Esempio n. 1
0
// ------------------------------------------------------------------
// hud_augment_shield_quadrant()
//
// Transfer shield energy to a shield quadrant from the three other
//	quadrants.  Works by trying to transfer a fixed amount of shield
//	energy from the other three quadrants, taking the same percentage
// from each quadrant.
//
//	input:	objp			=>		object to perform shield transfer on
//				direction	=>		which quadrant to augment:
//										0 - right
//										1 - top
//										2 - bottom
//										3 - left
//
void hud_augment_shield_quadrant(object *objp, int direction)
{
	Assert(objp->type == OBJ_SHIP);

	ship *shipp = &Ships[objp->instance];
	ship_info *sip = &Ship_info[shipp->ship_info_index];
	float	xfer_amount, energy_avail, percent_to_take, delta;
	float	max_quadrant_val;
	int	i;

	if (sip->flags[Ship::Info_Flags::Model_point_shields]) {
		direction = sip->shield_point_augment_ctrls[direction];

		// The re-mapped direction can be -1 if this direction cannot be augmented
		if (direction < 0)
			return;
	}

	Assert(direction >= 0 && direction < objp->n_quadrants);
	
	xfer_amount = shipp->ship_max_shield_strength * SHIELD_TRANSFER_PERCENT;
	max_quadrant_val = get_max_shield_quad(objp);

	if ( (objp->shield_quadrant[direction] + xfer_amount) > max_quadrant_val )
		xfer_amount = max_quadrant_val - objp->shield_quadrant[direction];

	Assert(xfer_amount >= 0);
	if ( xfer_amount == 0 ) {
		// TODO: provide a feedback sound
		return;
	}
	else {
		snd_play( &Snds[SND_SHIELD_XFER_OK] );
	}

	energy_avail = 0.0f;
	for ( i = 0; i < objp->n_quadrants; i++ ) {
		if ( i == direction )
			continue;
		energy_avail += objp->shield_quadrant[i];
	}

	percent_to_take = xfer_amount/energy_avail;
	if ( percent_to_take > 1.0f )
		percent_to_take = 1.0f;

	for ( i = 0; i < objp->n_quadrants; i++ ) {
		if ( i == direction )
			continue;
		delta = percent_to_take * objp->shield_quadrant[i];
		objp->shield_quadrant[i] -= delta;
		Assert(objp->shield_quadrant[i] >= 0 );
		objp->shield_quadrant[direction] += delta;
		if ( objp->shield_quadrant[direction] > max_quadrant_val )
			objp->shield_quadrant[direction] = max_quadrant_val;
	}
}
Esempio n. 2
0
// ------------------------------------------------------------------
// hud_augment_shield_quadrant()
//
// Transfer shield energy to a shield quadrant from the three other
//	quadrants.  Works by trying to transfer a fixed amount of shield
//	energy from the other three quadrants, taking the same percentage
// from each quadrant.
//
//	input:	objp			=>		object to perform shield transfer on
//				direction	=>		which quadrant to augment:
//										0 - right
//										1 - top
//										2 - bottom
//										3 - left
//
void hud_augment_shield_quadrant(object* objp, int direction)
{
	float xfer_amount, energy_avail, percent_to_take, delta;
	float max_quadrant_val;
	int i;

	Assert(direction >= 0 && direction < MAX_SHIELD_SECTIONS);
	Assert(objp->type == OBJ_SHIP);

	xfer_amount = Ships[objp->instance].ship_max_shield_strength * SHIELD_TRANSFER_PERCENT;
	max_quadrant_val = get_max_shield_quad(objp);

	if ((objp->shield_quadrant[direction] + xfer_amount) > max_quadrant_val)
		xfer_amount = max_quadrant_val - objp->shield_quadrant[direction];

	Assert(xfer_amount >= 0);
	if (xfer_amount == 0)
	{
		// TODO: provide a feedback sound
		return;
	}
	else
	{
		snd_play(&Snds[SND_SHIELD_XFER_OK]);
	}

	energy_avail = 0.0f;
	for (i = 0; i < MAX_SHIELD_SECTIONS; i++)
	{
		if (i == direction)
			continue;
		energy_avail += objp->shield_quadrant[i];
	}

	percent_to_take = xfer_amount / energy_avail;
	if (percent_to_take > 1.0f)
		percent_to_take = 1.0f;

	for (i = 0; i < MAX_SHIELD_SECTIONS; i++)
	{
		if (i == direction)
			continue;
		delta = percent_to_take * objp->shield_quadrant[i];
		objp->shield_quadrant[i] -= delta;
		Assert(objp->shield_quadrant[i] >= 0);
		objp->shield_quadrant[direction] += delta;
		if (objp->shield_quadrant[direction] > max_quadrant_val)
			objp->shield_quadrant[direction] = max_quadrant_val;
	}
}
Esempio n. 3
0
/**
 * Returns true if the shield presents any opposition to something trying to force through it.
 *
 * @return If quadrant is -1, looks at entire shield, otherwise just one quadrant
 */
int ship_is_shield_up( object *obj, int quadrant )
{
    if ( (quadrant >= 0) && (quadrant < MAX_SHIELD_SECTIONS))	{
        // Just check one quadrant
        if (obj->shield_quadrant[quadrant] > MAX(2.0f, 0.1f * get_max_shield_quad(obj)))	{
            return 1;
        }
    } else {
        // Check all quadrants
        float strength = shield_get_strength(obj);

        if ( strength > MAX(2.0f*4.0f, 0.1f * Ships[obj->instance].ship_max_shield_strength ))	{
            return 1;
        }
    }
    return 0;	// no shield strength
}
Esempio n. 4
0
// Draw the miniature shield icon that is drawn near the reticle
void HudGaugeShieldMini::showMiniShields(object *objp)
{
	float			max_shield;
	int			hud_color_index, range, frame_offset;
	int			sx, sy, i;

	if ( objp->type != OBJ_SHIP ) {
		return;
	}

	setGaugeColor();

	sx = position[0]+fl2i(HUD_offset_x);
	sy = position[1]+fl2i(HUD_offset_y);

	// draw the ship first
	maybeFlashShield(SHIELD_HIT_TARGET, Shield_hit_data[SHIELD_HIT_TARGET].hull_hit_index);
	showIntegrity(get_hull_pct(objp));

	// draw the four quadrants
	// Draw shield quadrants at one of NUM_SHIELD_LEVELS
	max_shield = get_max_shield_quad(objp);

	for ( i = 0; i < objp->n_quadrants; i++ ) {

		if ( objp->flags[Object::Object_Flags::No_shields] ) {
			break;
		}

		if ( objp->shield_quadrant[Quadrant_xlate[i]] < 0.1f ) {
			continue;
		}

		if ( maybeFlashShield(SHIELD_HIT_TARGET, i) ) {
			frame_offset = i+objp->n_quadrants;
		} else {
			frame_offset = i;
		}
				
		range = HUD_color_alpha;
		hud_color_index = fl2i( (objp->shield_quadrant[Quadrant_xlate[i]] / max_shield) * range + 0.5);
		Assert(hud_color_index >= 0 && hud_color_index <= range);
	
		if ( hud_color_index < 0 ) {
			hud_color_index = 0;
		}
		if ( hud_color_index >= HUD_NUM_COLOR_LEVELS ) {
			hud_color_index = HUD_NUM_COLOR_LEVELS - 1;
		}

		if ( maybeFlashSexp() == 1) {
			// hud_set_bright_color();
			setGaugeColor(HUD_C_BRIGHT);
		} else {
			// gr_set_color_fast(&HUD_color_defaults[hud_color_index]);
			setGaugeColor(hud_color_index);
		}					 

		if (frame_offset < Shield_mini_gauge.num_frames)
			renderBitmap(Shield_mini_gauge.first_frame + frame_offset, sx, sy);		
	}
	
	// hud_set_default_color();
}
Esempio n. 5
0
void HudGaugeShield::showShields(object *objp, int mode)
{
//	static int fod_model = -1;
	float			max_shield;
	int			hud_color_index, range;
	int			sx, sy, i;
	ship			*sp;
	ship_info	*sip;
	hud_frames	*sgp=NULL;

	if ( objp->type != OBJ_SHIP )
		return;

	// Goober5000 - don't show if primitive sensors
	if ( Ships[Player_obj->instance].flags[Ship::Ship_Flags::Primitive_sensors] )
		return;

	sp = &Ships[objp->instance];
	sip = &Ship_info[sp->ship_info_index];

//	bool digitus_improbus = (fod_model != -2 && strstr(sp->ship_name, "Sathanas") != NULL);
	if ( sip->shield_icon_index == 255 && !(sip->flags[Ship::Info_Flags::Generate_hud_icon]) /*&& !digitus_improbus*/) {
		return;
	}

	setGaugeColor();

	// load in shield frames if not already loaded
	if (sip->shield_icon_index != 255) {
		sgp = &Shield_gauges.at(sip->shield_icon_index);

		if ( (sgp->first_frame == -1) && (sip->shield_icon_index < Hud_shield_filenames.size()) ) {
			sgp->first_frame = bm_load_animation(Hud_shield_filenames.at(sip->shield_icon_index).c_str(), &sgp->num_frames);
			if (sgp->first_frame == -1) {
				if (!shield_ani_warning_displayed_already) {
					shield_ani_warning_displayed_already = true;
					Warning(LOCATION, "Could not load in the HUD shield ani: %s\n", Hud_shield_filenames.at(sip->shield_icon_index).c_str());
				}
				return;
			}
		}
	}

	sx = position[0];
	sy = position[1];

	sx += fl2i(HUD_offset_x);
	sy += fl2i(HUD_offset_y);

	// draw the ship first
	maybeFlashShield(SHIELD_HIT_PLAYER, Shield_hit_data[SHIELD_HIT_PLAYER].hull_hit_index);

	if(sip->shield_icon_index != 255)
	{
		renderBitmap(sgp->first_frame, sx, sy);
	}
	else
	{
		bool g3_yourself = !g3_in_frame();
		angles rot_angles = {-1.570796327f,0.0f,0.0f};
		matrix	object_orient;

		vm_angles_2_matrix(&object_orient, &rot_angles);

		gr_screen.clip_width = 112;
		gr_screen.clip_height = 93;

		//Fire it up
		if(g3_yourself)
			g3_start_frame(1);
		hud_save_restore_camera_data(1);
		setClip(sx, sy, 112, 93);

		//if(!digitus_improbus)
			g3_set_view_matrix( &sip->closeup_pos, &vmd_identity_matrix, sip->closeup_zoom * 2.5f);
		/*else
		{
			vec3d finger_vec = {0.0f, 0.0f, 176.0f};
			g3_set_view_matrix( &finger_vec, &vmd_identity_matrix, 1.0f);
		}*/

		gr_set_proj_matrix(0.5f*Proj_fov, gr_screen.clip_aspect, Min_draw_distance, Max_draw_distance);
		gr_set_view_matrix(&Eye_position, &Eye_matrix);

		//We're ready to show stuff
		//if(!digitus_improbus)
		{
			model_render_params render_info;

			render_info.set_flags(MR_NO_LIGHTING | MR_AUTOCENTER | MR_NO_FOGGING);
			render_info.set_replacement_textures(sp->ship_replacement_textures);
			render_info.set_detail_level_lock(1);
			render_info.set_object_number(OBJ_INDEX(objp));

			model_render_immediate( &render_info, sip->model_num, &object_orient, &vmd_zero_vector );
		}
		/*else
		{
			if(fod_model == -1)
			{
				fod_model = model_load(NOX("FoD.pof"), 0, NULL);
				if(fod_model == -1)
				{
					fod_model = -2;
					return;
				}
			}
			model_render(fod_model, &object_orient, &vmd_zero_vector, MR_NO_LIGHTING | MR_LOCK_DETAIL | MR_AUTOCENTER | MR_NO_FOGGING, -1, -1);
		}*/

		//We're done
		gr_end_view_matrix();
		gr_end_proj_matrix();
		if(g3_yourself)
			g3_end_frame();
		hud_save_restore_camera_data(0);

		resetClip();
	}

	if(!sip->max_shield_strength)
		return;

	// draw the quadrants
	//
	// Draw shield quadrants at one of NUM_SHIELD_LEVELS
	max_shield = get_max_shield_quad(objp);

	coord2d shield_icon_coords[6];

	for ( i = 0; i < objp->n_quadrants; i++ ) {

		if ( objp->flags[Object::Object_Flags::No_shields] ) {
			break;
		}

		if ( !(sip->flags[Ship::Info_Flags::Model_point_shields]) ) {
			if ( objp->shield_quadrant[Quadrant_xlate[i]] < 0.1f )
				continue;
		} else {
			if ( objp->shield_quadrant[i] < 0.1f )
				continue;
		}

		range = MAX(HUD_COLOR_ALPHA_MAX, HUD_color_alpha + objp->n_quadrants);

		if ( !(sip->flags[Ship::Info_Flags::Model_point_shields]) )
			hud_color_index = fl2i( (objp->shield_quadrant[Quadrant_xlate[i]] / max_shield) * range);
		else
			hud_color_index = fl2i( (objp->shield_quadrant[i] / max_shield) * range);

		Assert(hud_color_index >= 0 && hud_color_index <= range);

		if ( hud_color_index < 0 ) {
			hud_color_index = 0;
		}
		if ( hud_color_index >= HUD_NUM_COLOR_LEVELS ) {
			hud_color_index = HUD_NUM_COLOR_LEVELS - 1;
		}

		int flash=0;
		flash = maybeFlashShield(mode, i);
		
				
		if ( !flash ) {
			// gr_set_color_fast(&HUD_color_defaults[hud_color_index]);
			setGaugeColor(hud_color_index);
			

			if(sip->shield_icon_index != 255)
			{
				int framenum = sgp->first_frame+i+1;
				if (framenum < sgp->first_frame+sgp->num_frames)
					renderBitmap(framenum, sx, sy);
			}
			else
			{
				//Ugh, draw four shield quadrants
				static const int TRI_EDGE = 6;
				static const int BAR_LENGTH = 112;
				static const int BAR_HEIGHT = 54;
				static const int BAR_WIDTH = 6;
				static const int SHIELD_OFFSET = BAR_WIDTH + TRI_EDGE + 3;

				switch(i)
				{
					//Top
					case 0:
						shield_icon_coords[0].x = sx;                     shield_icon_coords[0].y = sy+BAR_WIDTH+TRI_EDGE;
						shield_icon_coords[1].x = sx;                     shield_icon_coords[1].y = sy;
						shield_icon_coords[2].x = sx+TRI_EDGE;            shield_icon_coords[2].y = sy+BAR_WIDTH;
						shield_icon_coords[3].x = sx+BAR_LENGTH;          shield_icon_coords[3].y = sy;
						shield_icon_coords[4].x = sx+BAR_LENGTH-TRI_EDGE; shield_icon_coords[4].y = sy+BAR_WIDTH;
						shield_icon_coords[5].x = sx+BAR_LENGTH;          shield_icon_coords[5].y = sy+BAR_WIDTH+TRI_EDGE;
						renderShieldIcon(shield_icon_coords);
						break;
					//Left
					case 3:
						sy += SHIELD_OFFSET;
						shield_icon_coords[0].x = sx+BAR_WIDTH+TRI_EDGE; shield_icon_coords[0].y = sy+BAR_HEIGHT;
						shield_icon_coords[1].x = sx;                    shield_icon_coords[1].y = sy+BAR_HEIGHT;
						shield_icon_coords[2].x = sx+BAR_WIDTH;          shield_icon_coords[2].y = sy+BAR_HEIGHT-TRI_EDGE;
						shield_icon_coords[3].x = sx;                    shield_icon_coords[3].y = sy;
						shield_icon_coords[4].x = sx+BAR_WIDTH;          shield_icon_coords[4].y = sy+TRI_EDGE;
						shield_icon_coords[5].x = sx+BAR_WIDTH+TRI_EDGE; shield_icon_coords[5].y = sy;
						renderShieldIcon(shield_icon_coords);
						sy -= SHIELD_OFFSET + BAR_WIDTH + TRI_EDGE;
						break;
					//Right
					case 1:
						sx += BAR_LENGTH;
						sy += SHIELD_OFFSET;
						shield_icon_coords[0].x = sx-BAR_WIDTH-TRI_EDGE; shield_icon_coords[0].y = sy;
						shield_icon_coords[1].x = sx;                    shield_icon_coords[1].y = sy;
						shield_icon_coords[2].x = sx-BAR_WIDTH;          shield_icon_coords[2].y = sy+TRI_EDGE;
						shield_icon_coords[3].x = sx;                    shield_icon_coords[3].y = sy+BAR_HEIGHT;
						shield_icon_coords[4].x = sx-BAR_WIDTH;          shield_icon_coords[4].y = sy+BAR_HEIGHT-TRI_EDGE;
						shield_icon_coords[5].x = sx-BAR_WIDTH-TRI_EDGE; shield_icon_coords[5].y = sy+BAR_HEIGHT;
						renderShieldIcon(shield_icon_coords);
						sx -= BAR_LENGTH;
						sy -= SHIELD_OFFSET;
						break;
					//Bottom
					case 2:
						sy += BAR_HEIGHT + SHIELD_OFFSET*2 - BAR_WIDTH - TRI_EDGE;
						shield_icon_coords[0].x = sx+BAR_LENGTH;          shield_icon_coords[0].y = sy;
						shield_icon_coords[1].x = sx+BAR_LENGTH;          shield_icon_coords[1].y = sy+BAR_WIDTH+TRI_EDGE;
						shield_icon_coords[2].x = sx+BAR_LENGTH-TRI_EDGE; shield_icon_coords[2].y = sy+TRI_EDGE;
						shield_icon_coords[3].x = sx;                     shield_icon_coords[3].y = sy+BAR_WIDTH+TRI_EDGE;
						shield_icon_coords[4].x = sx+TRI_EDGE;            shield_icon_coords[4].y = sy+TRI_EDGE;
						shield_icon_coords[5].x = sx;                     shield_icon_coords[5].y = sy;
						renderShieldIcon(shield_icon_coords);
						sy -= BAR_HEIGHT + SHIELD_OFFSET*2 - BAR_WIDTH - TRI_EDGE;
						break;
					//Whoops?
					default:
						nprintf(("HUD", "Invalid shield quadrant %d specified!\n", i));
						break;
				}
			}
		}
	}

	// hud_set_default_color();
}
Esempio n. 6
0
// Draw the miniature shield icon that is drawn near the reticle
// this function is only used by multi_ingame_join_display_ship() in multi_ingame.cpp as of the new HudGauge implementation (Swifty)
void hud_shield_show_mini(object *objp, int x_force, int y_force, int x_hull_offset, int y_hull_offset)
{
	float			max_shield;
	int			hud_color_index, range, frame_offset;
	int			sx, sy, i;

	if ( objp->type != OBJ_SHIP ) {
		return;
	}

	hud_set_gauge_color(HUD_TARGET_MINI_ICON);

	if (!Shield_mini_loaded)
		return;

	sx = (x_force == -1) ? Shield_mini_coords[gr_screen.res][0]+fl2i(HUD_offset_x) : x_force;
	sy = (y_force == -1) ? Shield_mini_coords[gr_screen.res][1]+fl2i(HUD_offset_y) : y_force;

	// draw the ship first
	hud_shield_maybe_flash(HUD_TARGET_MINI_ICON, SHIELD_HIT_TARGET, Shield_hit_data[SHIELD_HIT_TARGET].hull_hit_index);
	hud_show_mini_ship_integrity(objp, x_force + x_hull_offset,y_force + y_hull_offset);

	// draw the four quadrants
	// Draw shield quadrants at one of NUM_SHIELD_LEVELS
	max_shield = get_max_shield_quad(objp);

	for ( i = 0; i < objp->n_quadrants; i++ ) {

		if ( objp->flags[Object::Object_Flags::No_shields] || i >= DEFAULT_SHIELD_SECTIONS) {
			break;
		}

		if (objp->shield_quadrant[Quadrant_xlate[i]] < 0.1f ) {
			continue;
		}

		if ( hud_shield_maybe_flash(HUD_TARGET_MINI_ICON, SHIELD_HIT_TARGET, i) ) {
			frame_offset = i+objp->n_quadrants;
		} else {
			frame_offset = i;
		}
				
		range = HUD_color_alpha;
		hud_color_index = fl2i( (objp->shield_quadrant[Quadrant_xlate[i]] / max_shield) * range + 0.5);
		Assert(hud_color_index >= 0 && hud_color_index <= range);
	
		if ( hud_color_index < 0 ) {
			hud_color_index = 0;
		}
		if ( hud_color_index >= HUD_NUM_COLOR_LEVELS ) {
			hud_color_index = HUD_NUM_COLOR_LEVELS - 1;
		}

		if ( hud_gauge_maybe_flash(HUD_TARGET_MINI_ICON) == 1) {
			// hud_set_bright_color();
			hud_set_gauge_color(HUD_TARGET_MINI_ICON, HUD_C_BRIGHT);
		} else {
			// gr_set_color_fast(&HUD_color_defaults[hud_color_index]);
			hud_set_gauge_color(HUD_TARGET_MINI_ICON, hud_color_index);
		}					 

		GR_AABITMAP(Shield_mini_gauge.first_frame + frame_offset, sx + HUD_nose_x, sy + HUD_nose_y);		
	}
	
	// hud_set_default_color();
}
Esempio n. 7
0
// Draw the miniature shield icon that is drawn near the reticle
void hud_shield_show_mini(object* objp, int x_force, int y_force, int x_hull_offset, int y_hull_offset)
{
	float max_shield;
	int hud_color_index, range, frame_offset;
	int sx, sy, i;
	shield_hit_info* shi;

	shi = &Shield_hit_data[SHIELD_HIT_TARGET];

	if (objp->type != OBJ_SHIP)
	{
		return;
	}

	hud_set_gauge_color(HUD_TARGET_MINI_ICON);

	if (!Shield_mini_loaded)
	{
		hud_shield_mini_load();
	}

	sx = (x_force == -1) ? current_hud->Shield_mini_coords[0] + fl2i(HUD_offset_x) : x_force;
	sy = (y_force == -1) ? current_hud->Shield_mini_coords[1] + fl2i(HUD_offset_y) : y_force;

	// draw the ship first
	hud_shield_maybe_flash(HUD_TARGET_MINI_ICON, SHIELD_HIT_TARGET, HULL_HIT_OFFSET);
	hud_show_mini_ship_integrity(objp, x_force + x_hull_offset, y_force + y_hull_offset);

	// draw the four quadrants
	// Draw shield quadrants at one of NUM_SHIELD_LEVELS
	max_shield = get_max_shield_quad(objp);

	for (i = 0; i < MAX_SHIELD_SECTIONS; i++)
	{

		if (objp->flags & OF_NO_SHIELDS)
		{
			break;
		}

		if (objp->shield_quadrant[Quadrant_xlate[i]] < 0.1f)
		{
			continue;
		}

		if (hud_shield_maybe_flash(HUD_TARGET_MINI_ICON, SHIELD_HIT_TARGET, i))
		{
			frame_offset = i + MAX_SHIELD_SECTIONS;
		}
		else
		{
			frame_offset = i;
		}

		range = HUD_color_alpha;
		hud_color_index = fl2i((objp->shield_quadrant[Quadrant_xlate[i]] / max_shield) * range + 0.5);
		Assert(hud_color_index >= 0 && hud_color_index <= range);

		if (hud_color_index < 0)
		{
			hud_color_index = 0;
		}
		if (hud_color_index >= HUD_NUM_COLOR_LEVELS)
		{
			hud_color_index = HUD_NUM_COLOR_LEVELS - 1;
		}

		if (hud_gauge_maybe_flash(HUD_TARGET_MINI_ICON) == 1)
		{
			// hud_set_bright_color();
			hud_set_gauge_color(HUD_TARGET_MINI_ICON, HUD_C_BRIGHT);
		}
		else
		{
			// gr_set_color_fast(&HUD_color_defaults[hud_color_index]);
			hud_set_gauge_color(HUD_TARGET_MINI_ICON, hud_color_index);
		}

		hud_aabitmap(Shield_mini_gauge.first_frame + frame_offset, sx + HUD_nose_x, sy + HUD_nose_y);
	}

	// hud_set_default_color();
}
Esempio n. 8
0
void hud_shield_show(object* objp)
{

	KeepAspectRatio keep(true);

	//	static int fod_model = -1;
	float max_shield;
	int hud_color_index, range;
	int sx, sy, i;
	ship* sp;
	ship_info* sip;
	hud_frames* sgp = NULL;

	if (objp->type != OBJ_SHIP)
		return;

	// Goober5000 - don't show if primitive sensors
	if (Ships[Player_obj->instance].flags2 & SF2_PRIMITIVE_SENSORS)
		return;

	sp = &Ships[objp->instance];
	sip = &Ship_info[sp->ship_info_index];

	//	bool digitus_improbus = (fod_model != -2 && strstr(sp->ship_name, "Sathanas") != NULL);
	if (sip->shield_icon_index == 255 && !(sip->flags2 & SIF2_GENERATE_HUD_ICON)/*&& !digitus_improbus*/)
	{
		return;
	}

	if (objp == Player_obj)
	{
		hud_set_gauge_color(HUD_PLAYER_SHIELD_ICON);
	}
	else
	{
		hud_set_gauge_color(HUD_TARGET_SHIELD_ICON);
	}

	// load in shield frames if not already loaded
	if (sip->shield_icon_index != 255)
	{
		sgp = &Shield_gauges[sip->shield_icon_index];

		if (sgp->first_frame == -1 && sip->shield_icon_index < Hud_shield_filename_count)
		{
			sgp->first_frame = bm_load_animation(Hud_shield_filenames[sip->shield_icon_index], &sgp->num_frames);
			if (sgp->first_frame == -1)
			{
				if (!shield_ani_warning_displayed_already)
				{
					shield_ani_warning_displayed_already = true;
					Warning(LOCATION, "Could not load in the HUD shield ani: %s\n",
						Hud_shield_filenames[sip->shield_icon_index]);
				}
				return;
			}
		}
	}

	if (objp == Player_obj)
	{
		sx = current_hud->Player_shield_coords[0];
		sy = current_hud->Player_shield_coords[1];
	}
	else
	{
		sx = current_hud->Target_shield_coords[0];
		sy = current_hud->Target_shield_coords[1];
	}

	sx += fl2i(HUD_offset_x);
	sy += fl2i(HUD_offset_y);

	// draw the ship first
	if (objp == Player_obj)
	{
		hud_shield_maybe_flash(HUD_PLAYER_SHIELD_ICON, SHIELD_HIT_PLAYER, HULL_HIT_OFFSET);
	}
	else
	{
		hud_shield_maybe_flash(HUD_TARGET_SHIELD_ICON, SHIELD_HIT_TARGET, HULL_HIT_OFFSET);
	}

	if (sip->shield_icon_index != 255)
	{
		hud_aabitmap(sgp->first_frame, sx, sy);
	}
	else
	{
		bool g3_yourself = !g3_in_frame();
		angles rot_angles =
		{
			-1.570796327f,
			0.0f,
			0.0f
		};
		matrix object_orient;

		vm_angles_2_matrix(&object_orient, &rot_angles);

		gr_screen.clip_width = 112;
		gr_screen.clip_height = 93;

		//Fire it up
		if (g3_yourself)
			g3_start_frame(1);
		hud_save_restore_camera_data(1);
		HUD_set_clip(sx, sy, 112, 93);
		model_set_detail_level(1);

		//if(!digitus_improbus)
		g3_set_view_matrix(&sip->closeup_pos, &vmd_identity_matrix, sip->closeup_zoom * 3.25f);
		/*else
		{
			vec3d finger_vec = {0.0f, 0.0f, 176.0f};
			g3_set_view_matrix( &finger_vec, &vmd_identity_matrix, 1.0f);
		}*/

		if (!Cmdline_nohtl)
		{
			gr_set_proj_matrix(0.5f * Proj_fov, gr_screen.clip_aspect, Min_draw_distance, Max_draw_distance);
			gr_set_view_matrix(&Eye_position, &Eye_matrix);
		}

		//We're ready to show stuff
		ship_model_start(objp);
		//if(!digitus_improbus)
		{
			model_render(sip->model_num, &object_orient, &vmd_zero_vector, MR_NO_LIGHTING | MR_LOCK_DETAIL |
				MR_AUTOCENTER | MR_NO_FOGGING, -1, -1, sp->ship_replacement_textures);
		}
		/*else
		{
			if(fod_model == -1)
			{
				fod_model = model_load(NOX("FoD.pof"), 0, NULL);
				if(fod_model == -1)
				{
					fod_model = -2;
					return;
				}
			}
			model_render(fod_model, &object_orient, &vmd_zero_vector, MR_NO_LIGHTING | MR_LOCK_DETAIL | MR_AUTOCENTER | MR_NO_FOGGING, -1, -1);
		}*/
		ship_model_stop(objp);

		//We're done
		if (!Cmdline_nohtl)
		{
			gr_end_view_matrix();
			gr_end_proj_matrix();
		}
		if (g3_yourself)
			g3_end_frame();
		hud_save_restore_camera_data(0);

		HUD_reset_clip();
	}

	if (!sip->max_shield_strength)
		return;

	// draw the four quadrants
	//
	// Draw shield quadrants at one of NUM_SHIELD_LEVELS
	max_shield = get_max_shield_quad(objp);

	int j, x_val, y_val, mid_val;

	for (i = 0; i < MAX_SHIELD_SECTIONS; i++)
	{

		if (objp->flags & OF_NO_SHIELDS)
		{
			break;
		}

		if (objp->shield_quadrant[Quadrant_xlate[i]] < 0.1f)
		{
			continue;
		}

		range = MAX(HUD_COLOR_ALPHA_MAX, HUD_color_alpha + 4);
		hud_color_index = fl2i((objp->shield_quadrant[Quadrant_xlate[i]] / max_shield) * range);
		Assert(hud_color_index >= 0 && hud_color_index <= range);

		if (hud_color_index < 0)
		{
			hud_color_index = 0;
		}
		if (hud_color_index >= HUD_NUM_COLOR_LEVELS)
		{
			hud_color_index = HUD_NUM_COLOR_LEVELS - 1;
		}

		int flash = 0;
		if (objp == Player_obj)
		{
			flash = hud_shield_maybe_flash(HUD_PLAYER_SHIELD_ICON, SHIELD_HIT_PLAYER, i);
		}
		else
		{
			flash = hud_shield_maybe_flash(HUD_TARGET_SHIELD_ICON, SHIELD_HIT_TARGET, i);
		}

		if (!flash)
		{
			// gr_set_color_fast(&HUD_color_defaults[hud_color_index]);
			if (objp == Player_obj)
			{
				hud_set_gauge_color(HUD_PLAYER_SHIELD_ICON, hud_color_index);
			}
			else
			{
				hud_set_gauge_color(HUD_TARGET_SHIELD_ICON, hud_color_index);
			}

			if (sip->shield_icon_index != 255)
			{
				hud_aabitmap(sgp->first_frame + i + 1, sx, sy);
			}
			else
			{
				//Ugh, draw four shield quadrants
				switch (i)
				{
					//Top
				case 0:
					sy += 3;
					for (j = 0; j < 6; j++)
					{
						y_val = sy + 10;
						gr_gradient(sx + j,
							sy,
							sx + j,
							y_val - j);
					}
					mid_val = sy + 5;
					for (; j < 106; j++)
					{
						gr_gradient(sx + j,
							sy,
							sx + j,
							mid_val);
					}
					for (; j < 112; j++)
					{
						gr_gradient(sx + j,
							sy,
							sx + j,
							sy + (j - 101));
					}
					y_val = sy - 1;
					sy -= 3;
					for (j = 0; j < 112; j++)
						gr_gradient(sx + j, y_val, sx + j, sy);
					break;
					//Left
				case 1:
					sx += 1;
					x_val = sx + 10;
					y_val = sy + 15;
					for (j = 0; j < 6; j++)
					{
						gr_gradient(sx,
							y_val + j,
							x_val - j,
							y_val + j);
					}
					mid_val = sx + 5;
					for (; j < 48; j++)
					{
						gr_gradient(sx,
							y_val + j,
							mid_val,
							y_val + j);
					}
					for (; j < 54; j++)
					{
						gr_gradient(sx,
							y_val + j,
							sx + (j - 43),
							y_val + j);
					}
					x_val = sx;
					sx -= 3;
					for (j = 0; j < 54; j++)
						gr_gradient(x_val, y_val + j, sx, y_val + j);
					sx += 2;
					break;
					//Right
				case 2:
					x_val = sx + 109;	//-3 for border
					y_val = sy + 15;
					for (j = 0; j < 6; j++)
					{
						gr_gradient(x_val,
							y_val + j,
							x_val - (10 - j),
							y_val + j);
					}
					mid_val = x_val - 5;
					for (; j < 48; j++)
					{
						gr_gradient(x_val,
							y_val + j,
							mid_val,
							y_val + j);
					}
					for (; j < 54; j++)
					{
						gr_gradient(x_val,
							y_val + j,
							x_val - (j - 43),
							y_val + j);
					}
					mid_val = x_val;
					x_val += 3;
					for (j = 0; j < 54; j++)
						gr_gradient(mid_val, y_val + j, x_val, y_val + j);
					break;
					//Bottom
				case 3:
					y_val = sy + 80; //-3 for border
					for (j = 0; j < 6; j++)
						gr_gradient(sx + j,
							y_val,
							sx + j,
							y_val - (10 - j));
					mid_val = y_val - 5;
					for (; j < 106; j++)
						gr_gradient(sx + j,
							y_val,
							sx + j,
							mid_val);
					for (; j < 112; j++)
						gr_gradient(sx + j,
							y_val,
							sx + j,
							y_val - (j - 101));
					mid_val = y_val + 1;
					y_val += 3;
					for (j = 0; j < 112; j++)
						gr_gradient(sx + j, mid_val, sx + j, y_val);
				}
			}
		}
	}

	// hud_set_default_color();
}