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Experimental fix for latest update

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a2x
2024-04-04 23:42:40 +10:00
parent 3a935f5d73
commit 9362b0c113
106 changed files with 21261 additions and 27319 deletions
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411
output/soundsystem.dll.hpp
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@@ -1,5 +1,5 @@
// Generated using https://github.com/a2x/cs2-dumper
// 2024-04-02 16:10:48.961749300 UTC
// 2024-04-04 13:40:42.514657500 UTC
#pragma once
@@ -8,175 +8,9 @@
namespace cs2_dumper {
namespace schemas {
// Module: soundsystem.dll
// Classes count: 50
// Enums count: 13
// Classes count: 78
// Enums count: 0
namespace soundsystem_dll {
// Alignment: 4
// Members count: 30
enum class soundlevel_t : uint32_t {
SNDLVL_NONE = 0x0,
SNDLVL_20dB = 0x14,
SNDLVL_25dB = 0x19,
SNDLVL_30dB = 0x1E,
SNDLVL_35dB = 0x23,
SNDLVL_40dB = 0x28,
SNDLVL_45dB = 0x2D,
SNDLVL_50dB = 0x32,
SNDLVL_55dB = 0x37,
SNDLVL_IDLE = 0x3C,
SNDLVL_60dB = 0x3C,
SNDLVL_65dB = 0x41,
SNDLVL_STATIC = 0x42,
SNDLVL_70dB = 0x46,
SNDLVL_NORM = 0x4B,
SNDLVL_75dB = 0x4B,
SNDLVL_80dB = 0x50,
SNDLVL_TALKING = 0x50,
SNDLVL_85dB = 0x55,
SNDLVL_90dB = 0x5A,
SNDLVL_95dB = 0x5F,
SNDLVL_100dB = 0x64,
SNDLVL_105dB = 0x69,
SNDLVL_110dB = 0x6E,
SNDLVL_120dB = 0x78,
SNDLVL_130dB = 0x82,
SNDLVL_GUNFIRE = 0x8C,
SNDLVL_140dB = 0x8C,
SNDLVL_150dB = 0x96,
SNDLVL_180dB = 0xB4
};
// Alignment: 4
// Members count: 6
enum class ActionType_t : uint32_t {
SOS_ACTION_NONE = 0x0,
SOS_ACTION_LIMITER = 0x1,
SOS_ACTION_TIME_LIMIT = 0x2,
SOS_ACTION_TIME_BLOCK_LIMITER = 0x3,
SOS_ACTION_SET_SOUNDEVENT_PARAM = 0x4,
SOS_ACTION_SOUNDEVENT_CLUSTER = 0x5
};
// Alignment: 4
// Members count: 3
enum class SosActionStopType_t : uint32_t {
SOS_STOPTYPE_NONE = 0x0,
SOS_STOPTYPE_TIME = 0x1,
SOS_STOPTYPE_OPVAR = 0x2
};
// Alignment: 4
// Members count: 2
enum class SosActionSortType_t : uint32_t {
SOS_SORTTYPE_HIGHEST = 0x0,
SOS_SORTTYPE_LOWEST = 0x1
};
// Alignment: 4
// Members count: 2
enum class SosGroupType_t : uint32_t {
SOS_GROUPTYPE_DYNAMIC = 0x0,
SOS_GROUPTYPE_STATIC = 0x1
};
// Alignment: 4
// Members count: 6
enum class SosEditItemType_t : uint32_t {
SOS_EDIT_ITEM_TYPE_SOUNDEVENTS = 0x0,
SOS_EDIT_ITEM_TYPE_SOUNDEVENT = 0x1,
SOS_EDIT_ITEM_TYPE_LIBRARYSTACKS = 0x2,
SOS_EDIT_ITEM_TYPE_STACK = 0x3,
SOS_EDIT_ITEM_TYPE_OPERATOR = 0x4,
SOS_EDIT_ITEM_TYPE_FIELD = 0x5
};
// Alignment: 2
// Members count: 10
enum class VMixFilterType_t : uint16_t {
FILTER_UNKNOWN = 0xFFFFFFFFFFFFFFFF,
FILTER_LOWPASS = 0x0,
FILTER_HIGHPASS = 0x1,
FILTER_BANDPASS = 0x2,
FILTER_NOTCH = 0x3,
FILTER_PEAKING_EQ = 0x4,
FILTER_LOW_SHELF = 0x5,
FILTER_HIGH_SHELF = 0x6,
FILTER_ALLPASS = 0x7,
FILTER_PASSTHROUGH = 0x8
};
// Alignment: 1
// Members count: 9
enum class VMixFilterSlope_t : uint8_t {
FILTER_SLOPE_1POLE_6dB = 0x0,
FILTER_SLOPE_1POLE_12dB = 0x1,
FILTER_SLOPE_1POLE_18dB = 0x2,
FILTER_SLOPE_1POLE_24dB = 0x3,
FILTER_SLOPE_12dB = 0x4,
FILTER_SLOPE_24dB = 0x5,
FILTER_SLOPE_36dB = 0x6,
FILTER_SLOPE_48dB = 0x7,
FILTER_SLOPE_MAX = 0x7
};
// Alignment: 2
// Members count: 30
enum class VMixProcessorType_t : uint16_t {
VPROCESSOR_UNKNOWN = 0x0,
VPROCESSOR_STEAMAUDIO_REVERB = 0x1,
VPROCESSOR_RT_PITCH = 0x2,
VPROCESSOR_STEAMAUDIO_HRTF = 0x3,
VPROCESSOR_DYNAMICS = 0x4,
VPROCESSOR_PRESETDSP = 0x5,
VPROCESSOR_DELAY = 0x6,
VPROCESSOR_MOD_DELAY = 0x7,
VPROCESSOR_DIFFUSOR = 0x8,
VPROCESSOR_BOXVERB = 0x9,
VPROCESSOR_FREEVERB = 0xA,
VPROCESSOR_PLATEVERB = 0xB,
VPROCESSOR_FULLWAVE_INTEGRATOR = 0xC,
VPROCESSOR_FILTER = 0xD,
VPROCESSOR_STEAMAUDIO_PATHING = 0xE,
VPROCESSOR_EQ8 = 0xF,
VPROCESSOR_ENVELOPE = 0x10,
VPROCESSOR_VOCODER = 0x11,
VPROCESSOR_CONVOLUTION = 0x12,
VPROCESSOR_DYNAMICS_3BAND = 0x13,
VPROCESSOR_DYNAMICS_COMPRESSOR = 0x14,
VPROCESSOR_SHAPER = 0x15,
VPROCESSOR_PANNER = 0x16,
VPROCESSOR_UTILITY = 0x17,
VPROCESSOR_AUTOFILTER = 0x18,
VPROCESSOR_OSC = 0x19,
VPROCESSOR_STEREODELAY = 0x1A,
VPROCESSOR_EFFECT_CHAIN = 0x1B,
VPROCESSOR_SUBGRAPH_SWITCH = 0x1C,
VPROCESSOR_STEAMAUDIO_DIRECT = 0x1D
};
// Alignment: 4
// Members count: 5
enum class VMixLFOShape_t : uint32_t {
LFO_SHAPE_SINE = 0x0,
LFO_SHAPE_SQUARE = 0x1,
LFO_SHAPE_TRI = 0x2,
LFO_SHAPE_SAW = 0x3,
LFO_SHAPE_NOISE = 0x4
};
// Alignment: 4
// Members count: 2
enum class VMixPannerType_t : uint32_t {
PANNER_TYPE_LINEAR = 0x0,
PANNER_TYPE_EQUAL_POWER = 0x1
};
// Alignment: 4
// Members count: 3
enum class VMixSubgraphSwitchInterpolationType_t : uint32_t {
SUBGRAPH_INTERPOLATION_TEMPORAL_CROSSFADE = 0x0,
SUBGRAPH_INTERPOLATION_TEMPORAL_FADE_OUT = 0x1,
SUBGRAPH_INTERPOLATION_KEEP_LAST_SUBGRAPH_RUNNING = 0x2
};
// Alignment: 4
// Members count: 6
enum class VMixChannelOperation_t : uint32_t {
VMIX_CHAN_STEREO = 0x0,
VMIX_CHAN_LEFT = 0x1,
VMIX_CHAN_RIGHT = 0x2,
VMIX_CHAN_SWAP = 0x3,
VMIX_CHAN_MONO = 0x4,
VMIX_CHAN_MID_SIDE = 0x5
};
// Parent: None
// Fields count: 3
//
@@ -757,6 +591,245 @@ namespace cs2_dumper {
constexpr std::ptrdiff_t m_bOnlyTailsOnFadeOut = 0x4; // bool
constexpr std::ptrdiff_t m_flInterpolationTime = 0x8; // float32
}
// Parent: None
// Fields count: 4
//
// Metadata:
// MGetKV3ClassDefaults
namespace CovMatrix3 {
constexpr std::ptrdiff_t m_vDiag = 0x0; //
constexpr std::ptrdiff_t m_flXY = 0xC; // float32
constexpr std::ptrdiff_t m_flXZ = 0x10; // float32
constexpr std::ptrdiff_t m_flYZ = 0x14; // float32
}
// Parent: None
// Fields count: 4
//
// Metadata:
// MGetKV3ClassDefaults
namespace FourCovMatrices3 {
constexpr std::ptrdiff_t m_vDiag = 0x0; // FourVectors
constexpr std::ptrdiff_t m_flXY = 0x30; // fltx4
constexpr std::ptrdiff_t m_flXZ = 0x40; // fltx4
constexpr std::ptrdiff_t m_flYZ = 0x50; // fltx4
}
// Parent: None
// Fields count: 3
//
// Metadata:
// MGetKV3ClassDefaults
namespace FeFitInfluence_t {
constexpr std::ptrdiff_t nVertexNode = 0x0; // uint32
constexpr std::ptrdiff_t flWeight = 0x4; // float32
constexpr std::ptrdiff_t nMatrixNode = 0x8; // uint32
}
// Parent: FeTaperedCapsuleRigid_t
// Fields count: 2
//
// Metadata:
// MGetKV3ClassDefaults
namespace FeBuildTaperedCapsuleRigid_t {
constexpr std::ptrdiff_t m_nPriority = 0x30; // int32
constexpr std::ptrdiff_t m_nVertexMapHash = 0x34; // uint32
}
// Parent: FeBoxRigid_t
// Fields count: 2
//
// Metadata:
// MGetKV3ClassDefaults
namespace FeBuildBoxRigid_t {
constexpr std::ptrdiff_t m_nPriority = 0x40; // int32
constexpr std::ptrdiff_t m_nVertexMapHash = 0x44; // uint32
}
// Parent: FeSphereRigid_t
// Fields count: 2
//
// Metadata:
// MGetKV3ClassDefaults
namespace FeBuildSphereRigid_t {
constexpr std::ptrdiff_t m_nPriority = 0x20; // int32
constexpr std::ptrdiff_t m_nVertexMapHash = 0x24; // uint32
}
// Parent: None
// Fields count: 1
//
// Metadata:
// MGetKV3ClassDefaults
namespace FeSourceEdge_t {
constexpr std::ptrdiff_t nNode = 0x0; // uint16[2]
}
// Parent: None
// Fields count: 6
//
// Metadata:
// MGetKV3ClassDefaults
namespace FeVertexMapBuild_t {
constexpr std::ptrdiff_t m_VertexMapName = 0x0; // CUtlString
constexpr std::ptrdiff_t m_nNameHash = 0x8; // uint32
constexpr std::ptrdiff_t m_Color = 0xC; // Color
constexpr std::ptrdiff_t m_flVolumetricSolveStrength = 0x10; // float32
constexpr std::ptrdiff_t m_nScaleSourceNode = 0x14; // int32
constexpr std::ptrdiff_t m_Weights = 0x18; // CUtlVector<float32>
}
// Parent: None
// Fields count: 1
//
// Metadata:
// MGetKV3ClassDefaults
namespace CFeVertexMapBuildArray {
constexpr std::ptrdiff_t m_Array = 0x0; // CUtlVector<FeVertexMapBuild_t*>
}
// Parent: None
// Fields count: 2
//
// Metadata:
// MGetKV3ClassDefaults
namespace FeProxyVertexMap_t {
constexpr std::ptrdiff_t m_Name = 0x0; // CUtlString
constexpr std::ptrdiff_t m_flWeight = 0x8; // float32
}
// Parent: None
// Fields count: 7
//
// Metadata:
// MGetKV3ClassDefaults
namespace CFeMorphLayer {
constexpr std::ptrdiff_t m_Name = 0x0; // CUtlString
constexpr std::ptrdiff_t m_nNameHash = 0x8; // uint32
constexpr std::ptrdiff_t m_Nodes = 0x10; // CUtlVector<uint16>
constexpr std::ptrdiff_t m_InitPos = 0x28; // CUtlVector<Vector>
constexpr std::ptrdiff_t m_Gravity = 0x40; // CUtlVector<float32>
constexpr std::ptrdiff_t m_GoalStrength = 0x58; // CUtlVector<float32>
constexpr std::ptrdiff_t m_GoalDamping = 0x70; // CUtlVector<float32>
}
// Parent: None
// Fields count: 1
//
// Metadata:
// MGetKV3ClassDefaults
namespace Dop26_t {
constexpr std::ptrdiff_t m_flSupport = 0x0; // float32[26]
}
// Parent: None
// Fields count: 2
//
// Metadata:
// MGetKV3ClassDefaults
namespace RnCapsule_t {
constexpr std::ptrdiff_t m_vCenter = 0x0; // Vector[2]
constexpr std::ptrdiff_t m_flRadius = 0x18; // float32
}
// Parent: None
// Fields count: 0
namespace KeyValues {
}
// Parent: None
// Fields count: 0
namespace CCompressor__Vector__ {
}
// Parent: None
// Fields count: 0
namespace CCompressor__QuaternionStorage__ {
}
// Parent: None
// Fields count: 0
namespace CCompressor__int32__ {
}
// Parent: None
// Fields count: 0
namespace CCompressor__bool__ {
}
// Parent: None
// Fields count: 0
namespace CCompressor__Color__ {
}
// Parent: None
// Fields count: 0
namespace CCompressor__Vector2D__ {
}
// Parent: None
// Fields count: 0
namespace CCompressor__Vector4D__ {
}
// Parent: CParticleFunctionConstraint
// Fields count: 5
//
// Metadata:
// MGetKV3ClassDefaults
namespace C_OP_ConstrainDistance {
constexpr std::ptrdiff_t m_fMinDistance = 0x1C0; // CParticleCollectionFloatInput
constexpr std::ptrdiff_t m_fMaxDistance = 0x318; // CParticleCollectionFloatInput
constexpr std::ptrdiff_t m_nControlPointNumber = 0x470; // int32
constexpr std::ptrdiff_t m_CenterOffset = 0x474; //
constexpr std::ptrdiff_t m_bGlobalCenter = 0x480; // bool
}
// Parent: CParticleFunctionConstraint
// Fields count: 2
//
// Metadata:
// MGetKV3ClassDefaults
namespace C_OP_CollideWithSelf {
constexpr std::ptrdiff_t m_flRadiusScale = 0x1C0; // CPerParticleFloatInput
constexpr std::ptrdiff_t m_flMinimumSpeed = 0x318; // CPerParticleFloatInput
}
// Parent: CParticleFunctionConstraint
// Fields count: 2
//
// Metadata:
// MGetKV3ClassDefaults
namespace C_OP_CollideWithParentParticles {
constexpr std::ptrdiff_t m_flParentRadiusScale = 0x1C0; // CPerParticleFloatInput
constexpr std::ptrdiff_t m_flRadiusScale = 0x318; // CPerParticleFloatInput
}
// Parent: CParticleFunctionConstraint
// Fields count: 8
//
// Metadata:
// MGetKV3ClassDefaults
namespace C_OP_ConstrainDistanceToPath {
constexpr std::ptrdiff_t m_fMinDistance = 0x1C0; // float32
constexpr std::ptrdiff_t m_flMaxDistance0 = 0x1C4; // float32
constexpr std::ptrdiff_t m_flMaxDistanceMid = 0x1C8; // float32
constexpr std::ptrdiff_t m_flMaxDistance1 = 0x1CC; // float32
constexpr std::ptrdiff_t m_PathParameters = 0x1D0; // CPathParameters
constexpr std::ptrdiff_t m_flTravelTime = 0x210; // float32
constexpr std::ptrdiff_t m_nFieldScale = 0x214; // ParticleAttributeIndex_t
constexpr std::ptrdiff_t m_nManualTField = 0x218; // ParticleAttributeIndex_t
}
// Parent: CParticleFunctionConstraint
// Fields count: 5
//
// Metadata:
// MGetKV3ClassDefaults
namespace C_OP_ConstrainDistanceToUserSpecifiedPath {
constexpr std::ptrdiff_t m_fMinDistance = 0x1C0; // float32
constexpr std::ptrdiff_t m_flMaxDistance = 0x1C4; // float32
constexpr std::ptrdiff_t m_flTimeScale = 0x1C8; // float32
constexpr std::ptrdiff_t m_bLoopedPath = 0x1CC; // bool
constexpr std::ptrdiff_t m_pointList = 0x1D0; // CUtlVector<PointDefinitionWithTimeValues_t>
}
// Parent: CParticleFunctionConstraint
// Fields count: 8
//
// Metadata:
// MGetKV3ClassDefaults
namespace C_OP_PlanarConstraint {
constexpr std::ptrdiff_t m_PointOnPlane = 0x1C0; //
constexpr std::ptrdiff_t m_PlaneNormal = 0x1CC; //
constexpr std::ptrdiff_t m_nControlPointNumber = 0x1D8; // int32
constexpr std::ptrdiff_t m_bGlobalOrigin = 0x1DC; // bool
constexpr std::ptrdiff_t m_bGlobalNormal = 0x1DD; // bool
constexpr std::ptrdiff_t m_flRadiusScale = 0x1E0; // CPerParticleFloatInput
constexpr std::ptrdiff_t m_flMaximumDistanceToCP = 0x338; // CParticleCollectionFloatInput
constexpr std::ptrdiff_t m_bUseOldCode = 0x490; // bool
}
// Parent: CParticleFunctionConstraint
// Fields count: 0
//
// Metadata:
// MGetKV3ClassDefaults
namespace C_OP_WorldCollideConstraint {
}
}
}
}