From 7f546e94d37ad9019732b21e76e440ca577bf183 Mon Sep 17 00:00:00 2001 From: andy Date: Wed, 5 Sep 2007 02:03:15 +0000 Subject: [PATCH] revert accidental checkin --- src/FDM/YASim/Airplane.cpp | 22 ++++++---------------- 1 file changed, 6 insertions(+), 16 deletions(-) diff --git a/src/FDM/YASim/Airplane.cpp b/src/FDM/YASim/Airplane.cpp index 07d434e09..c6b5ae925 100644 --- a/src/FDM/YASim/Airplane.cpp +++ b/src/FDM/YASim/Airplane.cpp @@ -28,8 +28,6 @@ const float STHRESH = 1; // oscillate. const float SOLVE_TWEAK = 0.3226; -const float GRAV = 9.8f; - Airplane::Airplane() { _emptyWeight = 0; @@ -125,7 +123,7 @@ void Airplane::getPilotAccel(float* out) // Gravity Glue::geodUp(s->pos, out); - Math::mul3(GRAV, out, out); + Math::mul3(-9.8f, out, out); // The regular acceleration float tmp[3]; @@ -595,7 +593,7 @@ void Airplane::compileContactPoints() // Give it a spring constant such that at full compression it will // hold up 10 times the planes mass. That's about right. Yeah. float mass = _model.getBody()->getTotalMass(); - float spring = (1/DIST) * GRAV * 10.0f * mass; + float spring = (1/DIST) * 9.8f * 10.0f * mass; float damp = 2 * Math::sqrt(spring * mass); int i; @@ -787,7 +785,6 @@ void Airplane::setupWeights(bool isApproach) void Airplane::runCruise() { - __builtin_printf("runCruise()\n"); setupState(_cruiseAoA, _cruiseSpeed,_approachGlideAngle, &_cruiseState); _model.setState(&_cruiseState); _model.setAir(_cruiseP, _cruiseT, @@ -831,7 +828,6 @@ void Airplane::runCruise() void Airplane::runApproach() { - __builtin_printf("runApproach()\n"); setupState(_approachAoA, _approachSpeed,_approachGlideAngle, &_approachState); _model.setState(&_approachState); _model.setAir(_approachP, _approachT, @@ -940,7 +936,7 @@ void Airplane::solve() runCruise(); _model.getThrust(tmp); - float thrust = tmp[0] + GRAV * _cruiseWeight * Math::sin(_cruiseGlideAngle); + float thrust = tmp[0] + _cruiseWeight * Math::sin(_cruiseGlideAngle) * 9.81; _model.getBody()->getAccel(tmp); Math::tmul33(_cruiseState.orient, tmp, tmp); @@ -981,7 +977,7 @@ void Airplane::solve() float pitch1 = tmp[1]; // Now calculate: - float awgt = GRAV * _approachWeight; + float awgt = 9.8f * _approachWeight; float dragFactor = thrust / (thrust-xforce); float liftFactor = awgt / (awgt+alift); @@ -989,10 +985,8 @@ void Airplane::solve() float tailDelta = -pitch0 * (ARCMIN/(pitch1-pitch0)); // Sanity: - if(dragFactor <= 0 || liftFactor <= 0) { - __builtin_printf("NEGATIVE drag %f lift %f\n", dragFactor, liftFactor); + if(dragFactor <= 0 || liftFactor <= 0) break; - } // And the elevator control in the approach. This works just // like the tail incidence computation (it's solving for the @@ -1011,7 +1005,7 @@ void Airplane::solve() // Now apply the values we just computed. Note that the // "minor" variables are deferred until we get the lift/drag // numbers in the right ballpark. - __builtin_printf("Apply drag %f lift %f\n", dragFactor, liftFactor); + applyDragFactor(dragFactor); applyLiftRatio(liftFactor); @@ -1022,8 +1016,6 @@ void Airplane::solve() continue; } - __builtin_printf("Apply aoa %f tail %f\n", SOLVE_TWEAK*aoaDelta, SOLVE_TWEAK*tailDelta); - // OK, now we can adjust the minor variables: _cruiseAoA += SOLVE_TWEAK*aoaDelta; _tailIncidence += SOLVE_TWEAK*tailDelta; @@ -1040,8 +1032,6 @@ void Airplane::solve() if(abs(elevDelta) < STHRESH*0.0001) break; - __builtin_printf("Apply elev %f\n", SOLVE_TWEAK*elevDelta); - // Otherwise, adjust and do the next iteration _approachElevator.val += SOLVE_TWEAK * elevDelta; if(abs(_approachElevator.val) > 1) {