metaforce/Runtime/GuiSys/CCompoundTargetReticle.hpp

161 lines
6.5 KiB
C++

#pragma once
#include <vector>
#include "Runtime/CPlayerState.hpp"
#include "Runtime/CToken.hpp"
#include "Runtime/Graphics/CLineRenderer.hpp"
#include "Runtime/RetroTypes.hpp"
#include <zeus/CQuaternion.hpp>
#include <zeus/CVector3f.hpp>
namespace urde {
class CActor;
class CModel;
class CScriptGrapplePoint;
class CStateManager;
class CTargetReticleRenderState {
TUniqueId x0_target;
float x4_radiusWorld;
zeus::CVector3f x8_positionWorld;
float x14_factor;
float x18_minVpClampScale;
bool x1c_orbitZoneIdlePosition;
public:
static const CTargetReticleRenderState skZeroRenderState;
CTargetReticleRenderState(TUniqueId target, float radiusWorld, const zeus::CVector3f& positionWorld, float factor,
float minVpClampScale, bool orbitZoneIdlePosition)
: x0_target(target)
, x4_radiusWorld(radiusWorld)
, x8_positionWorld(positionWorld)
, x14_factor(factor)
, x18_minVpClampScale(minVpClampScale)
, x1c_orbitZoneIdlePosition(orbitZoneIdlePosition) {}
void SetTargetId(TUniqueId id) { x0_target = id; }
void SetFactor(float f) { x14_factor = f; }
void SetIsOrbitZoneIdlePosition(bool b) { x1c_orbitZoneIdlePosition = b; }
float GetMinViewportClampScale() const { return x18_minVpClampScale; }
float GetFactor() const { return x14_factor; }
float GetRadiusWorld() const { return x4_radiusWorld; }
const zeus::CVector3f& GetTargetPositionWorld() const { return x8_positionWorld; }
bool GetIsOrbitZoneIdlePosition() const { return x1c_orbitZoneIdlePosition; }
void SetTargetPositionWorld(const zeus::CVector3f& pos) { x8_positionWorld = pos; }
void SetRadiusWorld(float r) { x4_radiusWorld = r; }
TUniqueId GetTargetId() const { return x0_target; }
void SetMinViewportClampScale(float s) { x18_minVpClampScale = s; }
static void InterpolateWithClamp(const CTargetReticleRenderState& a, CTargetReticleRenderState& out,
const CTargetReticleRenderState& b, float t);
};
class CCompoundTargetReticle {
public:
struct SOuterItemInfo {
TCachedToken<CModel> x0_model;
float xc_offshootBaseAngle = 0.f;
float x10_rotAng = 0.f;
float x14_baseAngle = 0.f;
float x18_offshootAngleDelta = 0.f;
explicit SOuterItemInfo(std::string_view);
};
private:
enum class EReticleState { Combat, Scan, XRay, Thermal, Four, Unspecified };
zeus::CQuaternion x0_leadingOrientation;
zeus::CQuaternion x10_laggingOrientation;
EReticleState x20_prevState = EReticleState::Unspecified;
EReticleState x24_nextState = EReticleState::Unspecified;
mutable u32 x28_noDrawTicks = 0;
float x2c_overshootOffsetHalf;
float x30_premultOvershootOffset;
TCachedToken<CModel> x34_crosshairs;
TCachedToken<CModel> x40_seeker;
TCachedToken<CModel> x4c_lockConfirm;
TCachedToken<CModel> x58_targetFlower;
TCachedToken<CModel> x64_missileBracket;
TCachedToken<CModel> x70_innerBeamIcon;
TCachedToken<CModel> x7c_lockFire;
TCachedToken<CModel> x88_lockDagger;
TCachedToken<CModel> x94_grapple;
TCachedToken<CModel> xa0_chargeTickFirst;
TCachedToken<CModel> xac_xrayRetRing;
TCachedToken<CModel> xb8_thermalReticle;
SOuterItemInfo xc4_chargeGauge;
std::vector<SOuterItemInfo> xe0_outerBeamIconSquares;
TUniqueId xf0_targetId;
TUniqueId xf2_nextTargetId;
zeus::CVector3f xf4_targetPos;
zeus::CVector3f x100_laggingTargetPos;
CTargetReticleRenderState x10c_currGroupInterp = CTargetReticleRenderState::skZeroRenderState;
CTargetReticleRenderState x12c_currGroupA = CTargetReticleRenderState::skZeroRenderState;
CTargetReticleRenderState x14c_currGroupB = CTargetReticleRenderState::skZeroRenderState;
float x16c_currGroupDur = 0.f;
float x170_currGroupTimer = 0.f;
CTargetReticleRenderState x174_nextGroupInterp = CTargetReticleRenderState::skZeroRenderState;
CTargetReticleRenderState x194_nextGroupA = CTargetReticleRenderState::skZeroRenderState;
CTargetReticleRenderState x1b4_nextGroupB = CTargetReticleRenderState::skZeroRenderState;
float x1d4_nextGroupDur = 0.f;
float x1d8_nextGroupTimer = 0.f;
TUniqueId x1dc_grapplePoint0 = kInvalidUniqueId;
TUniqueId x1de_grapplePoint1 = kInvalidUniqueId;
float x1e0_grapplePoint0T = 0.f;
float x1e4_grapplePoint1T = 0.f;
float x1e8_crosshairsScale = 0.f;
float x1ec_seekerAngle = 0.f;
float x1f0_xrayRetAngle = 0.f;
bool x1f4_missileActive = false;
float x1f8_missileBracketTimer = 0.f;
float x1fc_missileBracketScaleTimer = 0.f;
CPlayerState::EBeamId x200_beam = CPlayerState::EBeamId::Power;
float x204_chargeGaugeOvershootTimer = 0.f;
float x208_lockonTimer;
float x20c_ = 0.f;
float x210_lockFireTimer = 0.f;
float x214_fullChargeFadeTimer = 0.f;
bool x218_beamShot = false;
bool x219_missileShot = false;
bool x21a_fullyCharged = false;
u8 x21b_ = 0;
u32 x21c_;
u32 x220_;
u32 x228_;
struct SScanReticuleRenderer {
std::optional<CLineRenderer> m_lineRenderers[2];
std::optional<CLineRenderer> m_stripRenderers[2][4];
SScanReticuleRenderer();
};
mutable SScanReticuleRenderer m_scanRetRenderer;
void DrawGrapplePoint(const CScriptGrapplePoint& point, float t, const CStateManager& mgr, const zeus::CMatrix3f& rot,
bool zEqual) const;
public:
explicit CCompoundTargetReticle(const CStateManager&);
void SetLeadingOrientation(const zeus::CQuaternion& o) { x0_leadingOrientation = o; }
bool CheckLoadComplete() { return true; }
EReticleState GetDesiredReticleState(const CStateManager&) const;
void Update(float, const CStateManager&);
void UpdateCurrLockOnGroup(float, const CStateManager&);
void UpdateNextLockOnGroup(float, const CStateManager&);
void UpdateOrbitZoneGroup(float, const CStateManager&);
void Draw(const CStateManager&, bool hideLockon) const;
void DrawGrappleGroup(const zeus::CMatrix3f& rot, const CStateManager&, bool) const;
void DrawCurrLockOnGroup(const zeus::CMatrix3f& rot, const CStateManager&) const;
void DrawNextLockOnGroup(const zeus::CMatrix3f& rot, const CStateManager&) const;
void DrawOrbitZoneGroup(const zeus::CMatrix3f& rot, const CStateManager&) const;
void UpdateTargetParameters(CTargetReticleRenderState&, const CStateManager&);
float CalculateRadiusWorld(const CActor&, const CStateManager&) const;
zeus::CVector3f CalculatePositionWorld(const CActor&, const CStateManager&) const;
zeus::CVector3f CalculateOrbitZoneReticlePosition(const CStateManager& mgr, bool lag) const;
bool IsGrappleTarget(TUniqueId, const CStateManager&) const;
static float CalculateClampedScale(const zeus::CVector3f&, float, float, float, const CStateManager&);
void Touch();
};
} // namespace urde