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maszyna/Globals.cpp

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/*
This Source Code Form is subject to the
terms of the Mozilla Public License, v.
2.0. If a copy of the MPL was not
distributed with this file, You can
obtain one at
http://mozilla.org/MPL/2.0/.
*/
/*
MaSzyna EU07 locomotive simulator
Copyright (C) 2001-2004 Marcin Wozniak, Maciej Czapkiewicz and others
*/
#include "stdafx.h"
#include "Globals.h"
#include "simulation.h"
#include "simulationenvironment.h"
#include "Driver.h"
#include "Logs.h"
#include "Console.h"
#include "PyInt.h"
#include "Timer.h"
global_settings Global;
void
global_settings::LoadIniFile(std::string asFileName) {
// initialize season data in case the main config file doesn't
std::time_t timenow = std::time( 0 );
std::tm *localtime = std::localtime( &timenow );
fMoveLight = localtime->tm_yday + 1; // numer bieżącego dnia w roku
simulation::Environment.compute_season( fMoveLight );
cParser parser(asFileName, cParser::buffer_FILE);
ConfigParse(parser);
};
void
global_settings::ConfigParse(cParser &Parser) {
std::string token;
do
{
token = "";
Parser.getTokens();
Parser >> token;
if (token == "sceneryfile")
{
Parser.getTokens();
Parser >> SceneryFile;
}
else if (token == "humanctrlvehicle")
{
Parser.getTokens();
Parser >> local_start_vehicle;
}
else if( token == "fieldofview" ) {
Parser.getTokens( 1, false );
Parser >> FieldOfView;
// guard against incorrect values
FieldOfView = clamp( FieldOfView, 10.0f, 75.0f );
}
else if (token == "width")
{
Parser.getTokens(1, false);
Parser >> iWindowWidth;
}
else if (token == "height")
{
Parser.getTokens(1, false);
Parser >> iWindowHeight;
}
else if (token == "heightbase")
{
Parser.getTokens(1, false);
Parser >> fDistanceFactor;
fDistanceFactor = clamp( fDistanceFactor, 250.f, 10000.f ); // arbitrary limits to keep users from hurting themselves
}
else if (token == "targetfps")
{
Parser.getTokens(1, false);
Parser >> targetfps;
}
else if (token == "basedrawrange")
{
Parser.getTokens(1);
Parser >> BaseDrawRange;
}
else if (token == "fullscreen")
{
Parser.getTokens();
Parser >> bFullScreen;
}
else if (token == "fullscreenmonitor")
{
Parser.getTokens(1, false);
Parser >> fullscreen_monitor;
}
else if( token == "vsync" ) {
Parser.getTokens();
Parser >> VSync;
}
else if (token == "freefly")
{ // Mczapkie-130302
Parser.getTokens();
Parser >> FreeFlyModeFlag;
Parser.getTokens(3, false);
Parser >>
FreeCameraInit[0].x,
FreeCameraInit[0].y,
FreeCameraInit[0].z;
}
else if (token == "wireframe")
{
Parser.getTokens();
Parser >> bWireFrame;
}
else if (token == "debugmode")
{ // McZapkie! - DebugModeFlag uzywana w mover.pas,
// warto tez blokowac cheaty gdy false
Parser.getTokens();
Parser >> DebugModeFlag;
}
else if (token == "soundenabled")
{ // McZapkie-040302 - blokada dzwieku - przyda
// sie do debugowania oraz na komp. bez karty
// dzw.
Parser.getTokens();
Parser >> bSoundEnabled;
}
else if( token == "sound.openal.renderer" ) {
// selected device for audio renderer
AudioRenderer = Parser.getToken<std::string>( false ); // case-sensitive
}
else if( token == "sound.volume" ) {
// selected device for audio renderer
Parser.getTokens();
Parser >> AudioVolume;
AudioVolume = clamp( AudioVolume, 0.f, 2.f );
}
else if( token == "sound.volume.radio" ) {
// selected device for audio renderer
Parser.getTokens();
Parser >> RadioVolume;
RadioVolume = clamp( RadioVolume, 0.f, 1.f );
}
// else if (str==AnsiString("renderalpha")) //McZapkie-1312302 - dwuprzebiegowe renderowanie
// bRenderAlpha=(GetNextSymbol().LowerCase()==AnsiString("yes"));
else if (token == "physicslog")
{ // McZapkie-030402 - logowanie parametrow
// fizycznych dla kazdego pojazdu z maszynista
Parser.getTokens();
Parser >> WriteLogFlag;
}
else if (token == "fullphysics")
{ // McZapkie-291103 - usypianie fizyki
Parser.getTokens();
Parser >> FullPhysics;
}
else if (token == "debuglog")
{
// McZapkie-300402 - wylaczanie log.txt
Parser.getTokens();
Parser >> token;
if (token == "yes")
{
iWriteLogEnabled = 3;
}
else if (token == "no")
{
iWriteLogEnabled = 0;
}
else
{
iWriteLogEnabled = stol_def(token,3);
}
}
else if( token == "multiplelogs" ) {
Parser.getTokens();
Parser >> MultipleLogs;
}
else if( token == "logs.filter" ) {
Parser.getTokens();
Parser >> DisabledLogTypes;
}
else if (token == "mousescale")
{
// McZapkie-060503 - czulosc ruchu myszy (krecenia glowa)
Parser.getTokens(2, false);
Parser >> fMouseXScale >> fMouseYScale;
}
else if( token == "mousecontrol" ) {
// whether control pick mode can be activated
Parser.getTokens();
Parser >> InputMouse;
}
else if (token == "enabletraction")
{
// Winger 040204 - 'zywe' patyki dostosowujace sie do trakcji; Ra 2014-03: teraz łamanie
Parser.getTokens();
Parser >> bEnableTraction;
}
else if (token == "loadtraction")
{
// Winger 140404 - ladowanie sie trakcji
Parser.getTokens();
Parser >> bLoadTraction;
}
else if (token == "friction")
{ // mnożnik tarcia - KURS90
Parser.getTokens(1, false);
Parser >> fFriction;
}
else if (token == "livetraction")
{
// Winger 160404 - zaleznosc napiecia loka od trakcji;
// Ra 2014-03: teraz prąd przy braku sieci
Parser.getTokens();
Parser >> bLiveTraction;
}
else if (token == "skyenabled")
{
// youBy - niebo
Parser.getTokens();
Parser >> token;
asSky = (token == "yes" ? "1" : "0");
}
else if (token == "defaultext")
{
// ShaXbee - domyslne rozszerzenie tekstur
Parser.getTokens();
Parser >> token;
if (token == "tga")
{
// domyślnie od TGA
szDefaultExt = szTexturesTGA;
}
else {
szDefaultExt =
( token[ 0 ] == '.' ?
token :
"." + token );
}
}
else if (token == "newaircouplers")
{
Parser.getTokens();
Parser >> bnewAirCouplers;
}
else if( token == "anisotropicfiltering" ) {
Parser.getTokens( 1, false );
Parser >> AnisotropicFiltering;
if (AnisotropicFiltering < 1.0f)
AnisotropicFiltering = 1.0f;
}
else if( token == "usevbo" )
{
Parser.getTokens();
Parser >> bUseVBO;
}
else if (token == "feedbackmode")
{
Parser.getTokens(1, false);
Parser >> iFeedbackMode;
}
else if (token == "feedbackport")
{
Parser.getTokens(1, false);
Parser >> iFeedbackPort;
}
else if (token == "multiplayer")
{
Parser.getTokens(1, false);
Parser >> iMultiplayer;
}
else if (token == "maxtexturesize")
{
// wymuszenie przeskalowania tekstur
Parser.getTokens(1, false);
int size;
Parser >> size;
iMaxTextureSize = clamp_power_of_two( size, 512, 8192 );
}
else if (token == "maxcabtexturesize")
{
// wymuszenie przeskalowania tekstur
Parser.getTokens( 1, false );
int size;
Parser >> size;
iMaxCabTextureSize = clamp_power_of_two( size, 512, 8192 );
}
else if (token == "movelight")
{
// numer dnia w roku albo -1
Parser.getTokens(1, false);
Parser >> fMoveLight;
if (fMoveLight == 0.f)
{ // pobranie daty z systemu
std::time_t timenow = std::time(0);
std::tm *localtime = std::localtime(&timenow);
fMoveLight = localtime->tm_yday + 1; // numer bieżącego dnia w roku
}
simulation::Environment.compute_season( fMoveLight );
}
else if( token == "dynamiclights" ) {
// number of dynamic lights in the scene
Parser.getTokens( 1, false );
Parser >> DynamicLightCount;
// clamp the light number
// max 8 lights per opengl specs, minus one used for sun. at least one light for controlled vehicle
DynamicLightCount = clamp( DynamicLightCount, 1, 7 );
}
else if( token == "scenario.time.override" ) {
// shift (in hours) applied to train timetables
Parser.getTokens( 1, false );
std::string token;
Parser >> token;
std::istringstream stream(token);
if (token.find(':') != -1) {
float a, b;
char s;
stream >> a >> s >> b;
ScenarioTimeOverride = a + b / 60.0;
}
else
stream >> ScenarioTimeOverride;
ScenarioTimeOverride = clamp( ScenarioTimeOverride, 0.f, 24 * 1439 / 1440.f );
}
else if( token == "scenario.time.offset" ) {
// shift (in hours) applied to train timetables
Parser.getTokens( 1, false );
Parser >> ScenarioTimeOffset;
}
else if( token == "scenario.time.current" ) {
// sync simulation time with local clock
Parser.getTokens( 1, false );
Parser >> ScenarioTimeCurrent;
}
else if( token == "scenario.weather.temperature" ) {
// selected device for audio renderer
Parser.getTokens();
Parser >> AirTemperature;
if( false == DebugModeFlag ) {
AirTemperature = clamp( AirTemperature, -15.f, 45.f );
}
}
else if( token == "scalespeculars" ) {
// whether strength of specular highlights should be adjusted (generally needed for legacy 3d models)
Parser.getTokens();
Parser >> ScaleSpecularValues;
}
else if( token == "gfxrenderer" ) {
// shadow render toggle
Parser.getTokens();
Parser >> GfxRenderer;
if( GfxRenderer == "full" ) {
GfxRenderer = "default";
}
BasicRenderer = ( GfxRenderer == "simple" );
LegacyRenderer = ( GfxRenderer != "default" );
}
else if( token == "shadows" ) {
// shadow render toggle
Parser.getTokens();
Parser >> RenderShadows;
}
else if( token == "shadowtune" ) {
Parser.getTokens( 4, false );
float discard;
Parser
>> shadowtune.map_size
>> discard
>> shadowtune.range
>> discard;
shadowtune.map_size = clamp_power_of_two<unsigned int>( shadowtune.map_size, 512, 8192 );
// make sure we actually make effective use of all csm stages
shadowtune.range =
std::max(
( shadowtune.map_size <= 2048 ?
75.f :
75.f * shadowtune.map_size / 2048 ),
shadowtune.range );
}
else if( token == "gfx.shadows.cab.range" ) {
// shadow render toggle
Parser.getTokens();
Parser >> RenderCabShadowsRange;
}
else if( token == "gfx.smoke" ) {
// smoke visualization toggle
Parser.getTokens();
Parser >> Smoke;
}
else if( token == "gfx.smoke.fidelity" ) {
// smoke visualization fidelity
float smokefidelity;
Parser.getTokens();
Parser >> smokefidelity;
SmokeFidelity = clamp( smokefidelity, 1.f, 4.f );
}
else if( token == "smoothtraction" ) {
// podwójna jasność ambient
Parser.getTokens();
Parser >> bSmoothTraction;
}
else if( token == "splinefidelity" ) {
// segment size during spline->geometry conversion
float splinefidelity;
Parser.getTokens();
Parser >> splinefidelity;
SplineFidelity = clamp( splinefidelity, 1.f, 4.f );
}
else if (token == "rendercab") {
Parser.getTokens();
Parser >> render_cab;
}
else if( token == "createswitchtrackbeds" ) {
// podwójna jasność ambient
Parser.getTokens();
Parser >> CreateSwitchTrackbeds;
}
else if( token == "gfx.resource.sweep" ) {
Parser.getTokens();
Parser >> ResourceSweep;
}
else if( token == "gfx.resource.move" ) {
Parser.getTokens();
Parser >> ResourceMove;
}
else if( token == "gfx.reflections.framerate" ) {
auto const updatespersecond { std::abs( Parser.getToken<double>() ) };
ReflectionUpdateInterval = 1.0 / updatespersecond;
}
else if( token == "timespeed" ) {
// przyspieszenie czasu, zmienna do testów
Parser.getTokens( 1, false );
Parser >> fTimeSpeed;
}
else if (token == "multisampling")
{
// tryb antyaliasingu: 0=brak,1=2px,2=4px
Parser.getTokens(1, false);
Parser >> iMultisampling;
}
else if (token == "latitude")
{
// szerokość geograficzna
Parser.getTokens(1, false);
Parser >> fLatitudeDeg;
}
else if (token == "convertmodels")
{
// tworzenie plików binarnych
Parser.getTokens(1, false);
Parser >> iConvertModels;
// temporary override, to prevent generation of .e3d not compatible with old exe
iConvertModels =
( iConvertModels > 128 ?
iConvertModels - 128 :
0 );
}
else if( token == "file.binary.terrain" ) {
// binary terrain (de)serialization
Parser.getTokens( 1, false );
Parser >> file_binary_terrain;
}
else if (token == "inactivepause")
{
// automatyczna pauza, gdy okno nieaktywne
Parser.getTokens();
Parser >> bInactivePause;
}
else if (token == "slowmotion")
{
// tworzenie plików binarnych
Parser.getTokens(1, false);
Parser >> iSlowMotionMask;
}
else if (token == "hideconsole")
{
// hunter-271211: ukrywanie konsoli
Parser.getTokens();
Parser >> bHideConsole;
}
else if (token == "rollfix")
{
// Ra: poprawianie przechyłki, aby wewnętrzna szyna była "pozioma"
Parser.getTokens();
Parser >> bRollFix;
}
else if (token == "fpsaverage")
{
// oczekiwana wartość FPS
Parser.getTokens(1, false);
Parser >> fFpsAverage;
}
else if (token == "fpsdeviation")
{
// odchylenie standardowe FPS
Parser.getTokens(1, false);
Parser >> fFpsDeviation;
}
else if (token == "calibratein")
{
// parametry kalibracji wejść
Parser.getTokens(1, false);
int in;
Parser >> in;
if ((in < 0) || (in > 5))
{
in = 5; // na ostatni, bo i tak trzeba pominąć wartości
}
Parser.getTokens(4, false);
Parser
>> fCalibrateIn[in][0] // wyraz wolny
>> fCalibrateIn[in][1] // mnożnik
>> fCalibrateIn[in][2] // mnożnik dla kwadratu
>> fCalibrateIn[in][3]; // mnożnik dla sześcianu
fCalibrateIn[in][4] = 0.0; // mnożnik 4 potęgi
fCalibrateIn[in][5] = 0.0; // mnożnik 5 potęgi
}
else if (token == "calibrate5din")
{
// parametry kalibracji wejść
Parser.getTokens(1, false);
int in;
Parser >> in;
if ((in < 0) || (in > 5))
{
in = 5; // na ostatni, bo i tak trzeba pominąć wartości
}
Parser.getTokens(6, false);
Parser >> fCalibrateIn[in][0] // wyraz wolny
>> fCalibrateIn[in][1] // mnożnik
>> fCalibrateIn[in][2] // mnożnik dla kwadratu
>> fCalibrateIn[in][3] // mnożnik dla sześcianu
>> fCalibrateIn[in][4] // mnożnik 4 potęgi
>> fCalibrateIn[in][5]; // mnożnik 5 potęgi
}
else if (token == "calibrateout")
{
// parametry kalibracji wyjść
Parser.getTokens(1, false);
int out;
Parser >> out;
if ((out < 0) || (out > 6))
{
out = 6; // na ostatni, bo i tak trzeba pominąć wartości
}
Parser.getTokens(4, false);
Parser >> fCalibrateOut[out][0] // wyraz wolny
>> fCalibrateOut[out][1] // mnożnik liniowy
>> fCalibrateOut[out][2] // mnożnik dla kwadratu
>> fCalibrateOut[out][3]; // mnożnik dla sześcianu
fCalibrateOut[out][4] = 0.0; // mnożnik dla 4 potęgi
fCalibrateOut[out][5] = 0.0; // mnożnik dla 5 potęgi
}
else if (token == "calibrate5dout")
{
// parametry kalibracji wyjść
Parser.getTokens(1, false);
int out;
Parser >> out;
if ((out < 0) || (out > 6))
{
out = 6; // na ostatni, bo i tak trzeba pominąć wartości
}
Parser.getTokens(6, false);
Parser >> fCalibrateOut[out][0] // wyraz wolny
>> fCalibrateOut[out][1] // mnożnik liniowy
>> fCalibrateOut[out][2] // mnożnik dla kwadratu
>> fCalibrateOut[out][3] // mnożnik dla sześcianu
>> fCalibrateOut[out][4] // mnożnik dla 4 potęgi
>> fCalibrateOut[out][5]; // mnożnik dla 5 potęgi
}
else if (token == "calibrateoutmaxvalues")
{
// maksymalne wartości jakie można wyświetlić na mierniku
Parser.getTokens(7, false);
Parser >> fCalibrateOutMax[0] >> fCalibrateOutMax[1] >>
fCalibrateOutMax[2] >> fCalibrateOutMax[3] >>
fCalibrateOutMax[4] >> fCalibrateOutMax[5] >>
fCalibrateOutMax[6];
}
else if (token == "calibrateoutdebuginfo")
{
// wyjście z info o przebiegu kalibracji
Parser.getTokens(1, false);
Parser >> iCalibrateOutDebugInfo;
}
else if (token == "pwm")
{
// zmiana numerów wyjść PWM
Parser.getTokens(2, false);
int pwm_out, pwm_no;
Parser >> pwm_out >> pwm_no;
iPoKeysPWM[pwm_out] = pwm_no;
}
else if (token == "brakestep")
{
Parser.getTokens(1, false);
Parser >> fBrakeStep;
}
else if (token == "joinduplicatedevents")
{
// czy grupować eventy o tych samych nazwach
Parser.getTokens();
Parser >> bJoinEvents;
}
else if (token == "hiddenevents")
{
// czy łączyć eventy z torami poprzez nazwę toru
Parser.getTokens(1, false);
Parser >> iHiddenEvents;
}
else if (token == "pause")
{
// czy po wczytaniu ma być pauza?
Parser.getTokens();
Parser >> token;
iPause |= (token == "yes" ? 1 : 0);
}
else if (token == "lang")
{
// domyślny język - http://tools.ietf.org/html/bcp47
Parser.getTokens(1, false);
Parser >> asLang;
}
else if( token == "pyscreenrendererpriority" )
{
// old variable, repurposed as update rate of python screen renderer
Parser.getTokens();
Parser >> token;
auto const priority { token };
PythonScreenUpdateRate = (
priority == "lower" ? 500 :
priority == "lowest" ? 1000 :
priority == "off" ? 0 :
200 );
}
else if( token == "python.updatetime" )
{
Parser.getTokens();
Parser >> PythonScreenUpdateRate;
}
else if( token == "uitextcolor" ) {
// color of the ui text. NOTE: will be obsolete once the real ui is in place
Parser.getTokens( 3, false );
Parser
>> UITextColor.r
>> UITextColor.g
>> UITextColor.b;
glm::clamp( UITextColor, 0.f, 255.f );
UITextColor = UITextColor / 255.f;
UITextColor.a = 1.f;
}
else if( token == "ui.bg.opacity" ) {
// czy grupować eventy o tych samych nazwach
Parser.getTokens();
Parser >> UIBgOpacity;
UIBgOpacity = clamp( UIBgOpacity, 0.f, 1.f );
}
else if( token == "input.gamepad" ) {
// czy grupować eventy o tych samych nazwach
Parser.getTokens();
Parser >> InputGamepad;
}
#ifdef WITH_UART
else if( token == "uart" ) {
uart_conf.enable = true;
Parser.getTokens( 3, false );
Parser
>> uart_conf.port
>> uart_conf.baud
>> uart_conf.updatetime;
}
else if( token == "uarttune" ) {
Parser.getTokens( 16 );
Parser
>> uart_conf.mainbrakemin
>> uart_conf.mainbrakemax
>> uart_conf.localbrakemin
>> uart_conf.localbrakemax
>> uart_conf.tankmax
>> uart_conf.tankuart
>> uart_conf.pipemax
>> uart_conf.pipeuart
>> uart_conf.brakemax
>> uart_conf.brakeuart
>> uart_conf.hvmax
>> uart_conf.hvuart
>> uart_conf.currentmax
>> uart_conf.currentuart
>> uart_conf.lvmax
>> uart_conf.lvuart;
}
else if ( token == "uarttachoscale" ) {
Parser.getTokens( 1 );
Parser >> uart_conf.tachoscale;
}
else if( token == "uartfeature" ) {
Parser.getTokens( 4 );
Parser
>> uart_conf.mainenable
>> uart_conf.scndenable
>> uart_conf.trainenable
>> uart_conf.localenable;
}
else if( token == "uartdebug" ) {
Parser.getTokens( 1 );
Parser >> uart_conf.debug;
}
#endif
#ifdef USE_EXTCAM_CAMERA
else if( token == "extcam.cmd" ) {
Parser.getTokens( 1 );
Parser >> extcam_cmd;
}
else if( token == "extcam.rec" ) {
Parser.getTokens( 1 );
Parser >> extcam_rec;
}
else if( token == "extcam.res" ) {
Parser.getTokens( 2 );
Parser >> extcam_res.x >> extcam_res.y;
}
#endif
else if (token == "compresstex") {
Parser.getTokens( 1 );
if( false == gfx_usegles ) {
// ogl es use requires compression to be disabled
Parser >> compress_tex;
}
}
else if (token == "gfx.framebuffer.width")
{
Parser.getTokens(1, false);
Parser >> gfx_framebuffer_width;
}
else if (token == "gfx.framebuffer.height")
{
Parser.getTokens(1, false);
Parser >> gfx_framebuffer_height;
}
else if (token == "gfx.framebuffer.fidelity")
{
Parser.getTokens(1, false);
Parser >> gfx_framebuffer_fidelity;
}
else if (token == "gfx.shadowmap.enabled")
{
Parser.getTokens(1);
Parser >> gfx_shadowmap_enabled;
}
else if (token == "fpslimit")
{
Parser.getTokens(1);
float fpslimit;
Parser >> fpslimit;
minframetime = std::chrono::duration<float>(1.0f / fpslimit);
}
else if (token == "randomseed")
{
Parser.getTokens(1);
Parser >> Global.random_seed;
}
else if (token == "gfx.envmap.enabled")
{
Parser.getTokens(1);
Parser >> gfx_envmap_enabled;
}
else if (token == "gfx.postfx.motionblur.enabled")
{
Parser.getTokens(1);
Parser >> gfx_postfx_motionblur_enabled;
}
else if (token == "gfx.postfx.motionblur.shutter")
{
Parser.getTokens(1);
Parser >> gfx_postfx_motionblur_shutter;
}
else if (token == "gfx.postfx.motionblur.format")
{
Parser.getTokens(1);
std::string token;
Parser >> token;
if (token == "rg16f")
gfx_postfx_motionblur_format = GL_RG16F;
else if (token == "rg32f")
gfx_postfx_motionblur_format = GL_RG32F;
}
else if (token == "gfx.postfx.chromaticaberration.enabled")
{
Parser.getTokens(1);
Parser >> gfx_postfx_chromaticaberration_enabled;
}
else if (token == "gfx.format.color")
{
Parser.getTokens(1);
std::string token;
Parser >> token;
if (token == "rgb8")
gfx_format_color = GL_RGB8;
else if (token == "rgb16f")
gfx_format_color = GL_RGB16F;
else if (token == "rgb32f")
gfx_format_color = GL_RGB32F;
else if (token == "r11f_g11f_b10f")
gfx_format_color = GL_R11F_G11F_B10F;
}
else if (token == "gfx.format.depth")
{
Parser.getTokens(1);
std::string token;
Parser >> token;
if (token == "z16")
gfx_format_depth = GL_DEPTH_COMPONENT16;
else if (token == "z24")
gfx_format_depth = GL_DEPTH_COMPONENT24;
else if (token == "z32")
gfx_format_depth = GL_DEPTH_COMPONENT32;
else if (token == "z32f")
gfx_format_depth = GL_DEPTH_COMPONENT32F;
}
else if (token == "gfx.skiprendering")
{
Parser.getTokens(1);
Parser >> gfx_skiprendering;
}
else if (token == "gfx.skippipeline")
{
Parser.getTokens(1);
Parser >> gfx_skippipeline;
}
else if (token == "gfx.extraeffects")
{
Parser.getTokens(1);
Parser >> gfx_extraeffects;
}
/*
else if (token == "gfx.usegles")
{
Parser.getTokens(1);
Parser >> gfx_usegles;
if( true == gfx_usegles ) {
compress_tex = false;
gfx_shadergamma = true;
}
}
else if (token == "gfx.shadergamma")
{
Parser.getTokens(1);
Parser >> gfx_shadergamma;
}
*/
else if (token == "python.enabled")
{
Parser.getTokens(1);
Parser >> python_enabled;
}
else if (token == "python.threadedupload")
{
Parser.getTokens(1);
Parser >> python_threadedupload;
}
else if (token == "python.uploadmain")
{
Parser.getTokens(1);
Parser >> python_uploadmain;
}
else if (token == "python.mipmaps")
{
Parser.getTokens(1);
Parser >> python_mipmaps;
}
else if (token == "network.server")
{
Parser.getTokens(2);
std::string backend;
std::string conf;
Parser >> backend >> conf;
network_servers.push_back(std::make_pair(backend, conf));
}
else if (token == "network.client")
{
Parser.getTokens(2);
network_client.emplace();
Parser >> network_client->first;
Parser >> network_client->second;
}
else if (token == "execonexit") {
Parser.getTokens(1);
Parser >> exec_on_exit;
std::replace(std::begin(exec_on_exit), std::end(exec_on_exit), '_', ' ');
}
/*
else if (token == "crashdamage") {
Parser.getTokens(1);
Parser >> crash_damage;
}
*/
} while ((token != "") && (token != "endconfig")); //(!Parser->EndOfFile)
// na koniec trochę zależności
if (!bLoadTraction) // wczytywanie drutów i słupów
{ // tutaj wyłączenie, bo mogą nie być zdefiniowane w INI
bEnableTraction = false; // false = pantograf się nie połamie
bLiveTraction = false; // false = pantografy zawsze zbierają 95% MaxVoltage
}
if (iMultisampling)
{ // antyaliasing całoekranowy wyłącza rozmywanie drutów
bSmoothTraction = false;
}
if (iMultiplayer > 0)
{
bInactivePause = false; // okno "w tle" nie może pauzować, jeśli włączona komunikacja
// pauzowanie jest zablokowane dla (iMultiplayer&2)>0, więc iMultiplayer=1 da się zapauzować
// (tryb instruktora)
}
/*
fFpsMin = fFpsAverage -
fFpsDeviation; // dolna granica FPS, przy której promień scenerii będzie zmniejszany
fFpsMax = fFpsAverage +
fFpsDeviation; // górna granica FPS, przy której promień scenerii będzie zwiększany
*/
if (iPause)
iTextMode = GLFW_KEY_F1; // jak pauza, to pokazać zegar
#ifdef _WIN32
Console::ModeSet(iFeedbackMode, iFeedbackPort); // tryb pracy konsoli sterowniczej
#endif
}
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