATTRIB - ON CONDITION
+ // draw appraoch glide slope marker
+#ifdef ENABLE_SP_FDM
+ if (glide_slope_marker && ihook) {
+ Line(-half_span + 15, (glide_slope-actslope) * factor,
+ -half_span + hole, (glide_slope - actslope) * factor);
+ Line(half_span - 15, (glide_slope-actslope) * factor,
+ half_span - hole, (glide_slope - actslope) * factor);
+ }
+#endif
}
- else // if(scr_hole )
- { // Draw ladder with space in the middle of the lines
- float hole = (float)((scr_hole)/2.0f);
-
- x_end = -half_span + hole;
- x_ini2= half_span - hole;
- for( ; i<last ; i++ ) {
-
- if(hudladder_type=="Pitch Ladder")
- y = (((float)(i - pitch_value) * factor) + .5);
- else
- if(hudladder_type=="Climb/Dive Ladder")
- y = (((float)(i - actslope) * factor) + .5);
-
- if( !(i % div_units )) { // At integral multiple of div
-
- sprintf( TextLadder, "%d", i );
- font->getBBox ( TextLadder, pointsize, italic,
- &left, &right, &bot, &top ) ;
- label_length = right - left;
- label_length += text_offset;
- label_height = (top - bot)/2.0f;
- // printf("l %f r %f b %f t %f\n",left, right, bot, top );
-
- // Start by calculating the points and drawing the
- // left side lines.
- x_ini = -half_span;
- x_end2= half_span;
-
- if( i >= 0 ) {
- // Make zero point wider on left
- if( i == 0 ) {
- x_ini -= zero_offset;
- x_end2 +=zero_offset;
- } else {
- if(climb_dive_ladder){
- // Zero or above draw solid lines
- Line(x_end, y-5.0, x_end, y);
- Line(x_ini2, y-5.0, x_ini2, y);
- }
- }
-
- Line(x_ini, y, x_end, y);
- Line(x_ini2, y, x_end2, y);
-
- } else {
- // Below zero draw dashed lines.
- if(climb_dive_ladder) {
- Line(x_end, y+5.0, x_end, y);
- Line(x_ini2, y+5.0, x_ini2, y);
- }
- StippleLine(x_ini, y, x_end, y);
- StippleLine(x_ini2, y, x_end2, y);
- }
-
- // Now calculate the location of the left side label using
- Text( x_ini-label_length, y-label_height, TextLadder );
- Text (x_end2+text_offset, y-label_height, TextLadder );
-
- }
- }
-
- // OBJECT LADDER MARK
- // TYPE LINE
- // ATTRIB - ON CONDITION
- // draw appraoch glide slope marker
- if (glide_slope_marker) {
- if (ihook) {
- Line(-half_span+15, (glide_slope-actslope)*factor, -half_span + hole, (glide_slope-actslope)*factor);
- Line(half_span-15, (glide_slope-actslope)*factor, half_span - hole, (glide_slope-actslope)*factor);
- }
- }// if glide_slope_marker
- }
TextList.draw();
glLineWidth(0.2);
-
+
LineList.draw();
-
+
glEnable(GL_LINE_STIPPLE);
- glLineStipple( 1, 0x00FF );
- StippleLineList.draw( );
+ glLineStipple(1, 0x00FF);
+ StippleLineList.draw();
glDisable(GL_LINE_STIPPLE);
}
glDisable(GL_CLIP_PLANE0);
glDisable(GL_CLIP_PLANE1);
glDisable(GL_CLIP_PLANE2);
- // glDisable(GL_SCISSOR_TEST);
+ // glDisable(GL_SCISSOR_TEST);
glPopMatrix();
//*************************************************************
+
//*************************************************************
- if(waypoint_marker) {
- //waypoint marker computation
- float fromwp_lat,towp_lat,fromwp_lon,towp_lon,dist,delx,dely,hyp,theta,brg;
-
- fromwp_lon = get_longitude()*DEG_TO_RAD;
- fromwp_lat = get_latitude()*DEG_TO_RAD;
- towp_lon = get_aux5()*DEG_TO_RAD;
- towp_lat = get_aux6()*DEG_TO_RAD;
-
- dist = acos(sin(fromwp_lat)*sin(towp_lat)+cos(fromwp_lat)*cos(towp_lat)*cos(fabs(fromwp_lon-towp_lon)));
- delx= towp_lat - fromwp_lat;
- dely = towp_lon - fromwp_lon;
- hyp = sqrt(pow(delx,2)+pow(dely,2));
- if (hyp != 0) {
- theta = asin(dely/hyp);
- } else {
- theta = 0.0;
- }
- brg = theta*RAD_TO_DEG;
- if (brg > 360.0) brg = 0.0;
- if (delx < 0) brg = 180 - brg;
-
- // {Brg = asin(cos(towp_lat)*sin(fabs(fromwp_lon-towp_lon))/ sin(dist));
- // Brg = Brg * RAD_TO_DEG; }
- dist = dist*RAD_TO_DEG * 60.0*1852.0; //rad->deg->nm->m
- // end waypoint marker computation
- //*********************************************************
- // OBJECT MOVING RETICLE
- // TYPE ARROW
- // waypoint marker
- if (fabs(brg-psi) > 10.0) {
- glPushMatrix();
- glTranslatef( centroid.x, centroid.y, 0);
- glTranslatef( vel_x, vel_y, 0);
- glRotatef(brg - psi,0.0,0.0,-1.0);
- glBegin(GL_LINE_LOOP);
- glVertex2f(-2.5,20.0);
- glVertex2f(-2.5,30.0);
- glVertex2f(-5.0,30.0);
- glVertex2f(0.0,35.0);
- glVertex2f(5.0,30.0);
- glVertex2f(2.5,30.0);
- glVertex2f(2.5,20.0);
- glEnd();
- glPopMatrix();
- }
- // waypoint marker on heading scale
- if (fabs(brg-psi) < 12.0) {
- glBegin(GL_LINE_LOOP);
- glVertex2f(((brg-psi)*60/25)+320,240.0);
- glVertex2f(((brg-psi)*60/25)+326,240.0-4);
- glVertex2f(((brg-psi)*60/25)+323,240.0-4);
- glVertex2f(((brg-psi)*60/25)+323,240.0-8);
- glVertex2f(((brg-psi)*60/25)+317,240.0-8);
- glVertex2f(((brg-psi)*60/25)+317,240.0-4);
- glVertex2f(((brg-psi)*60/25)+314,240.0-4);
- glEnd();
- }
- //*************************************************************
- }// if waypoint_marker
+#ifdef ENABLE_SP_FDM
+ if (waypoint_marker) {
+ //waypoint marker computation
+ float fromwp_lat, towp_lat, fromwp_lon, towp_lon, dist, delx, dely, hyp, theta, brg;
+
+ fromwp_lon = get_longitude() * SGD_DEGREES_TO_RADIANS;
+ fromwp_lat = get_latitude() * SGD_DEGREES_TO_RADIANS;
+ towp_lon = get_aux2() * SGD_DEGREES_TO_RADIANS;
+ towp_lat = get_aux1() * SGD_DEGREES_TO_RADIANS;
+
+ dist = acos(sin(fromwp_lat) * sin(towp_lat) + cos(fromwp_lat)
+ * cos(towp_lat) * cos(fabs(fromwp_lon - towp_lon)));
+ delx= towp_lat - fromwp_lat;
+ dely = towp_lon - fromwp_lon;
+ hyp = sqrt(pow(delx, 2) + pow(dely, 2));
+
+ if (hyp != 0)
+ theta = asin(dely / hyp);
+ else
+ theta = 0.0;
+
+ brg = theta * SGD_RADIANS_TO_DEGREES;
+ if (brg > 360.0)
+ brg = 0.0;
+ if (delx < 0)
+ brg = 180 - brg;
+
+ // {Brg = asin(cos(towp_lat)*sin(fabs(fromwp_lon-towp_lon))/ sin(dist));
+ // Brg = Brg * SGD_RADIANS_TO_DEGREES; }
+
+ dist *= SGD_RADIANS_TO_DEGREES * 60.0 * 1852.0; //rad->deg->nm->m
+ // end waypoint marker computation
+
+ //*********************************************************
+ // OBJECT MOVING RETICLE
+ // TYPE ARROW
+ // waypoint marker
+ if (fabs(brg-psi) > 10.0) {
+ glPushMatrix();
+ glTranslatef(centroid.x, centroid.y, 0);
+ glTranslatef(vel_x, vel_y, 0);
+ glRotatef(brg - psi, 0.0, 0.0, -1.0);
+ glBegin(GL_LINE_LOOP);
+ glVertex2f(-2.5, 20.0);
+ glVertex2f(-2.5, 30.0);
+ glVertex2f(-5.0, 30.0);
+ glVertex2f(0.0, 35.0);
+ glVertex2f(5.0, 30.0);
+ glVertex2f(2.5, 30.0);
+ glVertex2f(2.5, 20.0);
+ glEnd();
+ glPopMatrix();
+ }
+
+ // waypoint marker on heading scale
+ if (fabs(brg-psi) < 12.0) {
+ if (hat == 0) {
+ glBegin(GL_LINE_LOOP);
+ glVertex2f(((brg - psi) * 60 / 25) + 320, 240.0);
+ glVertex2f(((brg - psi) * 60 / 25) + 326, 240.0 - 4);
+ glVertex2f(((brg - psi) * 60 / 25) + 323, 240.0 - 4);
+ glVertex2f(((brg - psi) * 60 / 25) + 323, 240.0 - 8);
+ glVertex2f(((brg - psi) * 60 / 25) + 317, 240.0 - 8);
+ glVertex2f(((brg - psi) * 60 / 25) + 317, 240.0 - 4);
+ glVertex2f(((brg - psi) * 60 / 25) + 314, 240.0 - 4);
+ glEnd();
+
+ } else { //if hat=0
+ float x = (brg - psi) * 60 / 25 + 320, y = 240.0, r = 5.0;
+ float x1, y1;
+
+ glEnable(GL_POINT_SMOOTH);
+ glBegin(GL_POINTS);
+
+ for (int count = 0; count <= 200; count++) {
+ float temp = count * 3.142 * 3 / (200.0 * 2.0);
+ float temp1 = temp - (45.0 * SGD_DEGREES_TO_RADIANS);
+ x1 = x + r * cos(temp1);
+ y1 = y + r * sin(temp1);
+ glVertex2f(x1, y1);
+ }
+
+ glEnd();
+ glDisable(GL_POINT_SMOOTH);
+ } //hat=0
+
+ } //brg<12
+ } // if waypoint_marker
+#endif
}//draw
+
+
+/******************************************************************/
+// draws the zenith symbol for highest possible climb angle (i.e. 90 degree climb angle)
+//
+void HudLadder::drawZenith(float xfirst, float xlast, float yvalue)
+{
+ float xcentre = (xfirst + xlast) / 2.0;
+ float ycentre = yvalue;
+
+ Line(xcentre - 9.0, ycentre, xcentre - 3.0, ycentre + 1.3);
+ Line(xcentre - 9.0, ycentre, xcentre - 3.0, ycentre - 1.3);
+
+ Line(xcentre + 9.0, ycentre, xcentre + 3.0, ycentre + 1.3);
+ Line(xcentre + 9.0, ycentre, xcentre + 3.0, ycentre - 1.3);
+
+ Line(xcentre, ycentre + 9.0, xcentre - 1.3, ycentre + 3.0);
+ Line(xcentre, ycentre + 9.0, xcentre + 1.3, ycentre + 3.0);
+
+ Line(xcentre - 3.9, ycentre + 3.9, xcentre - 3.0, ycentre + 1.3);
+ Line(xcentre - 3.9, ycentre + 3.9, xcentre - 1.3, ycentre + 3.0);
+
+ Line(xcentre + 3.9, ycentre + 3.9, xcentre + 1.3, ycentre+3.0);
+ Line(xcentre + 3.9, ycentre + 3.9, xcentre + 3.0, ycentre+1.3);
+
+ Line(xcentre - 3.9, ycentre - 3.9, xcentre - 3.0, ycentre-1.3);
+ Line(xcentre - 3.9, ycentre - 3.9, xcentre - 1.3, ycentre-2.6);
+
+ Line(xcentre + 3.9, ycentre - 3.9, xcentre + 3.0, ycentre-1.3);
+ Line(xcentre + 3.9, ycentre - 3.9, xcentre + 1.3, ycentre-2.6);
+
+ Line(xcentre - 1.3, ycentre - 2.6, xcentre, ycentre - 27.0);
+ Line(xcentre + 1.3, ycentre - 2.6, xcentre, ycentre - 27.0);
+}
+
+
+// draws the nadir symbol for lowest possible dive angle (i.e. 90 degree dive angle)
+//
+void HudLadder::drawNadir(float xfirst, float xlast, float yvalue)
+{
+ float xcentre = (xfirst + xlast) / 2.0;
+ float ycentre = yvalue;
+
+ float r = 7.5;
+ float x1, y1, x2, y2;
+
+ // to draw a circle
+ float xcent1, xcent2, ycent1, ycent2;
+ xcent1 = xcentre + r;
+ ycent1 = ycentre;
+
+ for (int count = 1; count <= 400; count++) {
+ float temp = count * 2 * 3.142 / 400.0;
+ xcent2 = xcentre + r * cos(temp);
+ ycent2 = ycentre + r * sin(temp);
+
+ Line(xcent1, ycent1, xcent2, ycent2);
+
+ xcent1 = xcent2;
+ ycent1 = ycent2;
+ }
+
+ xcent2 = xcentre + r;
+ ycent2 = ycentre;
+
+ drawOneLine(xcent1, ycent1, xcent2, ycent2); //to connect last point to first point
+ //end circle
+
+ //to draw a line above the circle
+ Line(xcentre, ycentre + 7.5, xcentre, ycentre + 22.5);
+
+ //line in the middle of circle
+ Line(xcentre - 7.5, ycentre, xcentre + 7.5, ycentre);
+
+ float theta = asin (2.5 / 7.5);
+ float theta1 = asin(5.0 / 7.5);
+
+ x1 = xcentre + r * cos(theta);
+ y1 = ycentre + 2.5;
+ x2 = xcentre + r * cos((180.0 * SGD_DEGREES_TO_RADIANS) - theta);
+ y2 = ycentre + 2.5;
+ Line(x1, y1, x2, y2);
+
+ x1 = xcentre + r * cos(theta1);
+ y1 = ycentre + 5.0;
+ x2 = xcentre + r * cos((180.0 * SGD_DEGREES_TO_RADIANS) - theta1);
+ y2 = ycentre + 5.0;
+ Line(x1, y1, x2, y2);
+
+ x1 = xcentre + r * cos((180.0 * SGD_DEGREES_TO_RADIANS) + theta);
+ y1 = ycentre - 2.5;
+ x2 = xcentre + r * cos((360.0 * SGD_DEGREES_TO_RADIANS) - theta);
+ y2 = ycentre - 2.5;
+ Line(x1, y1, x2, y2);
+
+ x1 = xcentre + r * cos((180.0 * SGD_DEGREES_TO_RADIANS) + theta1);
+ y1 = ycentre - 5.0;
+ x2 = xcentre + r * cos((360.0 * SGD_DEGREES_TO_RADIANS) - theta1);
+ y2 = ycentre - 5.0;
+ Line(x1, y1, x2, y2);
+}
+
+