#include "Runtime/Weapon/CBurstFire.hpp" #include #include #include "Runtime/GameGlobalObjects.hpp" #include "Runtime/CStateManager.hpp" #include namespace urde { CBurstFire::CBurstFire(const SBurst* const* burstDefs, s32 firstBurstCount) : x10_firstBurstCounter(firstBurstCount) { while (*burstDefs) { x1c_burstDefs.push_back(*burstDefs); ++burstDefs; } } void CBurstFire::Update(CStateManager& mgr, float dt) { x14_24_shouldFire = false; if (x18_curBursts) { x8_timeToNextShot -= dt; if (x8_timeToNextShot < 0.f) { x4_angleIdx += 1; if (x18_curBursts->x4_shotAngles[x4_angleIdx] > 0) { x14_24_shouldFire = true; x8_timeToNextShot = x18_curBursts->x24_timeToNextShot; x8_timeToNextShot += (mgr.GetActiveRandom()->Float() - 0.5f) * x18_curBursts->x28_timeToNextShotVariance; } else { x18_curBursts = nullptr; } } } } zeus::CVector3f CBurstFire::GetDistanceCompensatedError(float dist, float maxErrDist) const { float xErr = GetMaxXError(); float zErr = GetMaxZError(); xErr = std::min(xErr, dist / maxErrDist * xErr); zErr = std::min(zErr, dist / maxErrDist * zErr); return GetError(xErr, zErr); } void CBurstFire::Start(CStateManager& mgr) { s32 burstIdx = -1; const SBurst* bursts = x1c_burstDefs[x0_burstType]; if (x10_firstBurstCounter-- > 0) { burstIdx = xc_firstBurstIdx < 0 ? 0 : xc_firstBurstIdx; } else { int random = mgr.GetActiveRandom()->Range(0, 100); int advanceAccum = 0; do { burstIdx += 1; s32 advanceWeight = bursts[burstIdx].x0_randomSelectionWeight; if (advanceWeight == 0) { advanceAccum = 100; burstIdx -= 1; } advanceAccum += advanceWeight; } while (random > advanceAccum); } x18_curBursts = &bursts[burstIdx]; x4_angleIdx = -1; x8_timeToNextShot = 0.f; x14_24_shouldFire = false; } zeus::CVector3f CBurstFire::GetError(float xMag, float zMag) const { zeus::CVector3f ret; if (x14_24_shouldFire && x18_curBursts) { s32 r0 = x18_curBursts->x4_shotAngles[x4_angleIdx]; if (x14_25_avoidAccuracy && (r0 == 4 || r0 == 12)) r0 = x4_angleIdx > 0 ? x18_curBursts->x4_shotAngles[x4_angleIdx - 1] : x18_curBursts->x4_shotAngles[x4_angleIdx + 1]; if (r0 > 0) { float angle = r0 * zeus::degToRad(-22.5f); ret.x() = std::cos(angle) * xMag; ret.z() = std::sin(angle) * zMag; } } return ret; } float CBurstFire::GetMaxXError() const { return g_tweakPlayer->GetPlayerXYHalfExtent() * 3.625f + 0.2f; } float CBurstFire::GetMaxZError() const { return g_tweakPlayer->GetEyeOffset(); } } // namespace urde