mirror of https://github.com/AxioDL/metaforce.git
279 lines
12 KiB
C++
279 lines
12 KiB
C++
#pragma once
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#include <array>
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#include <list>
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#include <memory>
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#include <optional>
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#include <vector>
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#include "Runtime/rstl.hpp"
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#include "Runtime/RetroTypes.hpp"
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#include "Runtime/AutoMapper/CMapUniverse.hpp"
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#include "Runtime/MP1/CInGameGuiManager.hpp"
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#include <zeus/CQuaternion.hpp>
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#include <zeus/CTransform.hpp>
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#include <zeus/CVector2f.hpp>
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#include <zeus/CVector2i.hpp>
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#include <zeus/CVector3f.hpp>
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namespace urde {
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class CMapWorldInfo;
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class CStateManager;
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class IWorld;
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struct CFinalInput;
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class CAutoMapper {
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public:
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using EInGameGuiState = MP1::EInGameGuiState;
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enum class ELoadPhase { LoadResources, LoadUniverse, Done };
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enum class EAutoMapperState { MiniMap, MapScreen, MapScreenUniverse };
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struct SAutoMapperRenderState {
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enum class Ease { None, Linear, Out, In, InOut };
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using FGetViewportSize = zeus::CVector2i (*)();
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FGetViewportSize m_getViewportSize = nullptr;
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zeus::CVector2i x0_viewportSize;
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zeus::CQuaternion x8_camOrientation;
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float x18_camDist = 0.0f;
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float x1c_camAngle = 0.0f;
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zeus::CVector3f x20_areaPoint;
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float x2c_drawDepth1 = 0.0f;
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float x30_drawDepth2 = 0.0f;
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float x34_alphaSurfaceVisited = 0.0f;
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float x38_alphaOutlineVisited = 0.0f;
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float x3c_alphaSurfaceUnvisited = 0.0f;
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float x40_alphaOutlineUnvisited = 0.0f;
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Ease x44_viewportEase = Ease::None;
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Ease x48_camEase = Ease::None;
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Ease x4c_pointEase = Ease::None;
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Ease x50_depth1Ease = Ease::None;
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Ease x54_depth2Ease = Ease::None;
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Ease x58_alphaEase = Ease::None;
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SAutoMapperRenderState() = default;
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SAutoMapperRenderState(FGetViewportSize getViewportSize, const zeus::CQuaternion& camOrientation, float camDist,
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float camAngle, const zeus::CVector3f& areaPoint, float drawDepth1, float drawDepth2,
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float alphaSurfaceVisited, float alphaOutlineVisited, float alphaSurfaceUnvisited,
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float alphaOutlineUnvisited)
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: m_getViewportSize(getViewportSize)
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, x0_viewportSize(getViewportSize())
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, x8_camOrientation(camOrientation)
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, x18_camDist(camDist)
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, x1c_camAngle(camAngle)
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, x20_areaPoint(areaPoint)
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, x2c_drawDepth1(drawDepth1)
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, x30_drawDepth2(drawDepth2)
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, x34_alphaSurfaceVisited(alphaSurfaceVisited)
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, x38_alphaOutlineVisited(alphaOutlineVisited)
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, x3c_alphaSurfaceUnvisited(alphaSurfaceUnvisited)
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, x40_alphaOutlineUnvisited(alphaOutlineUnvisited) {}
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static void InterpolateWithClamp(const SAutoMapperRenderState& a, SAutoMapperRenderState& out,
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const SAutoMapperRenderState& b, float t);
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void ResetInterpolation() {
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x44_viewportEase = Ease::None;
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x48_camEase = Ease::None;
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x4c_pointEase = Ease::None;
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x50_depth1Ease = Ease::None;
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x54_depth2Ease = Ease::None;
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x58_alphaEase = Ease::None;
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}
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zeus::CVector2i GetViewportSize() const {
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if (m_getViewportSize)
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return m_getViewportSize();
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else
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return x0_viewportSize;
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}
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};
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struct SAutoMapperHintStep {
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enum class Type { PanToArea, PanToWorld, SwitchToUniverse, SwitchToWorld, ShowBeacon, ZoomIn, ZoomOut };
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struct PanToArea {};
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struct PanToWorld {};
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struct SwitchToUniverse {};
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struct SwitchToWorld {};
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struct ShowBeacon {};
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struct ZoomIn {};
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struct ZoomOut {};
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Type x0_type;
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union {
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CAssetId x4_worldId;
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TAreaId x4_areaId;
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float x4_float;
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};
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bool x8_processing = false;
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SAutoMapperHintStep(PanToArea, TAreaId areaId) : x0_type(Type::PanToArea), x4_areaId(areaId) {}
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SAutoMapperHintStep(PanToWorld, CAssetId worldId) : x0_type(Type::PanToWorld), x4_worldId(worldId) {}
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SAutoMapperHintStep(SwitchToUniverse) : x0_type(Type::SwitchToUniverse), x4_worldId(0) {}
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SAutoMapperHintStep(SwitchToWorld, CAssetId worldId) : x0_type(Type::SwitchToWorld), x4_worldId(worldId) {}
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SAutoMapperHintStep(ShowBeacon, float val) : x0_type(Type::ShowBeacon), x4_float(val) {}
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SAutoMapperHintStep(ZoomIn) : x0_type(Type::ZoomIn), x4_worldId(0) {}
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SAutoMapperHintStep(ZoomOut) : x0_type(Type::ZoomOut), x4_worldId(0) {}
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};
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struct SAutoMapperHintLocation {
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u32 x0_showBeacon;
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float x4_beaconAlpha;
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CAssetId x8_worldId;
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TAreaId xc_areaId;
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};
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private:
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enum class EZoomState { None, In, Out };
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ELoadPhase x4_loadPhase = ELoadPhase::LoadResources;
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TLockedToken<CMapUniverse> x8_mapu;
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std::vector<std::unique_ptr<IWorld>> x14_dummyWorlds;
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IWorld* x24_world;
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TLockedToken<CGuiFrame> x28_frmeMapScreen; // Used to be ptr
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bool m_frmeInitialized = false;
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TLockedToken<CModel> x30_miniMapSamus;
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TLockedToken<CTexture> x3c_hintBeacon;
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std::vector<CTexturedQuadFilter> m_hintBeaconFilters;
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rstl::reserved_vector<TLockedToken<CTexture>, 5> x48_mapIcons;
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CAssetId x74_areaHintDescId;
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TLockedToken<CStringTable> x78_areaHintDesc;
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CAssetId x88_mapAreaStringId;
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TLockedToken<CStringTable> x8c_mapAreaString; // Used to be optional
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u32 x9c_worldIdx = 0;
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TAreaId xa0_curAreaId;
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TAreaId xa4_otherAreaId;
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std::array<SAutoMapperRenderState, 3> xa8_renderStates; // xa8, x104, x160; current, next, prev
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EAutoMapperState x1bc_state = EAutoMapperState::MiniMap;
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EAutoMapperState x1c0_nextState = EAutoMapperState::MiniMap;
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float x1c4_interpDur = 0.f;
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float x1c8_interpTime = 0.f;
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CSfxHandle x1cc_panningSfx;
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CSfxHandle x1d0_rotatingSfx;
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CSfxHandle x1d4_zoomingSfx;
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float x1d8_flashTimer = 0.f;
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float x1dc_playerFlashPulse = 0.f;
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std::list<SAutoMapperHintStep> x1e0_hintSteps;
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std::list<SAutoMapperHintLocation> x1f8_hintLocations;
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rstl::reserved_vector<TLockedToken<CTexture>, 9> x210_lstick;
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rstl::reserved_vector<TLockedToken<CTexture>, 9> x25c_cstick;
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rstl::reserved_vector<TLockedToken<CTexture>, 2> x2a8_ltrigger;
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rstl::reserved_vector<TLockedToken<CTexture>, 2> x2bc_rtrigger;
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rstl::reserved_vector<TLockedToken<CTexture>, 2> x2d0_abutton;
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u32 x2e4_lStickPos = 0;
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u32 x2e8_rStickPos = 0;
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u32 x2ec_lTriggerPos = 0;
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u32 x2f0_rTriggerPos = 0;
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u32 x2f4_aButtonPos = 0;
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CGuiTextPane* x2f8_textpane_areaname = nullptr;
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CGuiTextPane* x2fc_textpane_hint = nullptr;
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CGuiTextPane* x300_textpane_instructions = nullptr;
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CGuiTextPane* x304_textpane_instructions1 = nullptr;
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CGuiTextPane* x308_textpane_instructions2 = nullptr;
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CGuiWidget* x30c_basewidget_leftPane = nullptr;
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CGuiWidget* x310_basewidget_yButtonPane = nullptr;
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CGuiWidget* x314_basewidget_bottomPane = nullptr;
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float x318_leftPanePos = 0.f;
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float x31c_yButtonPanePos = 0.f;
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float x320_bottomPanePos = 0.f;
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EZoomState x324_zoomState = EZoomState::None;
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u32 x328_ = 0;
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bool x32c_loadingDummyWorld = false;
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std::optional<zeus::CVector2f> m_lastMouseCoord;
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zeus::CVector2f m_mouseDelta;
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boo::SScrollDelta m_lastAccumScroll;
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boo::SScrollDelta m_mapScroll;
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template <class T>
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static void SetResLockState(T& list, bool lock) {
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for (auto& res : list)
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if (lock)
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res.Lock();
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else
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res.Unlock();
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}
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bool NotHintNavigating() const;
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bool CanLeaveMapScreenInternal(const CStateManager& mgr) const;
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void LeaveMapScreen(CStateManager& mgr);
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void SetupMiniMapWorld(CStateManager& mgr);
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bool HasCurrentMapUniverseWorld() const;
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bool CheckDummyWorldLoad(CStateManager& mgr);
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void UpdateHintNavigation(float dt, CStateManager& mgr);
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static zeus::CVector2i GetMiniMapViewportSize();
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static zeus::CVector2i GetMapScreenViewportSize();
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static float GetMapAreaMiniMapDrawDepth() { return 2.f; }
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float GetMapAreaMaxDrawDepth(const CStateManager& mgr, TAreaId aid) const;
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static float GetMapAreaMiniMapDrawAlphaSurfaceVisited(const CStateManager& mgr);
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static float GetMapAreaMiniMapDrawAlphaOutlineVisited(const CStateManager& mgr);
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static float GetMapAreaMiniMapDrawAlphaSurfaceUnvisited(const CStateManager& mgr);
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static float GetMapAreaMiniMapDrawAlphaOutlineUnvisited(const CStateManager& mgr);
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float GetDesiredMiniMapCameraDistance(const CStateManager& mgr) const;
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static float GetBaseMapScreenCameraMoveSpeed();
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float GetClampedMapScreenCameraDistance(float value) const;
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float GetFinalMapScreenCameraMoveSpeed() const;
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void ProcessMapRotateInput(const CFinalInput& input, const CStateManager& mgr);
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void ProcessMapZoomInput(const CFinalInput& input, const CStateManager& mgr);
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void ProcessMapPanInput(const CFinalInput& input, const CStateManager& mgr);
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void SetShouldPanningSoundBePlaying(bool shouldBePlaying);
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void SetShouldZoomingSoundBePlaying(bool shouldBePlaying);
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void SetShouldRotatingSoundBePlaying(bool shouldBePlaying);
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void TransformRenderStatesWorldToUniverse();
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void TransformRenderStatesUniverseToWorld();
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void TransformRenderStateWorldToUniverse(SAutoMapperRenderState&);
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void SetupHintNavigation();
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CAssetId GetAreaHintDescriptionString(CAssetId mreaId);
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public:
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explicit CAutoMapper(CStateManager& stateMgr);
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bool CheckLoadComplete();
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bool CanLeaveMapScreen(const CStateManager& mgr) const;
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float GetMapRotationX() const { return xa8_renderStates[0].x1c_camAngle; }
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float GetMapRotationZ() const { return xa8_renderStates[0].x8_camOrientation.yaw(); }
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TAreaId GetFocusAreaIndex() const { return xa0_curAreaId; }
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CAssetId GetCurrWorldAssetId() const { return x24_world->IGetWorldAssetId(); }
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void SetCurWorldAssetId(CAssetId mlvlId);
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void MuteAllLoopedSounds();
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void UnmuteAllLoopedSounds();
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void ProcessControllerInput(const CFinalInput& input, CStateManager& mgr);
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bool IsInPlayerControlState() const {
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return IsInMapperState(EAutoMapperState::MapScreen) || IsInMapperState(EAutoMapperState::MapScreenUniverse);
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}
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void Update(float dt, CStateManager& mgr);
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void Draw(const CStateManager& mgr, const zeus::CTransform& xf, float alpha);
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float GetTimeIntoInterpolation() const { return x1c8_interpTime; }
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void BeginMapperStateTransition(EAutoMapperState state, CStateManager& mgr);
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void CompleteMapperStateTransition(CStateManager& mgr);
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void ResetInterpolationTimer(float duration);
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SAutoMapperRenderState BuildMiniMapWorldRenderState(const CStateManager& stateMgr, const zeus::CQuaternion& rot,
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TAreaId area) const;
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SAutoMapperRenderState BuildMapScreenWorldRenderState(const CStateManager& mgr, const zeus::CQuaternion& rot,
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TAreaId area, bool doingHint) const;
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SAutoMapperRenderState BuildMapScreenUniverseRenderState(const CStateManager& mgr, const zeus::CQuaternion& rot,
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TAreaId area) const;
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void LeaveMapScreenState();
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void ProcessMapScreenInput(const CFinalInput& input, CStateManager& mgr);
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zeus::CQuaternion GetMiniMapCameraOrientation(const CStateManager& stateMgr) const;
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zeus::CVector3f GetAreaPointOfInterest(const CStateManager& mgr, TAreaId aid) const;
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TAreaId FindClosestVisibleArea(const zeus::CVector3f& point, const zeus::CUnitVector3f& camDir,
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const CStateManager& mgr, const IWorld& wld, const CMapWorldInfo& mwInfo) const;
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std::pair<int, int> FindClosestVisibleWorld(const zeus::CVector3f& point, const zeus::CUnitVector3f& camDir,
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const CStateManager& mgr) const;
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EAutoMapperState GetNextState() const { return x1c0_nextState; }
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bool IsInMapperState(EAutoMapperState state) const { return state == x1bc_state && state == x1c0_nextState; }
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bool IsInMapperStateTransition() const { return x1c0_nextState != x1bc_state; }
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bool IsRenderStateInterpolating() const { return x1c8_interpTime < x1c4_interpDur; }
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bool IsStateTransitioning() const { return x1bc_state != x1c0_nextState; }
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bool IsFullyInMiniMapState() const { return IsInMapperState(EAutoMapperState::MiniMap); }
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bool IsFullyOutOfMiniMapState() const {
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return x1bc_state != EAutoMapperState::MiniMap && x1c0_nextState != EAutoMapperState::MiniMap;
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}
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void OnNewInGameGuiState(EInGameGuiState state, CStateManager& mgr);
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float GetInterp() const {
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if (x1c4_interpDur > 0.f)
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return x1c8_interpTime / x1c4_interpDur;
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return 0.f;
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}
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};
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} // namespace urde
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