# A3XX PFD # Copyright (c) 2020 Josh Davidson (Octal450) var PFD_1 = nil; var PFD_2 = nil; var PFD_1_test = nil; var PFD_2_test = nil; var PFD_1_mismatch = nil; var PFD_2_mismatch = nil; var PFD1_display = nil; var PFD2_display = nil; var updateL = 0; var updateR = 0; var elapsedtime = 0; var altTens = 0; var altPolarity = ""; var track_diff = 0; var AICenter = nil; # FPV # Fetch nodes: var state1 = props.globals.getNode("/systems/thrust/state1", 1); var state2 = props.globals.getNode("/systems/thrust/state2", 1); var throttle_mode = props.globals.getNode("/modes/pfd/fma/throttle-mode", 1); var pitch_mode = props.globals.getNode("/modes/pfd/fma/pitch-mode", 1); var pitch_mode_armed = props.globals.getNode("/modes/pfd/fma/pitch-mode-armed", 1); var pitch_mode2_armed = props.globals.getNode("/modes/pfd/fma/pitch-mode2-armed", 1); var pitch_mode_armed_box = props.globals.getNode("/modes/pfd/fma/pitch-mode-armed-box", 1); var pitch_mode2_armed_box = props.globals.getNode("/modes/pfd/fma/pitch-mode2-armed-box", 1); var roll_mode = props.globals.getNode("/modes/pfd/fma/roll-mode", 1); var roll_mode_armed = props.globals.getNode("/modes/pfd/fma/roll-mode-armed", 1); var roll_mode_box = props.globals.getNode("/modes/pfd/fma/roll-mode-box", 1); var roll_mode_armed_box = props.globals.getNode("/modes/pfd/fma/roll-mode-armed-box", 1); var thr1 = props.globals.getNode("/controls/engines/engine[0]/throttle-pos", 1); var thr2 = props.globals.getNode("/controls/engines/engine[1]/throttle-pos", 1); var wow0 = props.globals.getNode("/gear/gear[0]/wow"); var wow1 = props.globals.getNode("/gear/gear[1]/wow"); var wow2 = props.globals.getNode("/gear/gear[2]/wow"); var pitch = props.globals.getNode("/orientation/pitch-deg", 1); var roll = props.globals.getNode("/orientation/roll-deg", 1); var elapsedtime = props.globals.getNode("/sim/time/elapsed-sec", 1); var du1_lgt = props.globals.getNode("/controls/lighting/DU/du1", 1); var du6_lgt = props.globals.getNode("/controls/lighting/DU/du6", 1); var acconfig = props.globals.getNode("/systems/acconfig/autoconfig-running", 1); var acconfig_mismatch = props.globals.getNode("/systems/acconfig/mismatch-code", 1); var cpt_du_xfr = props.globals.getNode("/modes/cpt-du-xfr", 1); var fo_du_xfr = props.globals.getNode("/modes/fo-du-xfr", 1); var eng_out = props.globals.getNode("/systems/thrust/eng-out", 1); var eng0_state = props.globals.getNode("/engines/engine[0]/state", 1); var eng1_state = props.globals.getNode("/engines/engine[1]/state", 1); var alpha_floor = props.globals.getNode("/systems/thrust/alpha-floor", 1); var toga_lk = props.globals.getNode("/systems/thrust/toga-lk", 1); var thrust_limit = props.globals.getNode("/controls/engines/thrust-limit", 1); var flex = props.globals.getNode("/FMGC/internal/flex", 1); var lvr_clb = props.globals.getNode("/systems/thrust/lvrclb", 1); var throt_box = props.globals.getNode("/modes/pfd/fma/throttle-mode-box", 1); var pitch_box = props.globals.getNode("/modes/pfd/fma/pitch-mode-box", 1); var ap_box = props.globals.getNode("/modes/pfd/fma/ap-mode-box", 1); var fd_box = props.globals.getNode("/modes/pfd/fma/fd-mode-box", 1); var at_box = props.globals.getNode("/modes/pfd/fma/athr-mode-box", 1); var fbw_law = props.globals.getNode("/it-fbw/law", 1); var ap_mode = props.globals.getNode("/modes/pfd/fma/ap-mode", 1); var fd_mode = props.globals.getNode("/modes/pfd/fma/fd-mode", 1); var at_mode = props.globals.getNode("/modes/pfd/fma/at-mode", 1); var alt_std_mode = props.globals.getNode("/instrumentation/altimeter/std", 1); var alt_inhg_mode = props.globals.getNode("/instrumentation/altimeter/inhg", 1); var alt_hpa = props.globals.getNode("/instrumentation/altimeter/setting-hpa", 1); var alt_inhg = props.globals.getNode("/instrumentation/altimeter/setting-inhg", 1); var target_altitude = props.globals.getNode("/autopilot/settings/target-altitude-ft", 1); var altitude = props.globals.getNode("/instrumentation/altimeter/indicated-altitude-ft", 1); var altitude_pfd = props.globals.getNode("/instrumentation/altimeter/indicated-altitude-ft-pfd", 1); var alt_diff = props.globals.getNode("/instrumentation/pfd/alt-diff", 1); var ground_diff = props.globals.getNode("/instrumentation/pfd/ground-diff", 1); var landing_diff = props.globals.getNode("/instrumentation/pfd/landing-diff", 1); var ap_alt = props.globals.getNode("/it-autoflight/internal/alt", 1); var vs_needle = props.globals.getNode("/instrumentation/pfd/vs-needle", 1); var vs_digit = props.globals.getNode("/instrumentation/pfd/vs-digit-trans", 1); var ap_vs_pfd = props.globals.getNode("/it-autoflight/internal/vert-speed-fpm-pfd", 1); var athr_arm = props.globals.getNode("/modes/pfd/fma/athr-armed", 1); var ind_spd_kt = props.globals.getNode("/instrumentation/airspeed-indicator/indicated-speed-kt", 1); var ind_spd_mach = props.globals.getNode("/instrumentation/airspeed-indicator/indicated-mach", 1); var at_mach_mode = props.globals.getNode("/it-autoflight/input/kts-mach", 1); var at_input_spd_mach = props.globals.getNode("/it-autoflight/input/mach", 1); var at_input_spd_kts = props.globals.getNode("/it-autoflight/input/kts", 1); var fd_roll = props.globals.getNode("/it-autoflight/fd/roll-bar", 1); var fd_pitch = props.globals.getNode("/it-autoflight/fd/pitch-bar", 1); var decision = props.globals.getNode("/instrumentation/mk-viii/inputs/arinc429/decision-height", 1); var slip_skid = props.globals.getNode("/instrumentation/pfd/slip-skid", 1); var loc = props.globals.getNode("/instrumentation/nav[0]/heading-needle-deflection-norm", 1); var gs = props.globals.getNode("/instrumentation/nav[0]/gs-needle-deflection-norm", 1); var show_hdg = props.globals.getNode("/it-autoflight/custom/show-hdg", 1); var ap_hdg = props.globals.getNode("/it-autoflight/input/hdg", 1); var ap_trk_sw = props.globals.getNode("/it-autoflight/custom/trk-fpa", 1); var ap_ils_mode = props.globals.getNode("/modes/pfd/ILS1", 1); var ap_ils_mode2 = props.globals.getNode("/modes/pfd/ILS2", 1); var loc_in_range = props.globals.getNode("/instrumentation/nav[0]/in-range", 1); var gs_in_range = props.globals.getNode("/instrumentation/nav[0]/gs-in-range", 1); var nav0_signalq = props.globals.getNode("/instrumentation/nav[0]/signal-quality-norm", 1); var hasloc = props.globals.getNode("/instrumentation/nav[0]/nav-loc", 1); var hasgs = props.globals.getNode("/instrumentation/nav[0]/has-gs", 1); var pfdrate = props.globals.getNode("/systems/acconfig/options/pfd-rate", 1); var managed_spd = props.globals.getNode("/it-autoflight/input/spd-managed", 1); var at_tgt_ias = props.globals.getNode("/FMGC/internal/target-ias-pfd", 1); var ap1 = props.globals.getNode("/it-autoflight/output/ap1", 1); var ap2 = props.globals.getNode("/it-autoflight/output/ap2", 1); var fd1 = props.globals.getNode("/it-autoflight/output/fd1", 1); var fd2 = props.globals.getNode("/it-autoflight/output/fd2", 1); var athr = props.globals.getNode("/it-autoflight/output/athr", 1); var gear_agl = props.globals.getNode("/position/gear-agl-ft", 1); var aileron_input = props.globals.getNode("/controls/flight/aileron-input-fast", 1); var elevator_input = props.globals.getNode("/controls/flight/elevator-input-fast", 1); var att_switch = props.globals.getNode("/controls/switching/ATTHDG", 1); var air_switch = props.globals.getNode("/controls/switching/AIRDATA", 1); var appr_enabled = props.globals.getNode("/it-autoflight/output/appr-armed/", 1); var loc_enabled = props.globals.getNode("/it-autoflight/output/loc-armed/", 1); var vert_gs = props.globals.getNode("/it-autoflight/output/vert/", 1); var vert_state = props.globals.getNode("/it-autoflight/output/vert/", 1); var ils_data1 = props.globals.getNode("/FMGC/internal/ils1-mcdu/", 1); # Independent MCDU ILS not implemented yet, use MCDU1 in the meantime # var ils_data2 = props.globals.getNode("/FMGC/internal/ils2-mcdu/", 1); var dme_in_range = props.globals.getNode("/instrumentation/nav[0]/dme-in-range", 1); var dme_data = props.globals.getNode("/instrumentation/dme[0]/indicated-distance-nm", 1); var ils_crs = props.globals.getNode("/instrumentation/nav[0]/radials/selected-deg", 1); var ils1_crs_set = props.globals.getNode("/FMGC/internal/ils1crs-set/", 1); var outer_marker = props.globals.getNode("/instrumentation/marker-beacon/outer", 1); var middle_marker = props.globals.getNode("/instrumentation/marker-beacon/middle", 1); var inner_marker = props.globals.getNode("/instrumentation/marker-beacon/inner", 1); var flap_config = props.globals.getNode("/controls/flight/flaps-input", 1); var hundredAbove = props.globals.getNode("/instrumentation/pfd/hundred-above", 1); var minimum = props.globals.getNode("/instrumentation/pfd/minimums", 1); var aoa_1 = props.globals.getNode("/systems/navigation/adr/output/aoa-1", 1); var aoa_2 = props.globals.getNode("/systems/navigation/adr/output/aoa-2", 1); var aoa_3 = props.globals.getNode("/systems/navigation/adr/output/aoa-3", 1); var adr_1_switch = props.globals.getNode("/controls/navigation/adirscp/switches/adr-1", 1); var adr_2_switch = props.globals.getNode("/controls/navigation/adirscp/switches/adr-2", 1); var adr_3_switch = props.globals.getNode("/controls/navigation/adirscp/switches/adr-3", 1); var adr_1_fault = props.globals.getNode("/controls/navigation/adirscp/lights/adr-1-fault", 1); var adr_2_fault = props.globals.getNode("/controls/navigation/adirscp/lights/adr-2-fault", 1); var adr_3_fault = props.globals.getNode("/controls/navigation/adirscp/lights/adr-3-fault", 1); var air_data_switch = props.globals.getNode("/controls/navigation/switching/air-data", 1); var alpha = props.globals.getNode("/fdm/jsbsim/aero/alpha-deg", 1); # TODO - Is this used anywhere? # Create Nodes: var alt_diff = props.globals.initNode("/instrumentation/pfd/alt-diff", 0.0, "DOUBLE"); var ground_diff = props.globals.initNode("/instrumentation/pfd/ground-diff", 0.0, "DOUBLE"); var landing_diff = props.globals.initNode("/instrumentation/pfd/landing-diff", 0.0, "DOUBLE"); var heading = props.globals.initNode("/instrumentation/pfd/heading-deg", 0.0, "DOUBLE"); var horizon_pitch = props.globals.initNode("/instrumentation/pfd/horizon-pitch", 0.0, "DOUBLE"); var horizon_ground = props.globals.initNode("/instrumentation/pfd/horizon-ground", 0.0, "DOUBLE"); var hdg_diff = props.globals.initNode("/instrumentation/pfd/hdg-diff", 0.0, "DOUBLE"); var hdg_scale = props.globals.initNode("/instrumentation/pfd/heading-scale", 0.0, "DOUBLE"); var track = props.globals.initNode("/instrumentation/pfd/track-deg", 0.0, "DOUBLE"); #var track_diff = props.globals.initNode("/instrumentation/pfd/track-hdg-diff", 0.0, "DOUBLE"); # returns incorrect value and can calculate on the fly var du1_test = props.globals.initNode("/instrumentation/du/du1-test", 0, "BOOL"); var du1_test_time = props.globals.initNode("/instrumentation/du/du1-test-time", 0.0, "DOUBLE"); var du1_offtime = props.globals.initNode("/instrumentation/du/du1-off-time", 0.0, "DOUBLE"); var du1_test_amount = props.globals.initNode("/instrumentation/du/du1-test-amount", 0.0, "DOUBLE"); var du2_test = props.globals.initNode("/instrumentation/du/du2-test", 0, "BOOL"); var du2_test_time = props.globals.initNode("/instrumentation/du/du2-test-time", 0.0, "DOUBLE"); var du2_test_amount = props.globals.initNode("/instrumentation/du/du2-test-amount", 0.0, "DOUBLE"); var du5_test = props.globals.initNode("/instrumentation/du/du5-test", 0, "BOOL"); var du5_test_time = props.globals.initNode("/instrumentation/du/du5-test-time", 0.0, "DOUBLE"); var du5_test_amount = props.globals.initNode("/instrumentation/du/du5-test-amount", 0.0, "DOUBLE"); var du6_test = props.globals.initNode("/instrumentation/du/du6-test", 0, "BOOL"); var du6_test_time = props.globals.initNode("/instrumentation/du/du6-test-time", 0.0, "DOUBLE"); var du6_test_amount = props.globals.initNode("/instrumentation/du/du6-test-amount", 0.0, "DOUBLE"); var du6_offtime = props.globals.initNode("/instrumentation/du/du6-off-time", 0.0, "DOUBLE"); var ilsFlash1 = props.globals.initNode("/instrumentation/pfd/flash-indicators/ils-flash-1", 0, "BOOL"); var ilsFlash2 = props.globals.initNode("/instrumentation/pfd/flash-indicators/ils-flash-2", 0, "BOOL"); var qnhFlash = props.globals.initNode("/instrumentation/pfd/flash-indicators/qnh-flash", 0, "BOOL"); var altFlash1 = props.globals.initNode("/instrumentation/pfd/flash-indicators/alt-flash-1", 0, "BOOL"); var altFlash2 = props.globals.initNode("/instrumentation/pfd/flash-indicators/alt-flash-2", 0, "BOOL"); var amberFlash1 = props.globals.initNode("/instrumentation/pfd/flash-indicators/amber-flash-1", 0, "BOOL"); var amberFlash2 = props.globals.initNode("/instrumentation/pfd/flash-indicators/amber-flash-2", 0, "BOOL"); var dhFlash = props.globals.initNode("/instrumentation/pfd/flash-indicators/dh-flash", 0, "BOOL"); var canvas_PFD_base = { init: func(canvas_group, file) { var font_mapper = func(family, weight) { return "LiberationFonts/LiberationSans-Regular.ttf"; }; canvas.parsesvg(canvas_group, file, {"font-mapper": font_mapper}); var svg_keys = me.getKeys(); foreach(var key; svg_keys) { me[key] = canvas_group.getElementById(key); var clip_el = canvas_group.getElementById(key ~ "_clip"); if (clip_el != nil) { clip_el.setVisible(0); var tran_rect = clip_el.getTransformedBounds(); var clip_rect = sprintf("rect(%d,%d, %d,%d)", tran_rect[1], # 0 ys tran_rect[2], # 1 xe tran_rect[3], # 2 ye tran_rect[0]); #3 xs # coordinates are top,right,bottom,left (ys, xe, ye, xs) ref: l621 of simgear/canvas/CanvasElement.cxx me[key].set("clip", clip_rect); me[key].set("clip-frame", canvas.Element.PARENT); } } me.AI_horizon_trans = me["AI_horizon"].createTransform(); me.AI_horizon_rot = me["AI_horizon"].createTransform(); me.AI_horizon_ground_trans = me["AI_horizon_ground"].createTransform(); me.AI_horizon_ground_rot = me["AI_horizon_ground"].createTransform(); me.AI_horizon_sky_rot = me["AI_horizon_sky"].createTransform(); me.AI_horizon_hdg_trans = me["AI_heading"].createTransform(); me.AI_horizon_hdg_rot = me["AI_heading"].createTransform(); me.AI_fpv_trans = me["FPV"].createTransform(); me.AI_fpv_rot = me["FPV"].createTransform(); me.page = canvas_group; return me; }, getKeys: func() { return ["FMA_man","FMA_manmode","FMA_flxmode","FMA_flxtemp","FMA_thrust","FMA_lvrclb","FMA_pitch","FMA_pitcharm","FMA_pitcharm2","FMA_roll","FMA_rollarm","FMA_combined","FMA_ctr_msg","FMA_catmode","FMA_cattype","FMA_nodh","FMA_dh","FMA_dhn","FMA_ap", "FMA_fd","FMA_athr","FMA_man_box","FMA_flx_box","FMA_thrust_box","FMA_pitch_box","FMA_pitcharm_box","FMA_roll_box","FMA_rollarm_box","FMA_combined_box","FMA_catmode_box","FMA_cattype_box","FMA_cat_box","FMA_dh_box","FMA_ap_box","FMA_fd_box", "FMA_athr_box","FMA_Middle1","FMA_Middle2","ALPHA_MAX","ALPHA_PROT","ALPHA_SW","ALPHA_bars","VLS_min","ASI_max","ASI_scale","ASI_target","ASI_mach","ASI_mach_decimal","ASI_trend_up","ASI_trend_down","ASI_digit_UP","ASI_digit_DN","ASI_decimal_UP", "ASI_decimal_DN","ASI_index","ASI_error","ASI_group","ASI_frame","AI_center","AI_bank","AI_bank_lim","AI_bank_lim_X","AI_pitch_lim","AI_pitch_lim_X","AI_slipskid","AI_horizon","AI_horizon_ground","AI_horizon_sky","AI_stick","AI_stick_pos","AI_heading", "AI_agl_g","AI_agl","AI_error","AI_group","FD_roll","FD_pitch","ALT_box_flash","ALT_box","ALT_box_amber","ALT_scale","ALT_target","ALT_target_digit","ALT_one","ALT_two","ALT_three","ALT_four","ALT_five","ALT_digits","ALT_tens","ALT_digit_UP", "ALT_digit_DN","ALT_error","ALT_group","ALT_group2","ALT_frame","VS_pointer","VS_box","VS_digit","VS_error","VS_group","QNH","QNH_setting","QNH_std","QNH_box","LOC_pointer","LOC_scale","GS_scale","GS_pointer","CRS_pointer","HDG_target","HDG_scale", "HDG_one","HDG_two","HDG_three","HDG_four","HDG_five","HDG_six","HDG_seven","HDG_digit_L","HDG_digit_R","HDG_error","HDG_group","HDG_frame","TRK_pointer","machError","ilsError","ils_code","ils_freq","dme_dist","dme_dist_legend","ILS_HDG_R","ILS_HDG_L", "ILS_right","ILS_left","outerMarker","middleMarker","innerMarker","v1_group","v1_text","vr_speed","F_target","S_target","FS_targets","flap_max","clean_speed","ground","ground_ref","FPV", "fixed_aircraft_outline_1","fixed_aircraft_outline_2"]; }, updateDu1: func() { var elapsedtime_act = elapsedtime.getValue(); if (systems.ELEC.Bus.acEss.getValue() >= 110) { if (du1_offtime.getValue() + 3 < elapsedtime_act) { if (wow0.getValue() == 1) { if (acconfig.getValue() != 1 and du1_test.getValue() != 1) { du1_test.setValue(1); du1_test_amount.setValue(math.round((rand() * 5 ) + 35, 0.1)); du1_test_time.setValue(elapsedtime_act); } else if (acconfig.getValue() == 1 and du1_test.getValue() != 1) { du1_test.setValue(1); du1_test_amount.setValue(math.round((rand() * 5 ) + 35, 0.1)); du1_test_time.setValue(elapsedtime_act - 30); } } else { du1_test.setValue(1); du1_test_amount.setValue(0); du1_test_time.setValue(-100); } } } else { du1_test.setValue(0); du1_offtime.setValue(elapsedtime_act); } }, updateDu6: func() { var elapsedtime_act = elapsedtime.getValue(); if (systems.ELEC.Bus.ac2.getValue() >= 110) { if (du6_offtime.getValue() + 3 < elapsedtime_act) { if (wow0.getValue() == 1) { if (acconfig.getValue() != 1 and du6_test.getValue() != 1) { du6_test.setValue(1); du6_test_amount.setValue(math.round((rand() * 5 ) + 35, 0.1)); du6_test_time.setValue(elapsedtime_act); } else if (acconfig.getValue() == 1 and du6_test.getValue() != 1) { du6_test.setValue(1); du6_test_amount.setValue(math.round((rand() * 5 ) + 35, 0.1)); du6_test_time.setValue(elapsedtime_act - 30); } } else { du6_test.setValue(1); du6_test_amount.setValue(0); du6_test_time.setValue(-100); } } } else { du6_test.setValue(0); du6_offtime.setValue(elapsedtime_act); } }, update: func() { var elapsedtime_act = elapsedtime.getValue(); if (acconfig_mismatch.getValue() == "0x000") { PFD_1_mismatch.page.hide(); PFD_2_mismatch.page.hide(); if (systems.ELEC.Bus.acEss.getValue() >= 110 and du1_lgt.getValue() > 0.01) { if (du1_test_time.getValue() + du1_test_amount.getValue() >= elapsedtime_act and cpt_du_xfr.getValue() != 1) { PFD_1_test.update(); updateL = 0; PFD_1.page.hide(); PFD_1_test.page.show(); } else if (du2_test_time.getValue() + du2_test_amount.getValue() >= elapsedtime_act and cpt_du_xfr.getValue() == 1) { PFD_1_test.update(); updateL = 0; PFD_1.page.hide(); PFD_1_test.page.show(); } else { PFD_1.updateFast(); PFD_1.update(); updateL = 1; PFD_1_test.page.hide(); PFD_1.page.show(); } } else { updateL = 0; PFD_1_test.page.hide(); PFD_1.page.hide(); } if (systems.ELEC.Bus.ac2.getValue() >= 110 and du6_lgt.getValue() > 0.01) { if (du6_test_time.getValue() + du6_test_amount.getValue() >= elapsedtime_act and fo_du_xfr.getValue() != 1) { PFD_2_test.update(); updateR = 0; PFD_2.page.hide(); PFD_2_test.page.show(); } else if (du5_test_time.getValue() + du5_test_amount.getValue() >= elapsedtime_act and fo_du_xfr.getValue() == 1) { PFD_2_test.update(); updateR = 0; PFD_2.page.hide(); PFD_2_test.page.show(); } else { PFD_2.updateFast(); PFD_2.update(); updateR = 1; PFD_2_test.page.hide(); PFD_2.page.show(); } } else { updateR = 0; PFD_2_test.page.hide(); PFD_2.page.hide(); } } else { updateL = 0; updateR = 0; PFD_1_test.page.hide(); PFD_1.page.hide(); PFD_2_test.page.hide(); PFD_2.page.hide(); PFD_1_mismatch.update(); PFD_2_mismatch.update(); PFD_1_mismatch.page.show(); PFD_2_mismatch.page.show(); } }, updateSlow: func() { if (updateL) { PFD_1.update(); } if (updateR) { PFD_2.update(); } }, updateCommon: func () { # FMA MAN TOGA MCT FLX THR # Set properties used a lot to a variable to avoid calling getValue() multiple times state1_act = state1.getValue(); state2_act = state2.getValue(); thrust_limit_act = thrust_limit.getValue(); alpha_floor_act = alpha_floor.getValue(); toga_lk_act = toga_lk.getValue(); thr1_act = thr1.getValue(); thr2_act = thr2.getValue(); if (athr.getValue() == 1 and (state1_act == "TOGA" or state1_act == "MCT" or state1_act == "MAN THR" or state2_act == "TOGA" or state2_act == "MCT" or state2_act == "MAN THR") and eng_out.getValue() != 1 and alpha_floor_act != 1 and toga_lk_act != 1) { me["FMA_man"].show(); if (state1_act == "TOGA" or state2_act == "TOGA") { me["FMA_flx_box"].hide(); me["FMA_flxtemp"].hide(); me["FMA_man_box"].show(); me["FMA_manmode"].show(); me["FMA_flxmode"].hide(); me["FMA_manmode"].setText("TOGA"); me["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } else if ((state1_act == "MAN THR" and thr1_act >= 0.83) or (state2_act == "MAN THR" and thr2_act >= 0.83)) { me["FMA_flx_box"].hide(); me["FMA_flxtemp"].hide(); me["FMA_man_box"].show(); me["FMA_manmode"].show(); me["FMA_flxmode"].hide(); me["FMA_manmode"].setText("THR"); me["FMA_man_box"].setColor(0.7333,0.3803,0); } else if ((state1_act == "MCT" or state2_act == "MCT") and thrust_limit_act != "FLX") { me["FMA_flx_box"].hide(); me["FMA_flxtemp"].hide(); me["FMA_man_box"].show(); me["FMA_manmode"].show(); me["FMA_flxmode"].hide(); me["FMA_manmode"].setText("MCT"); me["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } else if ((state1_act == "MCT" or state2_act == "MCT") and thrust_limit_act == "FLX") { me["FMA_flxtemp"].setText(sprintf("%s", "+" ~ flex.getValue())); me["FMA_man_box"].hide(); me["FMA_flx_box"].show(); me["FMA_flxtemp"].show(); me["FMA_manmode"].hide(); me["FMA_flxmode"].show(); me["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } else if ((state1_act == "MAN THR" and thr1_act < 0.83) or (state2_act == "MAN THR" and thr2_act < 0.83)) { me["FMA_flx_box"].hide(); me["FMA_flxtemp"].hide(); me["FMA_man_box"].show(); me["FMA_manmode"].show(); me["FMA_flxmode"].hide(); me["FMA_manmode"].setText("THR"); me["FMA_man_box"].setColor(0.7333,0.3803,0); } } else if (athr.getValue() == 1 and (state1_act == "TOGA" or (state1_act == "MCT" and thrust_limit_act == "FLX") or (state1_act == "MAN THR" and thr1_act >= 0.83) or state2_act == "TOGA" or (state2_act == "MCT" and thrust_limit_act == "FLX") or (state2_act == "MAN THR" and thr2_act >= 0.83)) and eng_out.getValue() == 1 and alpha_floor_act != 1 and toga_lk_act != 1) { me["FMA_man"].show(); if (state1_act == "TOGA" or state2_act == "TOGA") { me["FMA_flx_box"].hide(); me["FMA_flxtemp"].hide(); me["FMA_man_box"].show(); me["FMA_manmode"].show(); me["FMA_flxmode"].hide(); me["FMA_manmode"].setText("TOGA"); me["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } else if ((state1_act == "MAN THR" and thr1_act >= 0.83) or (state2_act == "MAN THR" and thr2_act >= 0.83)) { me["FMA_flx_box"].hide(); me["FMA_flxtemp"].hide(); me["FMA_man_box"].show(); me["FMA_manmode"].show(); me["FMA_flxmode"].hide(); me["FMA_manmode"].setText("THR"); me["FMA_man_box"].setColor(0.7333,0.3803,0); } else if ((state1_act == "MCT" or state2_act == "MCT") and thrust_limit_act == "FLX") { me["FMA_flxtemp"].setText(sprintf("%s", "+" ~ flex.getValue())); me["FMA_man_box"].hide(); me["FMA_flx_box"].show(); me["FMA_flxtemp"].show(); me["FMA_manmode"].hide(); me["FMA_flxmode"].show(); me["FMA_man_box"].setColor(0.8078,0.8039,0.8078); } } else { me["FMA_man"].hide(); me["FMA_manmode"].hide(); me["FMA_man_box"].hide(); me["FMA_flx_box"].hide(); me["FMA_flxtemp"].hide(); me["FMA_flxmode"].hide(); } if ((state1_act == "CL" and state2_act != "CL") or (state1_act != "CL" and state2_act == "CL") and eng_out.getValue() != 1) { me["FMA_lvrclb"].setText("LVR ASYM"); } else { if (eng_out.getValue() == 1) { me["FMA_lvrclb"].setText("LVR MCT"); } else { me["FMA_lvrclb"].setText("LVR CLB"); } } if (athr.getValue() == 1 and lvr_clb.getValue() == 1) { me["FMA_lvrclb"].show(); } else { me["FMA_lvrclb"].hide(); } # FMA A/THR if (alpha_floor_act != 1 and toga_lk_act != 1) { if (athr.getValue() == 1 and eng_out.getValue() != 1 and (state1_act == "MAN" or state1_act == "CL") and (state2_act == "MAN" or state2_act == "CL")) { me["FMA_thrust"].show(); if (throt_box.getValue() == 1 and throttle_mode.getValue() != " ") { me["FMA_thrust_box"].show(); } else { me["FMA_thrust_box"].hide(); } } else if (athr.getValue() == 1 and eng_out.getValue() == 1 and (state1_act == "MAN" or state1_act == "CL" or (state1_act == "MAN THR" and thr1_act < 0.83) or (state1_act == "MCT" and thrust_limit_act != "FLX")) and (state2_act == "MAN" or state2_act == "CL" or (state2_act == "MAN THR" and thr2_act < 0.83) or (state2_act == "MCT" and thrust_limit_act != "FLX"))) { me["FMA_thrust"].show(); if (throt_box.getValue() == 1 and throttle_mode.getValue() != " ") { me["FMA_thrust_box"].show(); } else { me["FMA_thrust_box"].hide(); } } else { me["FMA_thrust"].hide(); me["FMA_thrust_box"].hide(); } } else { me["FMA_thrust"].show(); me["FMA_thrust_box"].show(); } if (alpha_floor_act == 1) { me["FMA_thrust"].setText("A.FLOOR"); me["FMA_thrust_box"].setColor(0.7333,0.3803,0); } else if (toga_lk_act == 1) { me["FMA_thrust"].setText("TOGA LK"); me["FMA_thrust_box"].setColor(0.7333,0.3803,0); } else { me["FMA_thrust"].setText(sprintf("%s", throttle_mode.getValue())); me["FMA_thrust_box"].setColor(0.8078,0.8039,0.8078); } # FMA Pitch Roll Common pitch_mode_act = pitch_mode.getValue(); # only call getValue once per loop, not multiple times pitch_mode_armed_act = pitch_mode_armed.getValue(); pitch_mode2_armed_act = pitch_mode2_armed.getValue(); roll_mode_act = roll_mode.getValue(); roll_mode_armed_act = roll_mode_armed.getValue(); fbw_curlaw = fbw_law.getValue(); me["FMA_combined"].setText(sprintf("%s", pitch_mode_act)); if (pitch_mode_act == "LAND" or pitch_mode_act == "FLARE" or pitch_mode_act == "ROLL OUT") { me["FMA_pitch"].hide(); me["FMA_roll"].hide(); me["FMA_pitch_box"].hide(); me["FMA_roll_box"].hide(); me["FMA_pitcharm_box"].hide(); me["FMA_rollarm_box"].hide(); me["FMA_Middle1"].hide(); me["FMA_Middle2"].hide(); if (fbw_curlaw == 2) { me["FMA_ctr_msg"].setText("USE MAN PITCH TRIM"); me["FMA_ctr_msg"].setColor(0.7333,0.3803,0); me["FMA_ctr_msg"].show(); } else if (fbw_curlaw == 3) { me["FMA_ctr_msg"].setText("MAN PITCH TRIM ONLY"); me["FMA_ctr_msg"].setColor(1,0,0); me["FMA_ctr_msg"].show(); } else { me["FMA_ctr_msg"].hide(); } me["FMA_combined"].show(); if (pitch_box.getValue() == 1 and pitch_mode_act != " ") { me["FMA_combined_box"].show(); } else { me["FMA_combined_box"].hide(); } } else { me["FMA_combined"].hide(); me["FMA_combined_box"].hide(); if (fbw_curlaw == 2) { me["FMA_ctr_msg"].setText("USE MAN PITCH TRIM"); me["FMA_ctr_msg"].setColor(0.7333,0.3803,0); me["FMA_Middle1"].hide(); me["FMA_Middle2"].show(); me["FMA_ctr_msg"].show(); } else if (fbw_curlaw == 3) { me["FMA_ctr_msg"].setText("MAN PITCH TRIM ONLY"); me["FMA_ctr_msg"].setColor(1,0,0); me["FMA_Middle1"].hide(); me["FMA_Middle2"].show(); me["FMA_ctr_msg"].show(); } else { me["FMA_ctr_msg"].hide(); me["FMA_Middle1"].show(); me["FMA_Middle2"].hide(); } if (ap1.getValue() == 1 or ap2.getValue() == 1 or fd1.getValue() == 1 or fd2.getValue() == 1) { me["FMA_pitch"].show(); me["FMA_roll"].show(); } else { me["FMA_pitch"].hide(); me["FMA_roll"].hide(); } if (pitch_box.getValue() == 1 and pitch_mode_act != " " and (ap1.getValue() == 1 or ap2.getValue() == 1 or fd1.getValue() == 1 or fd2.getValue() == 1)) { me["FMA_pitch_box"].show(); } else { me["FMA_pitch_box"].hide(); } if (pitch_mode_armed_act == " " and pitch_mode2_armed_act == " ") { me["FMA_pitcharm_box"].hide(); } else { if ((pitch_mode_armed_box.getValue() == 1 or pitch_mode2_armed_box.getValue() == 1) and (ap1.getValue() == 1 or ap2.getValue() == 1 or fd1.getValue() == 1 or fd2.getValue() == 1)) { me["FMA_pitcharm_box"].show(); } else { me["FMA_pitcharm_box"].hide(); } } if (roll_mode_box.getValue() == 1 and roll_mode_act != " " and (ap1.getValue() == 1 or ap2.getValue() == 1 or fd1.getValue() == 1 or fd2.getValue() == 1)) { me["FMA_roll_box"].show(); } else { me["FMA_roll_box"].hide(); } if (roll_mode_armed_box.getValue() == 1 and roll_mode_armed_act != " " and (ap1.getValue() == 1 or ap2.getValue() == 1 or fd1.getValue() == 1 or fd2.getValue() == 1)) { me["FMA_rollarm_box"].show(); } else { me["FMA_rollarm_box"].hide(); } } if (ap1.getValue() == 1 or ap2.getValue() == 1 or fd1.getValue() == 1 or fd2.getValue() == 1) { me["FMA_pitcharm"].show(); me["FMA_pitcharm2"].show(); me["FMA_rollarm"].show(); } else { me["FMA_pitcharm"].hide(); me["FMA_pitcharm2"].hide(); me["FMA_rollarm"].hide(); } # FMA Pitch me["FMA_pitch"].setText(sprintf("%s", pitch_mode_act)); me["FMA_pitcharm"].setText(sprintf("%s", pitch_mode_armed_act)); me["FMA_pitcharm2"].setText(sprintf("%s", pitch_mode2_armed_act)); # FMA Roll me["FMA_roll"].setText(sprintf("%s", roll_mode_act)); me["FMA_rollarm"].setText(sprintf("%s", roll_mode_armed_act)); # FMA CAT DH me["FMA_catmode"].hide(); me["FMA_cattype"].hide(); me["FMA_catmode_box"].hide(); me["FMA_cattype_box"].hide(); me["FMA_cat_box"].hide(); # FMA AP FD ATHR me["FMA_ap"].setText(sprintf("%s", ap_mode.getValue())); me["FMA_fd"].setText(sprintf("%s", fd_mode.getValue())); me["FMA_athr"].setText(sprintf("%s", at_mode.getValue())); if (athr_arm.getValue() != 1) { me["FMA_athr"].setColor(0.8078,0.8039,0.8078); } else { me["FMA_athr"].setColor(0.0901,0.6039,0.7176); } if (ap_box.getValue() == 1 and ap_mode.getValue() != " ") { me["FMA_ap_box"].show(); } else { me["FMA_ap_box"].hide(); } if (fd_box.getValue() == 1 and fd_mode.getValue() != " ") { me["FMA_fd_box"].show(); } else { me["FMA_fd_box"].hide(); } if (at_box.getValue() == 1 and at_mode.getValue() != " ") { me["FMA_athr_box"].show(); } else { me["FMA_athr_box"].hide(); } # QNH if (alt_std_mode.getValue() == 1) { me["QNH"].hide(); me["QNH_setting"].hide(); if (altitude.getValue() < fmgc.FMGCInternal.transAlt and fmgc.FMGCInternal.phase == 4) { if (qnh_going == 0) { qnh_going = 1; } if (qnh_going == 1) { qnhTimer.start(); if (qnhFlash.getValue() == 1) { me["QNH_std"].show(); me["QNH_box"].show(); } else { me["QNH_std"].hide(); me["QNH_box"].hide(); } } } else { qnhTimer.stop(); qnh_going = 0; me["QNH_std"].show(); me["QNH_box"].show(); } } else if (alt_inhg_mode.getValue() == 0) { me["QNH_std"].hide(); me["QNH_box"].hide(); if (altitude.getValue() >= fmgc.FMGCInternal.transAlt and fmgc.FMGCInternal.phase == 2) { if (qnh_going == 0) { qnh_going = 1; } if (qnh_going == 1) { qnhTimer.start(); if (qnhFlash.getValue() == 1) { me["QNH_setting"].setText(sprintf("%4.0f", alt_hpa.getValue())); me["QNH"].show(); me["QNH_setting"].show(); } else { me["QNH"].hide(); me["QNH_setting"].hide(); } } } else { qnhTimer.stop(); qnh_going = 0; me["QNH_setting"].setText(sprintf("%4.0f", alt_hpa.getValue())); me["QNH"].show(); me["QNH_setting"].show(); } } else if (alt_inhg_mode.getValue() == 1) { if (altitude.getValue() >= fmgc.FMGCInternal.transAlt and fmgc.FMGCInternal.phase == 2) { if (qnh_going == 0) { qnh_going = 1; } if (qnh_going == 1) { qnhTimer.start(); if (qnhFlash.getValue() == 1) { me["QNH_setting"].setText(sprintf("%2.2f", alt_inhg.getValue())); me["QNH"].show(); me["QNH_setting"].show(); } else { me["QNH"].hide(); me["QNH_setting"].hide(); } } } else { qnhTimer.stop(); qnh_going = 0; me["QNH_setting"].setText(sprintf("%2.2f", alt_inhg.getValue())); me["QNH"].show(); me["QNH_setting"].show(); } me["QNH_std"].hide(); me["QNH_box"].hide(); } }, updateCommonFast: func() { # Attitude Indicator pitch_cur = pitch.getValue(); roll_cur = roll.getValue(); me.AI_horizon_trans.setTranslation(0, pitch_cur * 11.825); me.AI_horizon_rot.setRotation(-roll_cur * D2R, me["AI_center"].getCenter()); me.AI_horizon_ground_trans.setTranslation(0, horizon_ground.getValue() * 11.825); me.AI_horizon_ground_rot.setRotation(-roll_cur * D2R, me["AI_center"].getCenter()); me.AI_horizon_sky_rot.setRotation(-roll_cur * D2R, me["AI_center"].getCenter()); me["AI_slipskid"].setTranslation(math.clamp(slip_skid.getValue(), -15, 15) * 7, 0); me["AI_bank"].setRotation(-roll_cur * D2R); if (fbw_law.getValue() == 0) { me["AI_bank_lim"].show(); me["AI_pitch_lim"].show(); me["AI_bank_lim_X"].hide(); me["AI_pitch_lim_X"].hide(); } else { me["AI_bank_lim"].hide(); me["AI_pitch_lim"].hide(); me["AI_bank_lim_X"].show(); me["AI_pitch_lim_X"].show(); } fd_roll_cur = fd_roll.getValue(); fd_pitch_cur = fd_pitch.getValue(); if (fd_roll_cur != nil) { me["FD_roll"].setTranslation((fd_roll_cur) * 2.2, 0); } if (fd_pitch_cur != nil) { me["FD_pitch"].setTranslation(0, -(fd_pitch_cur) * 3.8); } gear_agl_cur = gear_agl.getValue(); me["AI_agl"].setText(sprintf("%s", math.round(math.clamp(gear_agl_cur, 0, 2500)))); if (fmgc.FMGCInternal.phase < 3 or fmgc.flightPlanController.arrivalDist >= 250) { me["FMA_dh_box"].hide(); me["FMA_dh"].hide(); me["FMA_dhn"].hide(); me["FMA_nodh"].hide(); #me["dhReached"].hide(); if (gear_agl_cur <= 2500) { me["AI_agl"].show(); if (gear_agl_cur <= decision.getValue()) { me["AI_agl"].setColor(0.7333,0.3803,0); } else { me["AI_agl"].setColor(0.0509,0.7529,0.2941); } } else { me["AI_agl"].hide(); } } else { if (gear_agl_cur <= 2500) { me["AI_agl"].show(); me["FMA_dh_box"].hide(); #not implemented if (int(getprop("/FMGC/internal/radio")) != 99999) { me["FMA_dh"].setText("RADIO"); me["FMA_dh"].show(); me["FMA_dhn"].setText(sprintf("%.0f", getprop("/FMGC/internal/radio"))); me["FMA_dhn"].show(); me["FMA_nodh"].hide(); hundredAbove.setValue(getprop("/FMGC/internal/radio") + 100); minimum.setValue(getprop("/FMGC/internal/radio")); if (gear_agl_cur <= getprop("/FMGC/internal/radio") + 100) { me["AI_agl"].setColor(0.7333,0.3803,0); } else { me["AI_agl"].setColor(0.0509,0.7529,0.2941); } } else if (int(getprop("/FMGC/internal/baro")) != 99999) { me["FMA_dh"].setText("BARO"); me["FMA_dh"].show(); me["FMA_dhn"].setText(sprintf("%.0f", getprop("/FMGC/internal/baro"))); me["FMA_dhn"].show(); me["FMA_nodh"].hide(); hundredAbove.setValue(getprop("/FMGC/internal/baro") + 100); minimum.setValue(getprop("/FMGC/internal/baro")); if (gear_agl_cur <= getprop("/FMGC/internal/baro") + 100) { me["AI_agl"].setColor(0.7333,0.3803,0); } else { me["AI_agl"].setColor(0.0509,0.7529,0.2941); } } else if (getprop("/FMGC/internal/radio-no")) { me["FMA_dh"].setText("BARO"); me["FMA_dh"].show(); me["FMA_dhn"].setText("100"); me["FMA_dhn"].show(); me["FMA_nodh"].hide(); hundredAbove.setValue(100); minimum.setValue(0); if (gear_agl_cur <= 100) { me["AI_agl"].setColor(0.7333,0.3803,0); } else { me["AI_agl"].setColor(0.0509,0.7529,0.2941); } } else { me["FMA_dh"].hide(); me["FMA_dhn"].hide(); me["FMA_nodh"].show(); hundredAbove.setValue(400); minimum.setValue(300); if (gear_agl_cur <= 400) { me["AI_agl"].setColor(0.7333,0.3803,0); } else { me["AI_agl"].setColor(0.0509,0.7529,0.2941); } } } else { me["AI_agl"].hide(); me["FMA_nodh"].hide(); me["FMA_dh_box"].hide(); #not implemented if (int(getprop("/FMGC/internal/radio")) != 99999) { me["FMA_dh"].setText("RADIO"); me["FMA_dh"].show(); me["FMA_dhn"].setText(sprintf("%.0f", getprop("/FMGC/internal/radio"))); me["FMA_dhn"].show(); me["FMA_nodh"].hide(); } else if (int(getprop("/FMGC/internal/baro")) != 99999) { me["FMA_dh"].setText("BARO"); me["FMA_dh"].show(); me["FMA_dhn"].setText(sprintf("%.0f", getprop("/FMGC/internal/baro"))); me["FMA_dhn"].show(); me["FMA_nodh"].hide(); } else if (getprop("/FMGC/internal/radio-no")) { me["FMA_dh"].setText("BARO"); me["FMA_dh"].show(); me["FMA_dhn"].setText("100"); me["FMA_dhn"].show(); me["FMA_nodh"].hide(); } else { me["FMA_dh"].hide(); me["FMA_dhn"].hide(); me["FMA_nodh"].show(); } } } me["AI_agl_g"].setRotation(-roll_cur * D2R); FMGCphase_act = fmgc.FMGCInternal.phase; if ((wow1.getValue() == 1 or wow2.getValue() == 1) and FMGCphase_act != 0 and FMGCphase_act != 1) { me["AI_stick"].show(); me["AI_stick_pos"].show(); } else if ((wow1.getValue() == 1 or wow2.getValue() == 1) and (FMGCphase_act == 0 or FMGCphase_act == 1) and (eng0_state.getValue() == 3 or eng1_state.getValue() == 3)) { me["AI_stick"].show(); me["AI_stick_pos"].show(); } else { me["AI_stick"].hide(); me["AI_stick_pos"].hide(); } me["AI_stick_pos"].setTranslation(aileron_input.getValue() * 196.8, elevator_input.getValue() * 151.5); # Vertical Speed me["VS_pointer"].setRotation(vs_needle.getValue() * D2R); me["VS_box"].setTranslation(0, vs_digit.getValue()); var vs_pfd_cur = ap_vs_pfd.getValue(); if (vs_pfd_cur < 2) { me["VS_box"].hide(); } else { me["VS_box"].show(); } if (vs_pfd_cur < 10) { me["VS_digit"].setText(sprintf("%02d", "0" ~ vs_pfd_cur)); } else { me["VS_digit"].setText(sprintf("%02d", vs_pfd_cur)); } var vs_itaf = fmgc.Internal.vs.getValue(); var gearAgl = gear_agl.getValue(); if (abs(vs_itaf) >= 6000 or (vs_itaf <= -2000 and gearAgl <= 2500) or (vs_itaf <= -1200 and gearAgl <= 1000)) { me["VS_digit"].setColor(0.7333,0.3803,0); me["VS_pointer"].setColor(0.7333,0.3803,0); me["VS_pointer"].setColorFill(0.7333,0.3803,0); } else { me["VS_digit"].setColor(0.0509,0.7529,0.2941); me["VS_pointer"].setColor(0.0509,0.7529,0.2941); me["VS_pointer"].setColorFill(0.0509,0.7529,0.2941); } # ILS me["LOC_pointer"].setTranslation(loc.getValue() * 197, 0); me["GS_pointer"].setTranslation(0, gs.getValue() * -197); # Heading me.heading = hdg_scale.getValue(); me.headOffset = me.heading / 10 - int(me.heading / 10); me.middleText = roundabout(me.heading / 10); me.middleOffset = nil; if(me.middleText == 36) { me.middleText = 0; } me.leftText1 = me.middleText == 0?35:me.middleText - 1; me.rightText1 = me.middleText == 35?0:me.middleText + 1; me.leftText2 = me.leftText1 == 0?35:me.leftText1 - 1; me.rightText2 = me.rightText1 == 35?0:me.rightText1 + 1; me.leftText3 = me.leftText2 == 0?35:me.leftText2 - 1; me.rightText3 = me.rightText2 == 35?0:me.rightText2 + 1; if (me.headOffset > 0.5) { me.middleOffset = -(me.headOffset - 1) * 98.5416; } else { me.middleOffset = -me.headOffset * 98.5416; } me["HDG_scale"].setTranslation(me.middleOffset, 0); me["HDG_scale"].update(); me["HDG_four"].setText(sprintf("%d", me.middleText)); me["HDG_five"].setText(sprintf("%d", me.rightText1)); me["HDG_three"].setText(sprintf("%d", me.leftText1)); me["HDG_six"].setText(sprintf("%d", me.rightText2)); me["HDG_two"].setText(sprintf("%d", me.leftText2)); me["HDG_seven"].setText(sprintf("%d", me.rightText3)); me["HDG_one"].setText(sprintf("%d", me.leftText3)); me["HDG_four"].setFontSize(fontSizeHDG(me.middleText), 1); me["HDG_five"].setFontSize(fontSizeHDG(me.rightText1), 1); me["HDG_three"].setFontSize(fontSizeHDG(me.leftText1), 1); me["HDG_six"].setFontSize(fontSizeHDG(me.rightText2), 1); me["HDG_two"].setFontSize(fontSizeHDG(me.leftText2), 1); me["HDG_seven"].setFontSize(fontSizeHDG(me.rightText3), 1); me["HDG_one"].setFontSize(fontSizeHDG(me.leftText3), 1); show_hdg_act = show_hdg.getValue(); hdg_diff_act = hdg_diff.getValue(); if (show_hdg_act == 1 and hdg_diff_act >= -23.62 and hdg_diff_act <= 23.62) { me["HDG_target"].setTranslation((hdg_diff_act / 10) * 98.5416, 0); me["HDG_digit_L"].hide(); me["HDG_digit_R"].hide(); me["HDG_target"].show(); } else if (show_hdg_act == 1 and hdg_diff_act < -23.62 and hdg_diff_act >= -180) { me["HDG_digit_L"].setText(sprintf("%3.0f", ap_hdg.getValue())); me["HDG_digit_L"].show(); me["HDG_digit_R"].hide(); me["HDG_target"].hide(); } else if (show_hdg_act == 1 and hdg_diff_act > 23.62 and hdg_diff_act <= 180) { me["HDG_digit_R"].setText(sprintf("%3.0f", ap_hdg.getValue())); me["HDG_digit_R"].show(); me["HDG_digit_L"].hide(); me["HDG_target"].hide(); } else { me["HDG_digit_L"].hide(); me["HDG_digit_R"].hide(); me["HDG_target"].hide(); } track_diff = geo.normdeg180(track.getValue() - heading.getValue()); me["TRK_pointer"].setTranslation(me.getTrackDiffPixels(track_diff),0); split_ils = split("/", ils_data1.getValue()); if (ap_ils_mode.getValue() == 1 and size(split_ils) == 2) { magnetic_hdg = ils_crs.getValue(); magnetic_hdg_dif = geo.normdeg180(magnetic_hdg - heading.getValue()); if (magnetic_hdg_dif >= -23.62 and magnetic_hdg_dif <= 23.62) { me["CRS_pointer"].setTranslation((magnetic_hdg_dif / 10) * 98.5416, 0); me["ILS_HDG_R"].hide(); me["ILS_HDG_L"].hide(); me["CRS_pointer"].show(); } else if (magnetic_hdg_dif < -23.62 and magnetic_hdg_dif >= -180) { if (int(magnetic_hdg) < 10) { me["ILS_left"].setText(sprintf("00%1.0f", int(magnetic_hdg))); } else if (int(magnetic_hdg) < 100) { me["ILS_left"].setText(sprintf("0%2.0f", int(magnetic_hdg))); } else { me["ILS_left"].setText(sprintf("%3.0f", int(magnetic_hdg))); } me["ILS_HDG_L"].show(); me["ILS_HDG_R"].hide(); me["CRS_pointer"].hide(); } else if (magnetic_hdg_dif > 23.62 and magnetic_hdg_dif <= 180) { if (int(magnetic_hdg) < 10) { me["ILS_right"].setText(sprintf("00%1.0f", int(magnetic_hdg))); } else if (int(magnetic_hdg) < 100) { me["ILS_right"].setText(sprintf("0%2.0f", int(magnetic_hdg))); } else { me["ILS_right"].setText(sprintf("%3.0f", int(magnetic_hdg))); } me["ILS_HDG_R"].show(); me["ILS_HDG_L"].hide(); me["CRS_pointer"].hide(); } else { me["ILS_HDG_R"].hide(); me["ILS_HDG_L"].hide(); me["CRS_pointer"].hide(); } } else { me["ILS_HDG_R"].hide(); me["ILS_HDG_L"].hide(); me["CRS_pointer"].hide(); } # AI HDG me.AI_horizon_hdg_trans.setTranslation(me.middleOffset, horizon_pitch.getValue() * 11.825); me.AI_horizon_hdg_rot.setRotation(-roll_cur * D2R, me["AI_center"].getCenter()); me["AI_heading"].update(); }, # Dim the yellow outline of fixed aircraft symbol on PFDs (eg when crew select TRK) # 1 == dim # 0 == undim dimFixedAircraftOutline: func(dim_bool) { var r = 0.345098039; var g = 0.349019608; var b = 0.058823529; if (dim_bool == 0) { r = 0.788235294; g = 0.819607843; b = 0.129411765; } me["fixed_aircraft_outline_1"].setColor(r, g, b); me["fixed_aircraft_outline_2"].setColor(r, g, b); }, # Get Angle of Attack from ADR1 or, depending on Switching panel, ADR3 getAOAForPFD1: func() { if (air_data_switch.getValue() != -1 and adr_1_switch.getValue() and !adr_1_fault.getValue()) return aoa_1.getValue(); if (air_data_switch.getValue() == -1 and adr_3_switch.getValue() and !adr_3_fault.getValue()) return aoa_3.getValue(); return nil; }, # Get Angle of Attack from ADR2 or, depending on Switching panel, ADR3 getAOAForPFD2: func() { if (air_data_switch.getValue() != 1 and adr_2_switch.getValue() and !adr_2_fault.getValue()) return aoa_2.getValue(); if (air_data_switch.getValue() == 1 and adr_3_switch.getValue() and !adr_3_fault.getValue()) return aoa_3.getValue(); return nil; }, # Convert difference between magnetic heading and track measured in degrees to pixel for display on PFDs # And set max and minimum values getTrackDiffPixels: func(track_diff_deg) { return ((math.clamp(track_diff_deg, -23.62, 23.62) / 10) * 98.5416); }, }; var canvas_PFD_1 = { ASI: 0, ASImax: 0, ASItrend: 0, ASItrgt: 0, ASItrgtdiff: 0, V1trgt: 0, VRtrgt: 0, V2trgt: 0, Strgt: 0, Ftrgt: 0, flaptrgt: 0, cleantrgt: 0, SPDv1trgtdiff: 0, SPDvrtrgtdiff: 0, SPDv2trgtdiff: 0, SPDstrgtdiff: 0, SPDftrgtdiff: 0, SPDflaptrgtdiff: 0, SPDcleantrgtdiff: 0, new: func(canvas_group, file) { var m = {parents: [canvas_PFD_1, canvas_PFD_base]}; m.init(canvas_group, file); return m; }, update: func() { fd1_act = fd1.getValue(); pitch_mode_cur = pitch_mode.getValue(); roll_mode_cur = roll_mode.getValue(); pitch_cur = pitch.getValue(); roll_cur = roll.getValue(); wow1_act = wow1.getValue(); wow2_act = wow2.getValue(); # Errors if (systems.ADIRS.ADIRunits[0].aligned == 1 or (systems.ADIRS.ADIRunits[2].aligned == 1 and att_switch.getValue() == -1)) { me["AI_group"].show(); me["HDG_group"].show(); me["AI_error"].hide(); me["HDG_error"].hide(); me["HDG_frame"].setColor(1,1,1); me["VS_group"].show(); me["VS_error"].hide(); # VS is inertial-sourced } else { me["AI_error"].show(); me["HDG_error"].show(); me["HDG_frame"].setColor(1,0,0); me["AI_group"].hide(); me["HDG_group"].hide(); me["VS_error"].show(); me["VS_group"].hide(); } # FD if (fd1_act == 1 and ((!wow1_act and !wow2_act and roll_mode_cur != " ") or roll_mode_cur != " ") and ap_trk_sw.getValue() == 0 and pitch_cur < 25 and pitch_cur > -13 and roll_cur < 45 and roll_cur > -45) { me["FD_roll"].show(); } else { me["FD_roll"].hide(); } if (fd1_act == 1 and ((!wow1_act and !wow2_act and pitch_mode_cur != " ") or pitch_mode_cur != " ") and ap_trk_sw.getValue() == 0 and pitch_cur < 25 and pitch_cur > -13 and roll_cur < 45 and roll_cur > -45) { me["FD_pitch"].show(); } else { me["FD_pitch"].hide(); } # FPV # If TRK FPA selected on the FCU, display FPV on PFD1 if (ap_trk_sw.getValue() == 0 ) { me["FPV"].hide(); me.dimFixedAircraftOutline(0); } else { var aoa = me.getAOAForPFD1(); if (aoa == nil or (systems.ADIRS.ADIRunits[0].aligned != 1 and att_switch.getValue() == 0) or (systems.ADIRS.ADIRunits[2].aligned != 1 and att_switch.getValue() == -1)){ me["FPV"].hide(); me.dimFixedAircraftOutline(0); } else { var roll_deg = roll.getValue() or 0; var alpha_deg = aoa; var fpa_deg = pitch.getValue() - alpha_deg; AICenter = me["AI_center"].getCenter(); var track_x_translation = me.getTrackDiffPixels(track_diff); # Display FPV in red if FPA greater or less plus or minus 9.9 degrees # if (fpa_deg > 9.9) { # alpha_deg = alpha_deg + (fpa_deg - 9.9); # me["FPV"].setColor(1, 0, 0); # } else if (fpa_deg < -9.9) { # alpha_deg = alpha_deg + (fpa_deg + 9.9); # me["FPV"].setColor(1, 0, 0); # } else { # me["FPV"].setColor(0.066666667, 0.752941176, 0.294117647); # } me.AI_fpv_trans.setTranslation(track_x_translation, math.clamp(alpha_deg, -20, 20) * 12.5); me.AI_fpv_rot.setRotation(-roll_deg * D2R, AICenter); me["FPV"].setRotation(roll_deg * D2R); # It shouldn't be rotated, only the axis should be me["FPV"].show(); me.dimFixedAircraftOutline(1); } } # ILS if (ap_ils_mode.getValue() == 1) { me["LOC_scale"].show(); me["GS_scale"].show(); split_ils = split("/", ils_data1.getValue()); if (size(split_ils) < 2) { me["ils_freq"].setText(split_ils[0]); me["ils_freq"].show(); me["ils_code"].hide(); me["dme_dist"].hide(); me["dme_dist_legend"].hide(); } else { me["ils_code"].setText(split_ils[0]); me["ils_freq"].setText(split_ils[1]); me["ils_code"].show(); me["ils_freq"].show(); } if (dme_in_range.getValue() == 1) { dme_dist_data = dme_data.getValue(); if (dme_dist_data < 20.0) { me["dme_dist"].setText(sprintf("%1.1f", dme_dist_data)); } else { me["dme_dist"].setText(sprintf("%2.0f", dme_dist_data)); } me["dme_dist"].show(); me["dme_dist_legend"].show(); } } else { me["LOC_scale"].hide(); me["GS_scale"].hide(); me["ils_code"].hide(); me["ils_freq"].hide(); me["dme_dist"].hide(); me["dme_dist_legend"].hide(); me["outerMarker"].hide(); me["middleMarker"].hide(); me["innerMarker"].hide(); } if (outer_marker.getValue() == 1) { me["outerMarker"].show(); me["middleMarker"].hide(); me["innerMarker"].hide(); } else if (middle_marker.getValue()) { me["middleMarker"].show(); me["outerMarker"].hide(); me["innerMarker"].hide(); } else if (inner_marker.getValue()) { me["innerMarker"].show(); me["outerMarker"].hide(); me["middleMarker"].hide(); } else { me["outerMarker"].hide(); me["middleMarker"].hide(); me["innerMarker"].hide(); } if (ap_ils_mode.getValue() == 1 and loc_in_range.getValue() == 1 and hasloc.getValue() == 1 and nav0_signalq.getValue() > 0.99) { me["LOC_pointer"].show(); } else { me["LOC_pointer"].hide(); } if (ap_ils_mode.getValue() == 1 and gs_in_range.getValue() == 1 and hasgs.getValue() == 1 and nav0_signalq.getValue() > 0.99) { me["GS_pointer"].show(); } else { me["GS_pointer"].hide(); } if (ap_ils_mode.getValue() == 0 and (appr_enabled.getValue() == 1 or loc_enabled.getValue() == 1 or vert_gs.getValue() == 2)) { if (ils_going1 == 0) { ils_going1 = 1; } if (ils_going1 == 1) { ilsTimer1.start(); if (ilsFlash1.getValue() == 1) { me["ilsError"].show(); } else { me["ilsError"].hide(); } } } else { ilsTimer1.stop(); ils_going1 = 0; me["ilsError"].hide(); } me.updateCommon(); }, updateFast: func() { # Airspeed # ind_spd = ind_spd_kt.getValue(); # Subtract 30, since the scale starts at 30, but don"t allow less than 0, or more than 420 situations if (dmc.DMController.DMCs[0].outputs[0] != nil) { ind_spd = dmc.DMController.DMCs[0].outputs[0].getValue(); me["ASI_error"].hide(); me["ASI_frame"].setColor(1,1,1); me["ASI_group"].show(); me["VLS_min"].hide(); me["ALPHA_PROT"].hide(); me["ALPHA_MAX"].hide(); me["ALPHA_SW"].hide(); if (ind_spd <= 30) { me.ASI = 0; } else if (ind_spd >= 420) { me.ASI = 390; } else { me.ASI = ind_spd - 30; } me.FMGC_max = fmgc.FMGCInternal.maxspeed; if (me.FMGC_max <= 30) { me.ASImax = 0 - me.ASI; } else if (me.FMGC_max >= 420) { me.ASImax = 390 - me.ASI; } else { me.ASImax = me.FMGC_max - 30 - me.ASI; } me["ASI_scale"].setTranslation(0, me.ASI * 6.6); me["ASI_max"].setTranslation(0, me.ASImax * -6.6); if (!fmgc.FMGCInternal.takeoffState and fmgc.FMGCInternal.phase >= 1 and !wow1.getValue() and !wow2.getValue()) { me.FMGC_vls = fmgc.FMGCInternal.vls_min; if (me.FMGC_vls <= 30) { me.VLSmin = 0 - me.ASI; } else if (me.FMGC_vls >= 420) { me.VLSmin = 390 - me.ASI; } else { me.VLSmin = me.FMGC_vls - 30 - me.ASI; } me.FMGC_prot = fmgc.FMGCInternal.alpha_prot; if (me.FMGC_prot <= 30) { me.ALPHAprot = 0 - me.ASI; } else if (me.FMGC_prot >= 420) { me.ALPHAprot = 390 - me.ASI; } else { me.ALPHAprot = me.FMGC_prot - 30 - me.ASI; } me.FMGC_max = fmgc.FMGCInternal.alpha_max; if (me.FMGC_max <= 30) { me.ALPHAmax = 0 - me.ASI; } else if (me.FMGC_max >= 420) { me.ALPHAmax = 390 - me.ASI; } else { me.ALPHAmax = me.FMGC_max - 30 - me.ASI; } me.FMGC_vsw = fmgc.FMGCInternal.vsw; if (me.FMGC_vsw <= 30) { me.ALPHAvsw = 0 - me.ASI; } else if (me.FMGC_vsw >= 420) { me.ALPHAvsw = 390 - me.ASI; } else { me.ALPHAvsw = me.FMGC_vsw - 30 - me.ASI; } me["VLS_min"].setTranslation(0, me.VLSmin * -6.6); me["VLS_min"].show(); me["ALPHA_PROT"].setTranslation(0, me.ALPHAprot * -6.6); me["ALPHA_MAX"].setTranslation(0, me.ALPHAmax * -6.6); me["ALPHA_SW"].setTranslation(0, me.ALPHAvsw * -6.6); if (getprop("/it-fbw/law") == 0) { me["ALPHA_PROT"].show(); me["ALPHA_MAX"].show(); me["ALPHA_SW"].hide(); } else { me["ALPHA_PROT"].hide(); me["ALPHA_MAX"].hide(); me["ALPHA_SW"].show(); } } tgt_ias = at_tgt_ias.getValue(); tgt_mach = at_input_spd_mach.getValue(); tgt_kts = at_input_spd_kts.getValue(); if (managed_spd.getValue() == 1) { if (getprop("/FMGC/internal/decel") == 1) { if (getprop("/FMGC/internal/vapp-speed-set")) { vapp = fmgc.FMGCInternal.vapp_appr; } else { vapp = fmgc.FMGCInternal.vapp; } tgt_ias = vapp; tgt_kts = vapp; } else if (fmgc.FMGCInternal.phase == 6) { clean = fmgc.FMGCInternal.clean; tgt_ias = clean; tgt_kts = clean; } me["ASI_target"].setColor(0.6901,0.3333,0.7450); me["ASI_digit_UP"].setColor(0.6901,0.3333,0.7450); me["ASI_decimal_UP"].setColor(0.6901,0.3333,0.7450); me["ASI_digit_DN"].setColor(0.6901,0.3333,0.7450); me["ASI_decimal_DN"].setColor(0.6901,0.3333,0.7450); } else { me["ASI_target"].setColor(0.0901,0.6039,0.7176); me["ASI_digit_UP"].setColor(0.0901,0.6039,0.7176); me["ASI_decimal_UP"].setColor(0.0901,0.6039,0.7176); me["ASI_digit_DN"].setColor(0.0901,0.6039,0.7176); me["ASI_decimal_DN"].setColor(0.0901,0.6039,0.7176); } if (tgt_ias <= 30) { me.ASItrgt = 0 - me.ASI; } else if (tgt_ias >= 420) { me.ASItrgt = 390 - me.ASI; } else { me.ASItrgt = tgt_ias - 30 - me.ASI; } me.ASItrgtdiff = tgt_ias - ind_spd; if (me.ASItrgtdiff >= -42 and me.ASItrgtdiff <= 42) { me["ASI_target"].setTranslation(0, me.ASItrgt * -6.6); me["ASI_digit_UP"].hide(); me["ASI_decimal_UP"].hide(); me["ASI_digit_DN"].hide(); me["ASI_decimal_DN"].hide(); me["ASI_target"].show(); } else if (me.ASItrgtdiff < -42) { if (at_mach_mode.getValue() == 1) { me["ASI_digit_DN"].setText(sprintf("%3.0f", tgt_mach * 1000)); me["ASI_decimal_UP"].hide(); me["ASI_decimal_DN"].show(); } else { me["ASI_digit_DN"].setText(sprintf("%3.0f", tgt_kts)); me["ASI_decimal_UP"].hide(); me["ASI_decimal_DN"].hide(); } me["ASI_digit_DN"].show(); me["ASI_digit_UP"].hide(); me["ASI_target"].hide(); } else if (me.ASItrgtdiff > 42) { if (at_mach_mode.getValue() == 1) { me["ASI_digit_UP"].setText(sprintf("%3.0f", tgt_mach * 1000)); me["ASI_decimal_UP"].show(); me["ASI_decimal_DN"].hide(); } else { me["ASI_digit_UP"].setText(sprintf("%3.0f", tgt_kts)); me["ASI_decimal_UP"].hide(); me["ASI_decimal_DN"].hide(); } me["ASI_digit_UP"].show(); me["ASI_digit_DN"].hide(); me["ASI_target"].hide(); } if (fmgc.FMGCInternal.v1set) { tgt_v1 = fmgc.FMGCInternal.v1; if (tgt_v1 <= 30) { me.V1trgt = 0 - me.ASI; } else if (tgt_v1 >= 420) { me.V1trgt = 390 - me.ASI; } else { me.V1trgt = tgt_v1 - 30 - me.ASI; } me.SPDv1trgtdiff = tgt_v1 - ind_spd; if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2 and me.SPDv1trgtdiff >= -42 and me.SPDv1trgtdiff <= 42) { me["v1_group"].show(); me["v1_text"].hide(); me["v1_group"].setTranslation(0, me.V1trgt * -6.6); } else if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2) { me["v1_group"].hide(); me["v1_text"].show(); me["v1_text"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v1)); } else { me["v1_group"].hide(); me["v1_text"].hide(); } } else { me["v1_group"].hide(); me["v1_text"].hide(); } if (fmgc.FMGCInternal.vrset) { tgt_vr = fmgc.FMGCInternal.vr; if (tgt_vr <= 30) { me.VRtrgt = 0 - me.ASI; } else if (tgt_vr >= 420) { me.VRtrgt = 390 - me.ASI; } else { me.VRtrgt = tgt_vr - 30 - me.ASI; } me.SPDvrtrgtdiff = tgt_vr - ind_spd; if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2 and me.SPDvrtrgtdiff >= -42 and me.SPDvrtrgtdiff <= 42) { me["vr_speed"].show(); me["vr_speed"].setTranslation(0, me.VRtrgt * -6.6); } else { me["vr_speed"].hide(); } } else { me["vr_speed"].hide(); } if (fmgc.FMGCInternal.v2set) { tgt_v2 = fmgc.FMGCInternal.v2; if (tgt_v2 <= 30) { me.V2trgt = 0 - me.ASI; } else if (tgt_v2 >= 420) { me.V2trgt = 390 - me.ASI; } else { me.V2trgt = tgt_v2 - 30 - me.ASI; } me.SPDv2trgtdiff = tgt_v2 - ind_spd; if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2 and me.SPDv2trgtdiff >= -42 and me.SPDv2trgtdiff <= 42) { me["ASI_target"].show(); me["ASI_target"].setTranslation(0, me.V2trgt * -6.6); me["ASI_digit_UP"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v2)); } else if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2) { me["ASI_target"].hide(); me["ASI_digit_UP"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v2)); } } if (flap_config.getValue() == '1') { me["F_target"].hide(); me["clean_speed"].hide(); tgt_S = fmgc.FMGCInternal.slat; if (tgt_S <= 30) { me.Strgt = 0 - me.ASI; } else if (tgt_S >= 420) { me.Strgt = 390 - me.ASI; } else { me.Strgt = tgt_S - 30 - me.ASI; } me.SPDstrgtdiff = tgt_S - ind_spd; if (me.SPDstrgtdiff >= -42 and me.SPDstrgtdiff <= 42) { me["S_target"].show(); me["S_target"].setTranslation(0, me.Strgt * -6.6); } else { me["S_target"].hide(); } tgt_flap = 200; me.flaptrgt = tgt_flap - 30 - me.ASI; me.SPDflaptrgtdiff = tgt_flap - ind_spd; if (me.SPDflaptrgtdiff >= -42 and me.SPDflaptrgtdiff <= 42) { me["flap_max"].show(); me["flap_max"].setTranslation(0, me.flaptrgt * -6.6); } else { me["flap_max"].hide(); } } else if (flap_config.getValue() == '2') { me["S_target"].hide(); me["clean_speed"].hide(); tgt_F = fmgc.FMGCInternal.flap2; if (tgt_F <= 30) { me.Ftrgt = 0 - me.ASI; } else if (tgt_F >= 420) { me.Ftrgt = 390 - me.ASI; } else { me.Ftrgt = tgt_F - 30 - me.ASI; } me.SPDftrgtdiff = tgt_F - ind_spd; if (me.SPDftrgtdiff >= -42 and me.SPDftrgtdiff <= 42) { me["F_target"].show(); me["F_target"].setTranslation(0, me.Ftrgt * -6.6); } else { me["F_target"].hide(); } tgt_flap = 185; me.flaptrgt = tgt_flap - 30 - me.ASI; me.SPDflaptrgtdiff = tgt_flap - ind_spd; if (me.SPDflaptrgtdiff >= -42 and me.SPDflaptrgtdiff <= 42) { me["flap_max"].show(); me["flap_max"].setTranslation(0, me.flaptrgt * -6.6); } else { me["flap_max"].hide(); } } else if (flap_config.getValue() == '3') { me["S_target"].hide(); me["clean_speed"].hide(); tgt_F = fmgc.FMGCInternal.flap3; if (tgt_F <= 30) { me.Ftrgt = 0 - me.ASI; } else if (tgt_F >= 420) { me.Ftrgt = 390 - me.ASI; } else { me.Ftrgt = tgt_F - 30 - me.ASI; } me.SPDftrgtdiff = tgt_F - ind_spd; if (me.SPDftrgtdiff >= -42 and me.SPDftrgtdiff <= 42) { me["F_target"].show(); me["F_target"].setTranslation(0, me.Ftrgt * -6.6); } else { me["F_target"].hide(); } tgt_flap = 177; me.flaptrgt = tgt_flap - 30 - me.ASI; me.SPDflaptrgtdiff = tgt_flap - ind_spd; if (me.SPDflaptrgtdiff >= -42 and me.SPDflaptrgtdiff <= 42) { me["flap_max"].show(); me["flap_max"].setTranslation(0, me.flaptrgt * -6.6); } else { me["flap_max"].hide(); } } else if (flap_config.getValue() == '4') { me["S_target"].hide(); me["F_target"].hide(); me["clean_speed"].hide(); me["flap_max"].hide(); } else { me["S_target"].hide(); me["F_target"].hide(); tgt_clean = fmgc.FMGCInternal.clean; me.cleantrgt = tgt_clean - 30 - me.ASI; me.SPDcleantrgtdiff = tgt_clean - ind_spd; if (me.SPDcleantrgtdiff >= -42 and me.SPDcleantrgtdiff <= 42) { me["clean_speed"].show(); me["clean_speed"].setTranslation(0, me.cleantrgt * -6.6); } else { me["clean_speed"].hide(); } tgt_flap = 230; me.flaptrgt = tgt_flap - 30 - me.ASI; me.SPDflaptrgtdiff = tgt_flap - ind_spd; if (me.SPDflaptrgtdiff >= -42 and me.SPDflaptrgtdiff <= 42) { me["flap_max"].show(); me["flap_max"].setTranslation(0, me.flaptrgt * -6.6); } else { me["flap_max"].hide(); } } if (gear_agl.getValue() < 400) { me["S_target"].hide(); me["F_target"].hide(); } me.ASItrend = dmc.DMController.DMCs[0].outputs[6].getValue() - me.ASI; me["ASI_trend_up"].setTranslation(0, math.clamp(me.ASItrend, 0, 50) * -6.6); me["ASI_trend_down"].setTranslation(0, math.clamp(me.ASItrend, -50, 0) * -6.6); if (me.ASItrend >= 2) { me["ASI_trend_up"].show(); me["ASI_trend_down"].hide(); } else if (me.ASItrend <= -2) { me["ASI_trend_down"].show(); me["ASI_trend_up"].hide(); } else { me["ASI_trend_up"].hide(); me["ASI_trend_down"].hide(); } } else { me["ASI_group"].hide(); me["ASI_error"].show(); me["ASI_frame"].setColor(1,0,0); me["clean_speed"].hide(); me["S_target"].hide(); me["F_target"].hide(); me["flap_max"].hide(); me["v1_group"].hide(); me["v1_text"].hide(); me["vr_speed"].hide(); me["ground"].hide(); me["ground_ref"].hide(); me["VLS_min"].hide(); me["VLS_min"].hide(); me["ALPHA_PROT"].hide(); me["ALPHA_MAX"].hide(); me["ALPHA_SW"].hide(); } if (dmc.DMController.DMCs[0].outputs[2] != nil) { ind_mach = dmc.DMController.DMCs[0].outputs[2].getValue(); me["machError"].hide(); if (ind_mach >= 0.5) { me["ASI_mach_decimal"].show(); me["ASI_mach"].show(); } else { me["ASI_mach_decimal"].hide(); me["ASI_mach"].hide(); } if (ind_mach >= 0.999) { me["ASI_mach"].setText("999"); } else { me["ASI_mach"].setText(sprintf("%3.0f", ind_mach * 1000)); } } else { me["machError"].show(); } # Altitude if (dmc.DMController.DMCs[0].outputs[1] != nil) { me["ALT_error"].hide(); me["ALT_frame"].setColor(1,1,1); me["ALT_group"].show(); me["ALT_box"].show(); me["ALT_group2"].show(); me["ALT_scale"].show(); me.altitude = dmc.DMController.DMCs[0].outputs[1].getValue(); me.altOffset = me.altitude / 500 - int(me.altitude / 500); me.middleAltText = roundaboutAlt(me.altitude / 100); me.middleAltOffset = nil; if (me.altOffset > 0.5) { me.middleAltOffset = -(me.altOffset - 1) * 243.3424; } else { me.middleAltOffset = -me.altOffset * 243.3424; } me["ALT_scale"].setTranslation(0, -me.middleAltOffset); me["ALT_scale"].update(); me["ALT_five"].setText(sprintf("%03d", abs(me.middleAltText+10))); me["ALT_four"].setText(sprintf("%03d", abs(me.middleAltText+5))); me["ALT_three"].setText(sprintf("%03d", abs(me.middleAltText))); me["ALT_two"].setText(sprintf("%03d", abs(me.middleAltText-5))); me["ALT_one"].setText(sprintf("%03d", abs(me.middleAltText-10))); if (altitude.getValue() < 0) { altPolarity = "-"; } else { altPolarity = ""; } me["ALT_digits"].setText(sprintf("%s%d", altPolarity, dmc.DMController.DMCs[0].outputs[3].getValue())); altTens = num(right(sprintf("%02d", me.altitude), 2)); me["ALT_tens"].setTranslation(0, altTens * 1.392); ap_alt_cur = ap_alt.getValue(); alt_diff_cur = alt_diff.getValue(); if (alt_diff_cur >= -565 and alt_diff_cur <= 565) { me["ALT_target"].setTranslation(0, (alt_diff_cur / 100) * -48.66856); me["ALT_target_digit"].setText(sprintf("%03d", math.round(ap_alt_cur / 100))); me["ALT_digit_UP"].hide(); me["ALT_digit_DN"].hide(); me["ALT_target"].show(); } else if (alt_diff_cur < -565) { if (alt_std_mode.getValue() == 1) { if (ap_alt_cur < 10000) { me["ALT_digit_DN"].setText(sprintf("%s", "FL " ~ ap_alt_cur / 100)); } else { me["ALT_digit_DN"].setText(sprintf("%s", "FL " ~ ap_alt_cur / 100)); } } else { me["ALT_digit_DN"].setText(sprintf("%5.0f", ap_alt_cur)); } me["ALT_digit_DN"].show(); me["ALT_digit_UP"].hide(); me["ALT_target"].hide(); } else if (alt_diff_cur > 565) { if (alt_std_mode.getValue() == 1) { if (ap_alt_cur < 10000) { me["ALT_digit_UP"].setText(sprintf("%s", "FL " ~ ap_alt_cur / 100)); } else { me["ALT_digit_UP"].setText(sprintf("%s", "FL " ~ ap_alt_cur / 100)); } } else { me["ALT_digit_UP"].setText(sprintf("%5.0f", ap_alt_cur)); } me["ALT_digit_UP"].show(); me["ALT_digit_DN"].hide(); me["ALT_target"].hide(); } ground_diff_cur = ground_diff.getValue(); if (ground_diff_cur >= -565 and ground_diff_cur <= 565) { me["ground_ref"].setTranslation(0, (ground_diff_cur / 100) * -48.66856); me["ground_ref"].show(); } else { me["ground_ref"].hide(); } landing_diff_cur = landing_diff.getValue(); if (landing_diff_cur >= -565 and landing_diff_cur <= 565) { if ((fmgc.FMGCInternal.phase == 5 or fmgc.FMGCInternal.phase == 6) and !wow1.getValue() and !wow2.getValue()) { #add std too me["ground"].setTranslation(0, (landing_diff_cur / 100) * -48.66856); me["ground"].show(); } else { me["ground"].hide(); } } else { me["ground"].hide(); } if (!getprop("/ECAM/alt-alert-flash") and !getprop("/ECAM/alt-alert-steady")) { alt_going1 = 0; amber_going1 = 0; me["ALT_box_flash"].hide(); me["ALT_box_amber"].hide(); } else { if (getprop("/ECAM/alt-alert-flash")) { if (alt_going1 == 1) { me["ALT_box_flash"].hide(); altTimer1.stop(); } if (amber_going1 == 0) { amber_going1 = 1; } if (amber_going1 == 1) { me["ALT_box_amber"].show(); me["ALT_box"].hide(); amberTimer1.start(); } if (amberFlash1.getValue() == 1) { me["ALT_box_amber"].hide(); } else { me["ALT_box_amber"].show(); } } elsif (getprop("/ECAM/alt-alert-steady")) { if (amber_going1 == 1) { me["ALT_box"].show(); me["ALT_box_amber"].hide(); amberTimer1.stop(); } if (alt_going1 == 0) { alt_going1 = 1; } if (alt_going1 == 1) { me["ALT_box_flash"].show(); altTimer1.start(); } if (altFlash1.getValue() == 1) { me["ALT_box_flash"].show(); } else { me["ALT_box_flash"].hide(); } } } } else { me["ALT_error"].show(); me["ALT_frame"].setColor(1,0,0); me["ALT_group"].hide(); me["ALT_group2"].hide(); me["ALT_scale"].hide(); me["ALT_box_flash"].hide(); me["ALT_box_amber"].hide(); me["ALT_box"].hide(); } me.updateCommonFast(); }, }; var canvas_PFD_2 = { ASI: 0, ASImax: 0, ASItrend: 0, ASItrgt: 0, ASItrgtdiff: 0, V1trgt: 0, VRtrgt: 0, V2trgt: 0, Strgt: 0, Ftrgt: 0, flaptrgt: 0, cleantrgt: 0, SPDv1trgtdiff: 0, SPDvrtrgtdiff: 0, SPDv2trgtdiff: 0, SPDstrgtdiff: 0, SPDftrgtdiff: 0, SPDflaptrgtdiff: 0, SPDcleantrgtdiff: 0, FMGC_max: 0, new: func(canvas_group, file) { var m = {parents: [canvas_PFD_2, canvas_PFD_base]}; m.init(canvas_group, file); return m; }, update: func() { fd2_act = fd2.getValue(); pitch_mode_cur = pitch_mode.getValue(); roll_mode_cur = roll_mode.getValue(); pitch_cur = pitch.getValue(); roll_cur = roll.getValue(); wow1_act = wow1.getValue(); wow2_act = wow2.getValue(); # Errors if (systems.ADIRS.ADIRunits[1].aligned == 1 or (systems.ADIRS.ADIRunits[2].aligned == 1 and att_switch.getValue() == 1)) { me["AI_group"].show(); me["HDG_group"].show(); me["AI_error"].hide(); me["HDG_error"].hide(); me["HDG_frame"].setColor(1,1,1); me["VS_group"].show(); me["VS_error"].hide(); # VS is inertial-sourced } else { me["AI_error"].show(); me["HDG_error"].show(); me["HDG_frame"].setColor(1,0,0); me["AI_group"].hide(); me["HDG_group"].hide(); me["VS_error"].show(); me["VS_group"].hide(); } # FD if (fd2_act == 1 and ((!wow1_act and !wow2_act and roll_mode_cur != " ") or roll_mode_cur != " ") and ap_trk_sw.getValue() == 0 and pitch_cur < 25 and pitch_cur > -13 and roll_cur < 45 and roll_cur > -45) { me["FD_roll"].show(); } else { me["FD_roll"].hide(); } if (fd2_act == 1 and ((!wow1_act and !wow2_act and pitch_mode_cur != " ") or pitch_mode_cur != " ") and ap_trk_sw.getValue() == 0 and pitch_cur < 25 and pitch_cur > -13 and roll_cur < 45 and roll_cur > -45) { me["FD_pitch"].show(); } else { me["FD_pitch"].hide(); } # FPV # If TRK FPA selected on the FCU, display FPV on PFD2 if (ap_trk_sw.getValue() == 0 ) { me["FPV"].hide(); me.dimFixedAircraftOutline(0); } else { var aoa = me.getAOAForPFD2(); if (aoa == nil or (systems.ADIRS.ADIRunits[1].aligned != 1 and att_switch.getValue() == 0) or (systems.ADIRS.ADIRunits[2].aligned != 1 and att_switch.getValue() == 1)) { me["FPV"].hide(); me.dimFixedAircraftOutline(0); } else { var roll_deg = roll.getValue() or 0; var alpha_deg = aoa; var fpa_deg = pitch.getValue() - alpha_deg; AICenter = me["AI_center"].getCenter(); var track_x_translation = me.getTrackDiffPixels(track_diff); # Display FPV in red if FPA greater or less plus or minus 9.9 degrees # if (fpa_deg > 9.9) { # alpha_deg = alpha_deg + (fpa_deg - 9.9); # me["FPV"].setColor(1, 0, 0); # } else if (fpa_deg < -9.9) { # alpha_deg = alpha_deg + (fpa_deg + 9.9); # me["FPV"].setColor(1, 0, 0); # } else { # me["FPV"].setColor(0.066666667, 0.752941176, 0.294117647); # } me.AI_fpv_trans.setTranslation(track_x_translation, math.clamp(alpha_deg, -20, 20) * 12.5); me.AI_fpv_rot.setRotation(-roll_deg * D2R, AICenter); me["FPV"].setRotation(roll_deg * D2R); # It shouldn't be rotated, only the axis should be me["FPV"].show(); me.dimFixedAircraftOutline(1); } } # ILS if (ap_ils_mode2.getValue() == 1) { me["LOC_scale"].show(); me["GS_scale"].show(); split_ils = split("/", ils_data1.getValue()); if (size(split_ils) < 2) { me["ils_freq"].setText(split_ils[0]); me["ils_freq"].show(); me["ils_code"].hide(); me["dme_dist"].hide(); me["dme_dist_legend"].hide(); } else { me["ils_code"].setText(split_ils[0]); me["ils_freq"].setText(split_ils[1]); me["ils_code"].show(); me["ils_freq"].show(); } if (dme_in_range.getValue() == 1) { dme_dist_data = dme_data.getValue(); if (dme_dist_data < 20.0) { me["dme_dist"].setText(sprintf("%1.1f", dme_dist_data)); } else { me["dme_dist"].setText(sprintf("%2.0f", dme_dist_data)); } me["dme_dist"].show(); me["dme_dist_legend"].show(); } } else { me["LOC_scale"].hide(); me["GS_scale"].hide(); me["ils_code"].hide(); me["ils_freq"].hide(); me["dme_dist"].hide(); me["dme_dist_legend"].hide(); me["outerMarker"].hide(); me["middleMarker"].hide(); me["innerMarker"].hide(); } if (outer_marker.getValue() == 1) { me["outerMarker"].show(); me["middleMarker"].hide(); me["innerMarker"].hide(); } else if (middle_marker.getValue()) { me["middleMarker"].show(); me["outerMarker"].hide(); me["innerMarker"].hide(); } else if (inner_marker.getValue()) { me["innerMarker"].show(); me["outerMarker"].hide(); me["middleMarker"].hide(); } else { me["outerMarker"].hide(); me["middleMarker"].hide(); me["innerMarker"].hide(); } if (ap_ils_mode2.getValue() == 1 and loc_in_range.getValue() == 1 and hasloc.getValue() == 1 and nav0_signalq.getValue() > 0.99) { me["LOC_pointer"].show(); } else { me["LOC_pointer"].hide(); } if (ap_ils_mode2.getValue() == 1 and gs_in_range.getValue() == 1 and hasgs.getValue() == 1 and nav0_signalq.getValue() > 0.99) { me["GS_pointer"].show(); } else { me["GS_pointer"].hide(); } if (ap_ils_mode2.getValue() == 0 and (appr_enabled.getValue() == 1 or loc_enabled.getValue() == 1 or vert_gs.getValue() == 2)) { if (ils_going2 == 0) { ils_going2 = 1; } if (ils_going2 == 1) { ilsTimer2.start(); if (ilsFlash2.getValue() == 1) { me["ilsError"].show(); } else { me["ilsError"].hide(); } } } else { ilsTimer2.stop(); ils_going2 = 0; me["ilsError"].hide(); } me.updateCommon(); }, updateFast: func() { # Airspeed # ind_spd = ind_spd_kt.getValue(); # Subtract 30, since the scale starts at 30, but don"t allow less than 0, or more than 420 situations if (dmc.DMController.DMCs[1].outputs[0] != nil) { ind_spd = dmc.DMController.DMCs[1].outputs[0].getValue(); me["ASI_error"].hide(); me["ASI_frame"].setColor(1,1,1); me["ASI_group"].show(); me["VLS_min"].hide(); me["ALPHA_PROT"].hide(); me["ALPHA_MAX"].hide(); me["ALPHA_SW"].hide(); if (ind_spd <= 30) { me.ASI = 0; } else if (ind_spd >= 420) { me.ASI = 390; } else { me.ASI = ind_spd - 30; } me.FMGC_max = fmgc.FMGCInternal.maxspeed; if (me.FMGC_max <= 30) { me.ASImax = 0 - me.ASI; } else if (me.FMGC_max >= 420) { me.ASImax = 390 - me.ASI; } else { me.ASImax = me.FMGC_max - 30 - me.ASI; } me["ASI_scale"].setTranslation(0, me.ASI * 6.6); me["ASI_max"].setTranslation(0, me.ASImax * -6.6); if (!fmgc.FMGCInternal.takeoffState and fmgc.FMGCInternal.phase >= 1 and !wow1.getValue() and !wow2.getValue()) { me.FMGC_vls = fmgc.FMGCInternal.vls_min; if (me.FMGC_vls <= 30) { me.VLSmin = 0 - me.ASI; } else if (me.FMGC_vls >= 420) { me.VLSmin = 390 - me.ASI; } else { me.VLSmin = me.FMGC_vls - 30 - me.ASI; } me.FMGC_prot = fmgc.FMGCInternal.alpha_prot; if (me.FMGC_prot <= 30) { me.ALPHAprot = 0 - me.ASI; } else if (me.FMGC_prot >= 420) { me.ALPHAprot = 390 - me.ASI; } else { me.ALPHAprot = me.FMGC_prot - 30 - me.ASI; } me.FMGC_max = fmgc.FMGCInternal.alpha_max; if (me.FMGC_max <= 30) { me.ALPHAmax = 0 - me.ASI; } else if (me.FMGC_max >= 420) { me.ALPHAmax = 390 - me.ASI; } else { me.ALPHAmax = me.FMGC_max - 30 - me.ASI; } me.FMGC_vsw = fmgc.FMGCInternal.vsw; if (me.FMGC_vsw <= 30) { me.ALPHAvsw = 0 - me.ASI; } else if (me.FMGC_vsw >= 420) { me.ALPHAvsw = 390 - me.ASI; } else { me.ALPHAvsw = me.FMGC_vsw - 30 - me.ASI; } me["VLS_min"].setTranslation(0, me.VLSmin * -6.6); me["VLS_min"].show(); me["ALPHA_PROT"].setTranslation(0, me.ALPHAprot * -6.6); me["ALPHA_MAX"].setTranslation(0, me.ALPHAmax * -6.6); me["ALPHA_SW"].setTranslation(0, me.ALPHAvsw * -6.6); if (getprop("/it-fbw/law") == 0) { me["ALPHA_PROT"].show(); me["ALPHA_MAX"].show(); me["ALPHA_SW"].hide(); } else { me["ALPHA_PROT"].hide(); me["ALPHA_MAX"].hide(); me["ALPHA_SW"].show(); } } tgt_ias = at_tgt_ias.getValue(); tgt_mach = at_input_spd_mach.getValue(); tgt_kts = at_input_spd_kts.getValue(); if (managed_spd.getValue() == 1) { if (getprop("/FMGC/internal/decel") == 1) { if (getprop("/FMGC/internal/vapp-speed-set")) { vapp = fmgc.FMGCInternal.vapp_appr; } else { vapp = fmgc.FMGCInternal.vapp; } tgt_ias = vapp; tgt_kts = vapp; } else if (fmgc.FMGCInternal.phase == 6) { clean = fmgc.FMGCInternal.clean; tgt_ias = clean; tgt_kts = clean; } me["ASI_target"].setColor(0.6901,0.3333,0.7450); me["ASI_digit_UP"].setColor(0.6901,0.3333,0.7450); me["ASI_decimal_UP"].setColor(0.6901,0.3333,0.7450); me["ASI_digit_DN"].setColor(0.6901,0.3333,0.7450); me["ASI_decimal_DN"].setColor(0.6901,0.3333,0.7450); } else { me["ASI_target"].setColor(0.0901,0.6039,0.7176); me["ASI_digit_UP"].setColor(0.0901,0.6039,0.7176); me["ASI_decimal_UP"].setColor(0.0901,0.6039,0.7176); me["ASI_digit_DN"].setColor(0.0901,0.6039,0.7176); me["ASI_decimal_DN"].setColor(0.0901,0.6039,0.7176); } tgt_ias = at_tgt_ias.getValue(); if (tgt_ias <= 30) { me.ASItrgt = 0 - me.ASI; } else if (tgt_ias >= 420) { me.ASItrgt = 390 - me.ASI; } else { me.ASItrgt = tgt_ias - 30 - me.ASI; } me.ASItrgtdiff = tgt_ias - ind_spd; if (me.ASItrgtdiff >= -42 and me.ASItrgtdiff <= 42) { me["ASI_target"].setTranslation(0, me.ASItrgt * -6.6); me["ASI_digit_UP"].hide(); me["ASI_decimal_UP"].hide(); me["ASI_digit_DN"].hide(); me["ASI_decimal_DN"].hide(); me["ASI_target"].show(); } else if (me.ASItrgtdiff < -42) { if (at_mach_mode.getValue() == 1) { me["ASI_digit_DN"].setText(sprintf("%3.0f", tgt_mach * 1000)); me["ASI_decimal_UP"].hide(); me["ASI_decimal_DN"].show(); } else { me["ASI_digit_DN"].setText(sprintf("%3.0f", tgt_kts)); me["ASI_decimal_UP"].hide(); me["ASI_decimal_DN"].hide(); } me["ASI_digit_DN"].show(); me["ASI_digit_UP"].hide(); me["ASI_target"].hide(); } else if (me.ASItrgtdiff > 42) { if (at_mach_mode.getValue() == 1) { me["ASI_digit_UP"].setText(sprintf("%3.0f", tgt_mach * 1000)); me["ASI_decimal_UP"].show(); me["ASI_decimal_DN"].hide(); } else { me["ASI_digit_UP"].setText(sprintf("%3.0f", tgt_kts)); me["ASI_decimal_UP"].hide(); me["ASI_decimal_DN"].hide(); } me["ASI_digit_UP"].show(); me["ASI_digit_DN"].hide(); me["ASI_target"].hide(); } if (fmgc.FMGCInternal.v1set) { tgt_v1 = fmgc.FMGCInternal.v1; if (tgt_v1 <= 30) { me.V1trgt = 0 - me.ASI; } else if (tgt_v1 >= 420) { me.V1trgt = 390 - me.ASI; } else { me.V1trgt = tgt_v1 - 30 - me.ASI; } me.SPDv1trgtdiff = tgt_v1 - ind_spd; if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2 and me.SPDv1trgtdiff >= -42 and me.SPDv1trgtdiff <= 42) { me["v1_group"].show(); me["v1_text"].hide(); me["v1_group"].setTranslation(0, me.V1trgt * -6.6); } else if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2) { me["v1_group"].hide(); me["v1_text"].show(); me["v1_text"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v1)); } else { me["v1_group"].hide(); me["v1_text"].hide(); } } else { me["v1_group"].hide(); me["v1_text"].hide(); } if (fmgc.FMGCInternal.vrset) { tgt_vr = fmgc.FMGCInternal.vr; if (tgt_vr <= 30) { me.VRtrgt = 0 - me.ASI; } else if (tgt_vr >= 420) { me.VRtrgt = 390 - me.ASI; } else { me.VRtrgt = tgt_vr - 30 - me.ASI; } me.SPDvrtrgtdiff = tgt_vr - ind_spd; if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2 and me.SPDvrtrgtdiff >= -42 and me.SPDvrtrgtdiff <= 42) { me["vr_speed"].show(); me["vr_speed"].setTranslation(0, me.VRtrgt * -6.6); } else { me["vr_speed"].hide(); } } else { me["vr_speed"].hide(); } if (fmgc.FMGCInternal.v2set) { tgt_v2 = fmgc.FMGCInternal.v2; if (tgt_v2 <= 30) { me.V2trgt = 0 - me.ASI; } else if (tgt_v2 >= 420) { me.V2trgt = 390 - me.ASI; } else { me.V2trgt = tgt_v2 - 30 - me.ASI; } me.SPDv2trgtdiff = tgt_v2 - ind_spd; if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2 and me.SPDv2trgtdiff >= -42 and me.SPDv2trgtdiff <= 42) { me["ASI_target"].show(); me["ASI_target"].setTranslation(0, me.V2trgt * -6.6); me["ASI_digit_UP"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v2)); } else if (pts.Position.gearAglFt.getValue() < 55 and fmgc.FMGCInternal.phase <= 2) { me["ASI_target"].hide(); me["ASI_digit_UP"].setText(sprintf("%3.0f", fmgc.FMGCInternal.v2)); } } if (flap_config.getValue() == '1') { me["F_target"].hide(); me["clean_speed"].hide(); tgt_S = tgt_S = fmgc.FMGCInternal.slat; if (tgt_S <= 30) { me.Strgt = 0 - me.ASI; } else if (tgt_S >= 420) { me.Strgt = 390 - me.ASI; } else { me.Strgt = tgt_S - 30 - me.ASI; } me.SPDstrgtdiff = tgt_S - ind_spd; if (me.SPDstrgtdiff >= -42 and me.SPDstrgtdiff <= 42) { me["S_target"].show(); me["S_target"].setTranslation(0, me.Strgt * -6.6); } else { me["S_target"].hide(); } tgt_flap = 200; me.flaptrgt = tgt_flap - 30 - me.ASI; me.SPDflaptrgtdiff = tgt_flap - ind_spd; if (me.SPDflaptrgtdiff >= -42 and me.SPDflaptrgtdiff <= 42) { me["flap_max"].show(); me["flap_max"].setTranslation(0, me.flaptrgt * -6.6); } else { me["flap_max"].hide(); } } else if (flap_config.getValue() == '2') { me["S_target"].hide(); me["clean_speed"].hide(); tgt_F = tgt_S = fmgc.FMGCInternal.flap2; if (tgt_F <= 30) { me.Ftrgt = 0 - me.ASI; } else if (tgt_F >= 420) { me.Ftrgt = 390 - me.ASI; } else { me.Ftrgt = tgt_F - 30 - me.ASI; } me.SPDftrgtdiff = tgt_F - ind_spd; if (me.SPDftrgtdiff >= -42 and me.SPDftrgtdiff <= 42) { me["F_target"].show(); me["F_target"].setTranslation(0, me.Ftrgt * -6.6); } else { me["F_target"].hide(); } tgt_flap = 185; me.flaptrgt = tgt_flap - 30 - me.ASI; me.SPDflaptrgtdiff = tgt_flap - ind_spd; if (me.SPDflaptrgtdiff >= -42 and me.SPDflaptrgtdiff <= 42) { me["flap_max"].show(); me["flap_max"].setTranslation(0, me.flaptrgt * -6.6); } else { me["flap_max"].hide(); } } else if (flap_config.getValue() == '3') { me["S_target"].hide(); me["clean_speed"].hide(); tgt_F = tgt_S = fmgc.FMGCInternal.flap3; if (tgt_F <= 30) { me.Ftrgt = 0 - me.ASI; } else if (tgt_F >= 420) { me.Ftrgt = 390 - me.ASI; } else { me.Ftrgt = tgt_F - 30 - me.ASI; } me.SPDftrgtdiff = tgt_F - ind_spd; if (me.SPDftrgtdiff >= -42 and me.SPDftrgtdiff <= 42) { me["F_target"].show(); me["F_target"].setTranslation(0, me.Ftrgt * -6.6); } else { me["F_target"].hide(); } tgt_flap = 177; me.flaptrgt = tgt_flap - 30 - me.ASI; me.SPDflaptrgtdiff = tgt_flap - ind_spd; if (me.SPDflaptrgtdiff >= -42 and me.SPDflaptrgtdiff <= 42) { me["flap_max"].show(); me["flap_max"].setTranslation(0, me.flaptrgt * -6.6); } else { me["flap_max"].hide(); } } else if (flap_config.getValue() == '4') { me["S_target"].hide(); me["F_target"].hide(); me["clean_speed"].hide(); me["flap_max"].hide(); } else { me["S_target"].hide(); me["F_target"].hide(); tgt_clean = tgt_S = fmgc.FMGCInternal.clean; me.cleantrgt = tgt_clean - 30 - me.ASI; me.SPDcleantrgtdiff = tgt_clean - ind_spd; if (me.SPDcleantrgtdiff >= -42 and me.SPDcleantrgtdiff <= 42) { me["clean_speed"].show(); me["clean_speed"].setTranslation(0, me.cleantrgt * -6.6); } else { me["clean_speed"].hide(); } tgt_flap = 230; me.flaptrgt = tgt_flap - 30 - me.ASI; me.SPDflaptrgtdiff = tgt_flap - ind_spd; if (me.SPDflaptrgtdiff >= -42 and me.SPDflaptrgtdiff <= 42) { me["flap_max"].show(); me["flap_max"].setTranslation(0, me.flaptrgt * -6.6); } else { me["flap_max"].hide(); } } if (gear_agl.getValue() < 400) { me["S_target"].hide(); me["F_target"].hide(); } me.ASItrend = dmc.DMController.DMCs[1].outputs[6].getValue() - me.ASI; me["ASI_trend_up"].setTranslation(0, math.clamp(me.ASItrend, 0, 50) * -6.6); me["ASI_trend_down"].setTranslation(0, math.clamp(me.ASItrend, -50, 0) * -6.6); if (me.ASItrend >= 2) { me["ASI_trend_up"].show(); me["ASI_trend_down"].hide(); } else if (me.ASItrend <= -2) { me["ASI_trend_down"].show(); me["ASI_trend_up"].hide(); } else { me["ASI_trend_up"].hide(); me["ASI_trend_down"].hide(); } } else { me["ASI_error"].show(); me["ASI_group"].hide(); me["ASI_frame"].setColor(1,0,0); me["clean_speed"].hide(); me["S_target"].hide(); me["F_target"].hide(); me["flap_max"].hide(); me["v1_group"].hide(); me["v1_text"].hide(); me["vr_speed"].hide(); me["ground"].hide(); me["ground_ref"].hide(); me["VLS_min"].hide(); me["VLS_min"].hide(); me["ALPHA_PROT"].hide(); me["ALPHA_MAX"].hide(); me["ALPHA_SW"].hide(); } if (dmc.DMController.DMCs[1].outputs[2] != nil) { ind_mach = dmc.DMController.DMCs[1].outputs[2].getValue(); me["machError"].hide(); if (ind_mach >= 0.5) { me["ASI_mach_decimal"].show(); me["ASI_mach"].show(); } else { me["ASI_mach_decimal"].hide(); me["ASI_mach"].hide(); } if (ind_mach >= 0.999) { me["ASI_mach"].setText("999"); } else { me["ASI_mach"].setText(sprintf("%3.0f", ind_mach * 1000)); } } else { me["machError"].show(); } if (dmc.DMController.DMCs[0].outputs[1] != nil) { me["ALT_error"].hide(); me["ALT_frame"].setColor(1,1,1); me["ALT_group"].show(); me["ALT_box"].show(); me["ALT_group2"].show(); me["ALT_scale"].show(); me.altitude = dmc.DMController.DMCs[0].outputs[1].getValue(); me.altOffset = me.altitude / 500 - int(me.altitude / 500); me.middleAltText = roundaboutAlt(me.altitude / 100); me.middleAltOffset = nil; if (me.altOffset > 0.5) { me.middleAltOffset = -(me.altOffset - 1) * 243.3424; } else { me.middleAltOffset = -me.altOffset * 243.3424; } me["ALT_scale"].setTranslation(0, -me.middleAltOffset); me["ALT_scale"].update(); me["ALT_five"].setText(sprintf("%03d", abs(me.middleAltText+10))); me["ALT_four"].setText(sprintf("%03d", abs(me.middleAltText+5))); me["ALT_three"].setText(sprintf("%03d", abs(me.middleAltText))); me["ALT_two"].setText(sprintf("%03d", abs(me.middleAltText-5))); me["ALT_one"].setText(sprintf("%03d", abs(me.middleAltText-10))); if (altitude.getValue() < 0) { altPolarity = "-"; } else { altPolarity = ""; } me["ALT_digits"].setText(sprintf("%s%d", altPolarity, dmc.DMController.DMCs[0].outputs[3].getValue())); altTens = num(right(sprintf("%02d", me.altitude), 2)); me["ALT_tens"].setTranslation(0, altTens * 1.392); ap_alt_cur = ap_alt.getValue(); alt_diff_cur = alt_diff.getValue(); if (alt_diff_cur >= -565 and alt_diff_cur <= 565) { me["ALT_target"].setTranslation(0, (alt_diff_cur / 100) * -48.66856); me["ALT_target_digit"].setText(sprintf("%03d", math.round(ap_alt_cur / 100))); me["ALT_digit_UP"].hide(); me["ALT_digit_DN"].hide(); me["ALT_target"].show(); } else if (alt_diff_cur < -565) { if (alt_std_mode.getValue() == 1) { if (ap_alt_cur < 10000) { me["ALT_digit_DN"].setText(sprintf("%s", "FL " ~ ap_alt_cur / 100)); } else { me["ALT_digit_DN"].setText(sprintf("%s", "FL " ~ ap_alt_cur / 100)); } } else { me["ALT_digit_DN"].setText(sprintf("%5.0f", ap_alt_cur)); } me["ALT_digit_DN"].show(); me["ALT_digit_UP"].hide(); me["ALT_target"].hide(); } else if (alt_diff_cur > 565) { if (alt_std_mode.getValue() == 1) { if (ap_alt_cur < 10000) { me["ALT_digit_UP"].setText(sprintf("%s", "FL " ~ ap_alt_cur / 100)); } else { me["ALT_digit_UP"].setText(sprintf("%s", "FL " ~ ap_alt_cur / 100)); } } else { me["ALT_digit_UP"].setText(sprintf("%5.0f", ap_alt_cur)); } me["ALT_digit_UP"].show(); me["ALT_digit_DN"].hide(); me["ALT_target"].hide(); } ground_diff_cur = ground_diff.getValue(); if (ground_diff_cur >= -565 and ground_diff_cur <= 565) { me["ground_ref"].setTranslation(0, (ground_diff_cur / 100) * -48.66856); me["ground_ref"].show(); } else { me["ground_ref"].hide(); } landing_diff_cur = landing_diff.getValue(); if (landing_diff_cur >= -565 and landing_diff_cur <= 565) { if ((fmgc.FMGCInternal.phase == 5 or fmgc.FMGCInternal.phase == 6) and !wow1.getValue() and !wow2.getValue()) { #add std too me["ground"].setTranslation(0, (landing_diff_cur / 100) * -48.66856); me["ground"].show(); } else { me["ground"].hide(); } } else { me["ground"].hide(); } if (!getprop("/ECAM/alt-alert-flash") and !getprop("/ECAM/alt-alert-steady")) { alt_going2 = 0; amber_going2 = 0; me["ALT_box_flash"].hide(); me["ALT_box_amber"].hide(); } else { if (getprop("/ECAM/alt-alert-flash")) { if (alt_going2 == 1) { me["ALT_box_flash"].hide(); altTimer2.stop(); } if (amber_going2 == 0) { amber_going2 = 1; } if (amber_going2 == 1) { me["ALT_box_amber"].show(); me["ALT_box"].hide(); amberTimer2.start(); } if (amberFlash2.getValue() == 1) { me["ALT_box_amber"].show(); } else { me["ALT_box_amber"].hide(); } } elsif (getprop("/ECAM/alt-alert-steady")) { if (amber_going2 == 1) { me["ALT_box"].show(); me["ALT_box_amber"].hide(); amberTimer2.stop(); } if (alt_going2 == 0) { alt_going2 = 1; } if (alt_going2 == 1) { me["ALT_box_flash"].show(); altTimer2.start(); } if (altFlash2.getValue() == 1) { me["ALT_box_flash"].show(); } else { me["ALT_box_flash"].hide(); } } } } else { me["ALT_error"].show(); me["ALT_frame"].setColor(1,0,0); me["ALT_group"].hide(); me["ALT_group2"].hide(); me["ALT_scale"].hide(); me["ALT_box_flash"].hide(); me["ALT_box_amber"].hide(); me["ALT_box"].hide(); } me.updateCommonFast(); }, }; var canvas_PFD_1_test = { init: func(canvas_group, file) { var font_mapper = func(family, weight) { return "LiberationFonts/LiberationSans-Regular.ttf"; }; canvas.parsesvg(canvas_group, file, {"font-mapper": font_mapper}); var svg_keys = me.getKeys(); foreach(var key; svg_keys) { me[key] = canvas_group.getElementById(key); } me.page = canvas_group; return me; }, new: func(canvas_group, file) { var m = {parents: [canvas_PFD_1_test]}; m.init(canvas_group, file); return m; }, getKeys: func() { return ["Test_white","Test_text"]; }, update: func() { et = elapsedtime.getValue() or 0; if ((du1_test_time.getValue() + 1 >= et) and cpt_du_xfr.getValue() != 1) { me["Test_white"].show(); me["Test_text"].hide(); } else if ((du2_test_time.getValue() + 1 >= et) and cpt_du_xfr.getValue() != 0) { me["Test_white"].show(); me["Test_text"].hide(); } else { me["Test_white"].hide(); me["Test_text"].show(); } }, }; var canvas_PFD_2_test = { init: func(canvas_group, file) { var font_mapper = func(family, weight) { return "LiberationFonts/LiberationSans-Regular.ttf"; }; canvas.parsesvg(canvas_group, file, {"font-mapper": font_mapper}); var svg_keys = me.getKeys(); foreach(var key; svg_keys) { me[key] = canvas_group.getElementById(key); } me.page = canvas_group; return me; }, new: func(canvas_group, file) { var m = {parents: [canvas_PFD_2_test]}; m.init(canvas_group, file); return m; }, getKeys: func() { return ["Test_white","Test_text"]; }, update: func() { et = elapsedtime.getValue() or 0; if ((du6_test_time.getValue() + 1 >= et) and fo_du_xfr.getValue() != 1) { me["Test_white"].show(); me["Test_text"].hide(); } else if ((du5_test_time.getValue() + 1 >= et) and fo_du_xfr.getValue() != 0) { me["Test_white"].show(); me["Test_text"].hide(); } else { me["Test_white"].hide(); me["Test_text"].show(); } }, }; var canvas_PFD_1_mismatch = { init: func(canvas_group, file) { var font_mapper = func(family, weight) { return "LiberationFonts/LiberationSans-Regular.ttf"; }; canvas.parsesvg(canvas_group, file, {"font-mapper": font_mapper}); var svg_keys = me.getKeys(); foreach(var key; svg_keys) { me[key] = canvas_group.getElementById(key); } me.page = canvas_group; return me; }, new: func(canvas_group, file) { var m = {parents: [canvas_PFD_1_mismatch]}; m.init(canvas_group, file); return m; }, getKeys: func() { return ["ERRCODE"]; }, update: func() { me["ERRCODE"].setText(acconfig_mismatch.getValue()); }, }; var canvas_PFD_2_mismatch = { init: func(canvas_group, file) { var font_mapper = func(family, weight) { return "LiberationFonts/LiberationSans-Regular.ttf"; }; canvas.parsesvg(canvas_group, file, {"font-mapper": font_mapper}); var svg_keys = me.getKeys(); foreach(var key; svg_keys) { me[key] = canvas_group.getElementById(key); } me.page = canvas_group; return me; }, new: func(canvas_group, file) { var m = {parents: [canvas_PFD_2_mismatch]}; m.init(canvas_group, file); return m; }, getKeys: func() { return ["ERRCODE"]; }, update: func() { me["ERRCODE"].setText(acconfig_mismatch.getValue()); }, }; setlistener("sim/signals/fdm-initialized", func { PFD1_display = canvas.new({ "name": "PFD1", "size": [1024, 1024], "view": [1024, 1024], "mipmapping": 1 }); PFD2_display = canvas.new({ "name": "PFD2", "size": [1024, 1024], "view": [1024, 1024], "mipmapping": 1 }); PFD1_display.addPlacement({"node": "pfd1.screen"}); PFD2_display.addPlacement({"node": "pfd2.screen"}); var group_pfd1 = PFD1_display.createGroup(); var group_pfd1_test = PFD1_display.createGroup(); var group_pfd1_mismatch = PFD1_display.createGroup(); var group_pfd2 = PFD2_display.createGroup(); var group_pfd2_test = PFD2_display.createGroup(); var group_pfd2_mismatch = PFD2_display.createGroup(); PFD_1 = canvas_PFD_1.new(group_pfd1, "Aircraft/A320-family/Models/Instruments/PFD/res/pfd.svg"); PFD_1_test = canvas_PFD_1_test.new(group_pfd1_test, "Aircraft/A320-family/Models/Instruments/Common/res/du-test.svg"); PFD_1_mismatch = canvas_PFD_1_mismatch.new(group_pfd1_mismatch, "Aircraft/A320-family/Models/Instruments/Common/res/mismatch.svg"); PFD_2 = canvas_PFD_2.new(group_pfd2, "Aircraft/A320-family/Models/Instruments/PFD/res/pfd.svg"); PFD_2_test = canvas_PFD_2_test.new(group_pfd2_test, "Aircraft/A320-family/Models/Instruments/Common/res/du-test.svg"); PFD_2_mismatch = canvas_PFD_2_mismatch.new(group_pfd2_mismatch, "Aircraft/A320-family/Models/Instruments/Common/res/mismatch.svg"); PFD_update.start(); PFD_update_fast.start(); if (pfdrate.getValue() == 1) { rateApply(); } }); var rateApply = func { PFD_update.restart(0.15 * pfdrate.getValue()); PFD_update_fast.restart(0.05 * pfdrate.getValue()); } var PFD_update = maketimer(0.15, func { canvas_PFD_base.updateSlow(); }); var PFD_update_fast = maketimer(0.05, func { canvas_PFD_base.update(); }); var showPFD1 = func { var dlg = canvas.Window.new([512, 512], "dialog").set("resize", 1); dlg.setCanvas(PFD1_display); } var showPFD2 = func { var dlg = canvas.Window.new([512, 512], "dialog").set("resize", 1); dlg.setCanvas(PFD2_display); } var roundabout = func(x) { var y = x - int(x); return y < 0.5 ? int(x) : 1 + int(x); }; var roundaboutAlt = func(x) { var y = x * 0.2 - int(x * 0.2); return y < 0.5 ? 5 * int(x * 0.2) : 5 + 5 * int(x * 0.2); }; var fontSizeHDG = func(input) { var test = input / 3; if (test == int(test)) { return 42; } else { return 32; } }; setlistener("/systems/electrical/bus/ac-ess", func() { canvas_PFD_base.updateDu1(); }, 0, 0); setlistener("/systems/electrical/bus/ac-2", func() { canvas_PFD_base.updateDu6(); }, 0, 0); # Flash managers var ils_going1 = 0; var ilsTimer1 = maketimer(0.50, func { if (!ilsFlash1.getBoolValue()) { ilsFlash1.setBoolValue(1); } else { ilsFlash1.setBoolValue(0); } }); var ils_going2 = 0; var ilsTimer2 = maketimer(0.50, func { if (!ilsFlash2.getBoolValue()) { ilsFlash2.setBoolValue(1); } else { ilsFlash2.setBoolValue(0); } }); var qnh_going = 0; var qnhTimer = maketimer(0.50, func { if (!qnhFlash.getBoolValue()) { qnhFlash.setBoolValue(1); } else { qnhFlash.setBoolValue(0); } }); var alt_going1 = 0; var altTimer1 = maketimer(0.50, func { if (!altFlash1.getBoolValue()) { altFlash1.setBoolValue(1); } else { altFlash1.setBoolValue(0); } }); var alt_going2 = 0; var altTimer2 = maketimer(0.50, func { if (!altFlash2.getBoolValue()) { altFlash2.setBoolValue(1); } else { altFlash2.setBoolValue(0); } }); var amber_going1 = 0; var amberTimer1 = maketimer(0.50, func { if (!amberFlash1.getBoolValue()) { amberFlash1.setBoolValue(1); } else { amberFlash1.setBoolValue(0); } }); var amber_going2 = 0; var amberTimer2 = maketimer(0.50, func { if (!amberFlash2.getBoolValue()) { amberFlash2.setBoolValue(1); } else { amberFlash2.setBoolValue(0); } }); var dh_going = 0; var dh_count = 0; var dhTimer = maketimer(0.50, func { if (!dhFlash.getBoolValue()) { dhFlash.setBoolValue(1); } else { dhFlash.setBoolValue(0); } if (dh_count == 18) { dh_count = 0; } else { dh_count = dh_count + 1; } });