metaforce/DataSpec/DNAMP1/ScriptObjects/Water.hpp

205 lines
6.5 KiB
C++

#ifndef _DNAMP1_WATER_HPP_
#define _DNAMP1_WATER_HPP_
#include "../../DNACommon/DNACommon.hpp"
#include "IScriptObject.hpp"
#include "Parameters.hpp"
namespace DataSpec
{
namespace DNAMP1
{
struct Water : IScriptObject
{
DECL_YAML
String<-1> name;
Value<atVec3f> location;
Value<atVec3f> volume;
DamageInfo damageInfo;
Value<atVec3f> orientedForce;
Value<atUint32> triggerFlags;
Value<bool> thermalCold;
Value<bool> displaySurface;
UniqueID32 patternMap1;
UniqueID32 patternMap2;
UniqueID32 colorMap;
UniqueID32 bumpMap;
UniqueID32 envMap;
UniqueID32 envBumpMap;
Value<atVec3f> bumpLightDir;
Value<float> bumpScale;
Value<float> morphInTime;
Value<float> morphOutTime;
Value<bool> active;
Value<atUint32> fluidType;
Value<bool> unknownBool;
Value<float> alpha;
struct FluidUVMotion : BigYAML
{
DECL_YAML
struct FluidLayerMotion : BigYAML
{
DECL_YAML
Value<atUint32> motionType;
Value<float> timeToWrap;
Value<float> orientation;
Value<float> magnitude;
Value<float> uvMul;
};
FluidLayerMotion pattern1Layer;
FluidLayerMotion pattern2Layer;
FluidLayerMotion colorLayer;
Value<float> timeToWrap;
Value<float> orientation;
} fluidUVMotion;
Value<float> turbulenceSpeed;
Value<float> turbulenceDistance;
Value<float> turbulenceFrequencyMax;
Value<float> turbulenceFrequencyMin;
Value<float> turbulencePhaseMax;
Value<float> turbulencePhaseMin;
Value<float> turbulenceAmplitudeMax;
Value<float> turbulenceAmplitudeMin;
Value<atVec4f> splashColor;
Value<atVec4f> unkColor;
UniqueID32 splashParticle1;
UniqueID32 splashParticle2;
UniqueID32 splashParticle3;
UniqueID32 visorRunoffParticle;
UniqueID32 unmorphVisorRunoffParticle;
Value<atUint32> visorRunoffSfx;
Value<atUint32> unmorphVisorRunoffSfx;
Value<atUint32> splashSfx1;
Value<atUint32> splashSfx2;
Value<atUint32> splashSfx3;
Value<float> tileSize;
Value<atUint32> tileSubdivisions;
Value<float> specularMin;
Value<float> specularMax;
Value<float> reflectionSize;
Value<float> rippleIntensity;
Value<float> reflectionBlend;
Value<float> fogBias;
Value<float> fogMagnitude;
Value<float> fogSpeed;
Value<atVec4f> fogColor;
UniqueID32 lightmap;
Value<float> unitsPerLightmapTexel;
Value<float> alphaInTime;
Value<float> alphaOutTime;
Value<atUint32> unusedInt1;
Value<atUint32> unusedInt2;
struct UnusedBitset : BigYAML
{
Delete _d;
void read(athena::io::IStreamReader& in)
{
if (in.readBool())
{
atUint32 bitVal0 = in.readUint16Big();
atUint32 bitVal1 = in.readUint16Big();
atUint32 len = ((bitVal0 * bitVal1) + 31) / 31;
in.seek(len * 4);
}
}
void write(athena::io::IStreamWriter& out) const { out.writeBool(false); }
void read(athena::io::YAMLDocReader& reader) {}
void write(athena::io::YAMLDocWriter& writer) const {}
size_t binarySize(size_t __isz) const { return __isz + 1; }
} unusedBitset;
void nameIDs(PAKRouter<PAKBridge>& pakRouter) const
{
if (patternMap1)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(patternMap1);
ent->name = name + "_patternMap1";
}
if (patternMap2)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(patternMap2);
ent->name = name + "_patternMap2";
}
if (colorMap)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(colorMap);
ent->name = name + "_colorMap";
}
if (bumpMap)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(bumpMap);
ent->name = name + "_bumpMap";
}
if (envMap)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(envMap);
ent->name = name + "_envMap";
}
if (envBumpMap)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(envBumpMap);
ent->name = name + "_envBumpMap";
}
if (lightmap)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(lightmap);
ent->name = name + "_lightmap";
}
if (splashParticle1)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(splashParticle1);
ent->name = name + "_splashParticle1";
}
if (splashParticle2)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(splashParticle2);
ent->name = name + "_splashParticle2";
}
if (splashParticle3)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(splashParticle3);
ent->name = name + "_splashParticle3";
}
if (visorRunoffParticle)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(visorRunoffParticle);
ent->name = name + "_visorRunoffParticle";
}
if (unmorphVisorRunoffParticle)
{
PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(unmorphVisorRunoffParticle);
ent->name = name + "_unmorphVisorRunoffParticle";
}
}
void gatherDependencies(std::vector<hecl::ProjectPath>& pathsOut) const
{
g_curSpec->flattenDependencies(patternMap1, pathsOut);
g_curSpec->flattenDependencies(patternMap2, pathsOut);
g_curSpec->flattenDependencies(colorMap, pathsOut);
g_curSpec->flattenDependencies(bumpMap, pathsOut);
g_curSpec->flattenDependencies(envMap, pathsOut);
g_curSpec->flattenDependencies(envBumpMap, pathsOut);
g_curSpec->flattenDependencies(lightmap, pathsOut);
g_curSpec->flattenDependencies(splashParticle1, pathsOut);
g_curSpec->flattenDependencies(splashParticle2, pathsOut);
g_curSpec->flattenDependencies(splashParticle3, pathsOut);
g_curSpec->flattenDependencies(visorRunoffParticle, pathsOut);
g_curSpec->flattenDependencies(unmorphVisorRunoffParticle, pathsOut);
}
zeus::CAABox getVISIAABB(hecl::BlenderToken& btok) const
{
zeus::CVector3f halfExtent = zeus::CVector3f(volume) / 2.f;
zeus::CVector3f loc(location);
return zeus::CAABox(loc - halfExtent, loc + halfExtent);
}
};
}
}
#endif