#pragma once #include "m_fixed.h" #include "binaryangle.h" #include "gamecvars.h" #include "packet.h" int getincangle(int c, int n); fixed_t getincangleq16(fixed_t c, fixed_t n); struct PlayerHorizon { fixedhoriz horiz, ohoriz, horizoff, ohorizoff; fixed_t target; double adjustment; void backup() { ohoriz = horiz; ohorizoff = horizoff; } void restore() { horiz = ohoriz; horizoff = ohorizoff; } void addadjustment(double value) { if (!cl_syncinput) { adjustment += value; } else { horiz += q16horiz(FloatToFixed(value)); } } void resetadjustment() { adjustment = 0; } void settarget(double value, bool backup = false) { if (!cl_syncinput) { target = FloatToFixed(value); if (target == 0) target += 1; } else { horiz = q16horiz(FloatToFixed(value)); if (backup) ohoriz = horiz; } } void processhelpers(double const scaleAdjust) { if (target) { horiz += q16horiz(xs_CRoundToInt(scaleAdjust * (target - horiz.asq16()))); if (abs(horiz.asq16() - target) < FRACUNIT) { horiz = q16horiz(target); target = 0; } } else if (adjustment) { horiz += q16horiz(FloatToFixed(scaleAdjust * adjustment)); } } fixedhoriz sum() { return horiz + horizoff; } fixedhoriz interpolatedsum(double const smoothratio) { double const ratio = smoothratio / FRACUNIT; fixed_t const prev = (ohoriz + ohorizoff).asq16(); fixed_t const curr = (horiz + horizoff).asq16(); return q16horiz(prev + xs_CRoundToInt(ratio * (curr - prev))); } }; struct PlayerAngle { binangle ang, oang; lookangle look_ang, olook_ang, rotscrnang, orotscrnang, spin; uint32_t target; double adjustment; void backup() { oang = ang; olook_ang = look_ang; orotscrnang = rotscrnang; } void restore() { ang = oang; look_ang = olook_ang; rotscrnang = orotscrnang; } void addadjustment(double value) { if (!cl_syncinput) { adjustment += value; } else { ang += bamang(xs_CRoundToUInt(value * BAMUNIT)); } } void resetadjustment() { adjustment = 0; } void settarget(double value, bool backup = false) { if (!cl_syncinput) { target = xs_CRoundToUInt(value * BAMUNIT); if (target == 0) target += 1; } else { ang = bamang(xs_CRoundToUInt(value * BAMUNIT)); if (backup) oang = ang; } } void processhelpers(double const scaleAdjust) { if (target) { ang = bamang(ang.asbam() + xs_CRoundToInt(scaleAdjust * (target - ang.asbam()))); if (ang.asbam() - target < BAMUNIT) { ang = bamang(target); target = 0; } } else if (adjustment) { ang += bamang(xs_CRoundToUInt(scaleAdjust * adjustment * BAMUNIT)); } } binangle sum() { return bamang(ang.asbam() + look_ang.asbam()); } binangle interpolatedsum(double const smoothratio) { double const ratio = smoothratio / FRACUNIT; uint32_t const dang = UINT32_MAX >> 1; int64_t const prev = oang.asbam() + olook_ang.asbam(); int64_t const curr = ang.asbam() + look_ang.asbam(); return bamang(prev + xs_CRoundToUInt(ratio * (((curr + dang - prev) & 0xFFFFFFFF) - dang))); } lookangle interpolatedrotscrn(double const smoothratio) { double const ratio = smoothratio / FRACUNIT; return bamlook(orotscrnang.asbam() + xs_CRoundToInt(ratio * (rotscrnang.asbam() - orotscrnang.asbam()))); } }; class FSerializer; FSerializer& Serialize(FSerializer& arc, const char* keyname, PlayerAngle& w, PlayerAngle* def); FSerializer& Serialize(FSerializer& arc, const char* keyname, PlayerHorizon& w, PlayerHorizon* def); void processMovement(InputPacket* currInput, InputPacket* inputBuffer, ControlInfo* const hidInput, double const scaleAdjust, int const drink_amt = 0, bool const allowstrafe = true, double const turnscale = 1); void sethorizon(fixedhoriz* horiz, float const horz, ESyncBits* actions, double const scaleAdjust); void applylook(PlayerAngle* angle, float const avel, ESyncBits* actions, double const scaleAdjust, bool const crouching);