metaforce/Runtime/Character/CPASAnimState.cpp

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#include "Runtime/Character/CPASAnimState.hpp"
#include "Runtime/CRandom16.hpp"
#include "Runtime/rstl.hpp"
#include "Runtime/Character/CPASAnimParmData.hpp"
#include <algorithm>
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#include <cfloat>
#include <cmath>
#include <zeus/Math.hpp>
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namespace urde {
CPASAnimState::CPASAnimState(CInputStream& in) {
x0_id = in.readUint32Big();
u32 parmCount = in.readUint32Big();
u32 animCount = in.readUint32Big();
x4_parms.reserve(parmCount);
x14_anims.reserve(animCount);
x24_selectionCache.reserve(animCount);
for (u32 i = 0; i < parmCount; ++i)
x4_parms.emplace_back(in);
for (u32 i = 0; i < animCount; ++i) {
s32 id = in.readUint32Big();
rstl::reserved_vector<CPASAnimParm::UParmValue, 8> parms;
for (const CPASParmInfo& parm : x4_parms) {
CPASAnimParm::UParmValue val = {};
switch (parm.GetParameterType()) {
case CPASAnimParm::EParmType::Int32:
val.m_int = in.readInt32Big();
break;
case CPASAnimParm::EParmType::UInt32:
val.m_uint = in.readUint32Big();
break;
case CPASAnimParm::EParmType::Float:
val.m_float = in.readFloatBig();
break;
case CPASAnimParm::EParmType::Bool:
val.m_bool = in.readBool();
break;
case CPASAnimParm::EParmType::Enum:
val.m_int = in.readInt32Big();
break;
default:
break;
}
parms.push_back(val);
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}
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auto search =
std::lower_bound(x14_anims.begin(), x14_anims.end(), id,
[](const CPASAnimInfo& item, const u32& testId) -> bool { return item.GetAnimId() < testId; });
x14_anims.emplace(search, id, std::move(parms));
}
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}
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CPASAnimState::CPASAnimState(int stateId) : x0_id(stateId) {}
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CPASAnimParm CPASAnimState::GetAnimParmData(s32 animId, u32 parmIdx) const {
auto search = rstl::binary_find(x14_anims.begin(), x14_anims.end(), animId,
[](const CPASAnimInfo& item) { return item.GetAnimId(); });
if (search == x14_anims.end())
return CPASAnimParm::NoParameter();
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CPASParmInfo parm = x4_parms.at(parmIdx);
return (*search).GetAnimParmData(parmIdx, parm.GetParameterType());
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}
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s32 CPASAnimState::PickRandomAnimation(CRandom16& rand) const {
if (x24_selectionCache.size() == 1)
return x24_selectionCache[0];
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if (x24_selectionCache.size() > 1) {
u32 idx = u32(floor(rand.Float()));
if (idx == x24_selectionCache.size())
idx--;
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return x24_selectionCache[idx];
}
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return -1;
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}
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std::pair<float, s32> CPASAnimState::FindBestAnimation(const rstl::reserved_vector<CPASAnimParm, 8>& parms,
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CRandom16& rand, s32 ignoreAnim) const {
const_cast<std::vector<s32>*>(&x24_selectionCache)->clear();
float weight = -1.f;
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for (const CPASAnimInfo& info : x14_anims) {
if (info.GetAnimId() == ignoreAnim)
continue;
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float calcWeight = 1.f;
if (x4_parms.size() > 0)
calcWeight = 0.f;
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u32 unweightedCount = 0;
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for (u32 i = 0; i < x4_parms.size(); ++i) {
CPASAnimParm::UParmValue val = info.GetAnimParmValue(i);
const CPASParmInfo& parmInfo = x4_parms[i];
float parmWeight = parmInfo.GetParameterWeight();
float computedWeight = 0.f;
switch (parmInfo.GetWeightFunction()) {
case CPASParmInfo::EWeightFunction::AngularPercent:
computedWeight = ComputeAngularPercentErrorWeight(i, parms[i], val);
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break;
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case CPASParmInfo::EWeightFunction::ExactMatch:
computedWeight = ComputeExactMatchWeight(i, parms[i], val);
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break;
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case CPASParmInfo::EWeightFunction::PercentError:
computedWeight = ComputePercentErrorWeight(i, parms[i], val);
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break;
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case CPASParmInfo::EWeightFunction::NoWeight:
unweightedCount++;
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break;
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default:
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break;
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}
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calcWeight += parmWeight * computedWeight;
}
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if (unweightedCount == x4_parms.size())
calcWeight = 1.0f;
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if (calcWeight > weight) {
const_cast<std::vector<s32>*>(&x24_selectionCache)->clear();
const_cast<std::vector<s32>*>(&x24_selectionCache)->push_back(info.GetAnimId());
weight = calcWeight;
} else if (weight == calcWeight) {
const_cast<std::vector<s32>*>(&x24_selectionCache)->push_back(info.GetAnimId());
weight = calcWeight;
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}
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}
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return {weight, PickRandomAnimation(rand)};
}
float CPASAnimState::ComputeExactMatchWeight(u32, const CPASAnimParm& parm, CPASAnimParm::UParmValue parmVal) const {
switch (parm.GetParameterType()) {
case CPASAnimParm::EParmType::Int32:
return (parm.GetInt32Value() == parmVal.m_int ? 1.f : 0.f);
case CPASAnimParm::EParmType::UInt32:
return (parm.GetUint32Value() == parmVal.m_uint ? 1.f : 0.f);
case CPASAnimParm::EParmType::Float:
return ((parmVal.m_float - parm.GetReal32Value()) < FLT_EPSILON ? 1.f : 0.f);
case CPASAnimParm::EParmType::Bool:
return (parm.GetBoolValue() == parmVal.m_bool ? 1.f : 0.f);
case CPASAnimParm::EParmType::Enum:
return (parm.GetEnumValue() == parmVal.m_int ? 1.f : 0.f);
default:
break;
}
return 0.f;
}
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float CPASAnimState::ComputePercentErrorWeight(u32 idx, const CPASAnimParm& parm,
CPASAnimParm::UParmValue parmVal) const {
float range = 0.f;
float val = 0.f;
switch (parm.GetParameterType()) {
case CPASAnimParm::EParmType::Int32: {
const CPASParmInfo& info = x4_parms[idx];
range = info.GetWeightMaxValue().m_int - info.GetWeightMinValue().m_int;
val = std::fabs(parm.GetInt32Value() - parmVal.m_int);
break;
}
case CPASAnimParm::EParmType::UInt32: {
const CPASParmInfo& info = x4_parms[idx];
range = info.GetWeightMaxValue().m_uint - info.GetWeightMinValue().m_uint;
val = std::fabs(int(parmVal.m_uint) - int(parm.GetUint32Value()));
break;
}
case CPASAnimParm::EParmType::Float: {
const CPASParmInfo& info = x4_parms[idx];
range = info.GetWeightMaxValue().m_float - info.GetWeightMinValue().m_float;
val = std::fabs(parm.GetReal32Value() - parmVal.m_float);
break;
}
case CPASAnimParm::EParmType::Bool: {
val = parm.GetBoolValue() == parmVal.m_bool ? 0.f : 1.f;
break;
}
case CPASAnimParm::EParmType::Enum: {
const CPASParmInfo& info = x4_parms[idx];
range = info.GetWeightMaxValue().m_int - info.GetWeightMinValue().m_int;
val = std::fabs(parm.GetEnumValue() - parmVal.m_int);
break;
}
default:
break;
}
if (range > FLT_EPSILON)
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return 1.f - val / range;
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return (val < FLT_EPSILON ? 1.f : 0.f);
}
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float CPASAnimState::ComputeAngularPercentErrorWeight(u32 idx, const CPASAnimParm& parm,
CPASAnimParm::UParmValue parmVal) const {
float range = 0.f;
float val = 0.f;
switch (parm.GetParameterType()) {
case CPASAnimParm::EParmType::Int32: {
const CPASParmInfo& info = x4_parms[idx];
range = info.GetWeightMaxValue().m_int - info.GetWeightMinValue().m_int;
val = std::fabs(parmVal.m_int - parm.GetInt32Value());
break;
}
case CPASAnimParm::EParmType::UInt32: {
const CPASParmInfo& info = x4_parms[idx];
range = info.GetWeightMaxValue().m_uint - info.GetWeightMinValue().m_uint;
val = std::fabs(int(parmVal.m_uint) - int(parm.GetUint32Value()));
break;
}
case CPASAnimParm::EParmType::Float: {
const CPASParmInfo& info = x4_parms[idx];
range = info.GetWeightMaxValue().m_float - info.GetWeightMinValue().m_float;
val = std::fabs(parm.GetReal32Value() - parmVal.m_float);
break;
}
case CPASAnimParm::EParmType::Bool: {
val = parm.GetBoolValue() == parmVal.m_bool ? 0.f : 1.f;
break;
}
case CPASAnimParm::EParmType::Enum: {
const CPASParmInfo& info = x4_parms[idx];
range = info.GetWeightMaxValue().m_int - info.GetWeightMinValue().m_int + 1;
val = std::fabs(parm.GetEnumValue() - parmVal.m_int);
break;
}
default:
break;
}
if (range > FLT_EPSILON) {
float mid = 0.5f * range;
float offset = 1.f - ((val > mid ? range - val : val) / mid);
return zeus::clamp(0.f, offset, 1.f);
}
return (val >= FLT_EPSILON ? 0.f : 1.f);
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}
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} // namespace urde