#include "CStateMachine.hpp" #include "CAi.hpp" namespace urde { CStateMachine::CStateMachine(CInputStream& in) { #if 0 u32 stateCount = in.readUint32Big(); x0_states.reserve(stateCount); for (u32 i = 0; i < stateCount; ++i) { std::string name = in.readString(31); CAiStateFunc func = CAi::GetStateFunc(name.c_str()); x0_states.emplace_back(func, name); } x10_triggers.reserve(in.readUint32Big()); for (u32 i = 0; i < stateCount; ++i) { x0_states[i].SetNumTriggers(in.readUint32Big()); if (x0_states[i].GetNumTriggers() == 0) continue; for (u32 j = 0; j < x0_states[i].GetNumTriggers(); ++j) x10_triggers.emplace_back(); for (u32 j = 0; j < x0_states[i].GetNumTriggers(); ++j) { u32 triggerCount = in.readUint32Big(); u32 r19 = triggerCount - 1; for (u32 k = 0; k < triggerCount; ++k) { std::string name = in.readString(31); CAiTriggerFunc func = CAi::GetTrigerFunc(name.c_str()); float f31 = in.readFloatBig(); } } } #endif } s32 CStateMachine::GetStateIndex(std::string_view state) const { auto it = std::find_if(x0_states.begin(), x0_states.end(), [&state](const CAiState& st) -> bool { return (strncmp(st.GetName(), state.data(), 31) == 0); }); if (it == x0_states.end()) return 0; return it - x0_states.begin(); } const std::vector& CStateMachine::GetStateVector() const { return x0_states; } float CStateMachineState::GetTime() const { return 0.f; } void CStateMachineState::SetState(CStateManager &, CAi &, s32 idx) { } void CStateMachineState::SetState(CStateManager& mgr, CAi& ai, const CStateMachine* machine, std::string_view state) { if (!machine) return; if (!x0_machine) x0_machine = machine; s32 idx = machine->GetStateIndex(state); SetState(mgr, ai, idx); } const std::vector* CStateMachineState::GetStateVector() const { if (!x0_machine) return nullptr; return &x0_machine->GetStateVector(); } void CStateMachineState::Setup(const CStateMachine* machine) { x0_machine = machine; x4_state = nullptr; x8_time = 0.f; xc_ = 0.f; x10_ = 0.f; } std::string CStateMachineState::GetName() const { return {}; } }