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Particle spawner: Move definitions to source 

Long functions were moved to the source file to keep the header
short to speed up compiling. This has no functional change.
This commit is contained in:
SmallJoker 2023-04-05 20:22:38 +02:00 committed by SmallJoker
parent 9c9309cdbb
commit f8e0778fc9
2 changed files with 136 additions and 97 deletions
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114
src/particles.cpp
View File

@ -19,8 +19,122 @@ with this program; if not, write to the Free Software Foundation, Inc.,
#include "particles.h" #include "particles.h"
#include <type_traits> #include <type_traits>
using namespace ParticleParamTypes; using namespace ParticleParamTypes;
template<typename T>
void RangedParameter<T>::serialize(std::ostream &os) const
{
min.serialize(os);
max.serialize(os);
writeF32(os, bias);
}
template<typename T>
void RangedParameter<T>::deSerialize(std::istream &is)
{
min.deSerialize(is);
max.deSerialize(is);
bias = readF32(is);
}
template<typename T>
T RangedParameter<T>::pickWithin() const
{
typename T::pickFactors values;
auto p = numericAbsolute(bias) + 1;
for (size_t i = 0; i < sizeof(values) / sizeof(values[0]); ++i) {
if (bias < 0)
values[i] = 1.0f - pow(myrand_float(), p);
else
values[i] = pow(myrand_float(), p);
}
return T::pick(values, min, max);
}
template<typename T>
T TweenedParameter<T>::blend(float fac) const
{
// warp time coordinates in accordance w/ settings
if (fac > beginning) {
// remap for beginning offset
auto len = 1 - beginning;
fac -= beginning;
fac /= len;
// remap for repetitions
fac *= reps;
if (fac > 1) // poor man's modulo
fac -= (decltype(reps))fac;
// remap for style
switch (style) {
case TweenStyle::fwd: /* do nothing */ break;
case TweenStyle::rev: fac = 1.0f - fac; break;
case TweenStyle::pulse:
case TweenStyle::flicker: {
if (fac > 0.5f) {
fac = 1.f - (fac*2.f - 1.f);
} else {
fac = fac * 2;
}
if (style == TweenStyle::flicker) {
fac *= myrand_range(0.7f, 1.0f);
}
}
}
if (fac>1.f)
fac = 1.f;
else if (fac<0.f)
fac = 0.f;
} else {
fac = (style == TweenStyle::rev) ? 1.f : 0.f;
}
return start.interpolate(fac, end);
}
template<typename T>
void TweenedParameter<T>::serialize(std::ostream &os) const
{
writeU8(os, static_cast<u8>(style));
writeU16(os, reps);
writeF32(os, beginning);
start.serialize(os);
end.serialize(os);
}
template<typename T>
void TweenedParameter<T>::deSerialize(std::istream &is)
{
style = static_cast<TweenStyle>(readU8(is));
reps = readU16(is);
beginning = readF32(is);
start.deSerialize(is);
end.deSerialize(is);
}
namespace ParticleParamTypes {
// For function definitions
template struct RangedParameter<v3fParameter>;
template struct RangedParameter<f32Parameter>;
template struct TweenedParameter<v2fParameter>;
template struct TweenedParameter<v3fParameter>;
template struct TweenedParameter<f32Parameter>;
template struct TweenedParameter<v3fRange>;
template struct TweenedParameter<f32Range>;
}
// Linear interpolation
template <typename T>
static T numericalBlend(float fac, T min, T max)
{
return min + ((max - min) * fac);
}
#define PARAM_PVFN(n) ParticleParamTypes::n##ParameterValue #define PARAM_PVFN(n) ParticleParamTypes::n##ParameterValue
v2f PARAM_PVFN(pick) (float* f, const v2f a, const v2f b) { v2f PARAM_PVFN(pick) (float* f, const v2f a, const v2f b) {
return v2f( return v2f(

119
src/particles.h
View File

@ -49,6 +49,7 @@ namespace ParticleParamTypes
type interpolateParameterValue(float fac, const type a, const type b); \ type interpolateParameterValue(float fac, const type a, const type b); \
type pickParameterValue (float* facs, const type a, const type b); type pickParameterValue (float* facs, const type a, const type b);
// Function definition: see "particles.cpp"
DECL_PARAM_OVERLOADS(u8); DECL_PARAM_OVERLOADS(s8); DECL_PARAM_OVERLOADS(u8); DECL_PARAM_OVERLOADS(s8);
DECL_PARAM_OVERLOADS(u16); DECL_PARAM_OVERLOADS(s16); DECL_PARAM_OVERLOADS(u16); DECL_PARAM_OVERLOADS(s16);
DECL_PARAM_OVERLOADS(u32); DECL_PARAM_OVERLOADS(s32); DECL_PARAM_OVERLOADS(u32); DECL_PARAM_OVERLOADS(s32);
@ -83,8 +84,7 @@ namespace ParticleParamTypes
k = (E)v; k = (E)v;
} }
/* this is your brain on C++. */ // Describes a single value
template <typename T, size_t PN> template <typename T, size_t PN>
struct Parameter struct Parameter
{ {
@ -119,9 +119,8 @@ namespace ParticleParamTypes
}; };
template <typename T> T numericalBlend(float fac, T min, T max) // New struct required to differentiate between core::vectorNd-compatible
{ return min + ((max - min) * fac); } // structs for proper value dumping (debugging)
template <typename T, size_t N> template <typename T, size_t N>
struct VectorParameter : public Parameter<T,N> { struct VectorParameter : public Parameter<T,N> {
using This = VectorParameter<T,N>; using This = VectorParameter<T,N>;
@ -146,15 +145,12 @@ namespace ParticleParamTypes
return oss.str(); return oss.str();
} }
using u8Parameter = Parameter<u8, 1>; using s8Parameter = Parameter<s8, 1>;
using u16Parameter = Parameter<u16, 1>; using s16Parameter = Parameter<s16, 1>;
using u32Parameter = Parameter<u32, 1>; using s32Parameter = Parameter<s32, 1>;
using f32Parameter = Parameter<f32, 1>; using f32Parameter = Parameter<f32, 1>;
using v2fParameter = VectorParameter<v2f, 2>; using v2fParameter = VectorParameter<v2f, 2>;
using v3fParameter = VectorParameter<v3f, 3>; using v3fParameter = VectorParameter<v3f, 3>;
// Add more parameter types here if you need them ...
// Bound limits information based on "Parameter" types
template <typename T> template <typename T>
struct RangedParameter struct RangedParameter
{ {
@ -168,31 +164,20 @@ namespace ParticleParamTypes
RangedParameter(T _min, T _max) : min(_min), max(_max) {} RangedParameter(T _min, T _max) : min(_min), max(_max) {}
template <typename M> RangedParameter(M b) : min(b), max(b) {} template <typename M> RangedParameter(M b) : min(b), max(b) {}
// these functions handle the old range serialization "format"; bias must // Binary format must not be changed. Function is to be deprecated.
// be manually encoded in a separate part of the stream. NEVER ADD FIELDS void legacySerialize(std::ostream &os) const
// TO THESE FUNCTIONS
void legacySerialize(std::ostream& os) const
{ {
min.serialize(os); min.serialize(os);
max.serialize(os); max.serialize(os);
} }
void legacyDeSerialize(std::istream& is) void legacyDeSerialize(std::istream &is)
{ {
min.deSerialize(is); min.deSerialize(is);
max.deSerialize(is); max.deSerialize(is);
} }
// these functions handle the format used by new fields. new fields go here void serialize(std::ostream &os) const;
void serialize(std::ostream &os) const void deSerialize(std::istream &is);
{
legacySerialize(os);
writeF32(os, bias);
}
void deSerialize(std::istream &is)
{
legacyDeSerialize(is);
bias = readF32(is);
}
This interpolate(float fac, const This against) const This interpolate(float fac, const This against) const
{ {
@ -203,19 +188,8 @@ namespace ParticleParamTypes
return r; return r;
} }
T pickWithin() const // Pick a random value (e.g. position) within bounds
{ T pickWithin() const;
typename T::pickFactors values;
auto p = numericAbsolute(bias) + 1;
for (size_t i = 0; i < sizeof(values) / sizeof(values[0]); ++i) {
if (bias < 0)
values[i] = 1.0f - pow(myrand_float(), p);
else
values[i] = pow(myrand_float(), p);
}
return T::pick(values, min, max);
}
}; };
template <typename T> template <typename T>
@ -229,8 +203,10 @@ namespace ParticleParamTypes
return s.str(); return s.str();
} }
// Animation styles (fwd is normal, linear interpolation)
enum class TweenStyle : u8 { fwd, rev, pulse, flicker }; enum class TweenStyle : u8 { fwd, rev, pulse, flicker };
// "Tweened" pretty much means "animated" in this context
template <typename T> template <typename T>
struct TweenedParameter struct TweenedParameter
{ {
@ -238,72 +214,21 @@ namespace ParticleParamTypes
using This = TweenedParameter<T>; using This = TweenedParameter<T>;
TweenStyle style = TweenStyle::fwd; TweenStyle style = TweenStyle::fwd;
u16 reps = 1; u16 reps = 1; // Blending repetitions (same pattern)
f32 beginning = 0.0f; f32 beginning = 0.0f; // Blending start offset
T start, end; T start, end;
TweenedParameter() = default; TweenedParameter() = default;
TweenedParameter(T _start, T _end) : start(_start), end(_end) {} TweenedParameter(T _start, T _end) : start(_start), end(_end) {}
// For initializer lists and assignment
template <typename M> TweenedParameter(M b) : start(b), end(b) {} template <typename M> TweenedParameter(M b) : start(b), end(b) {}
T blend(float fac) const // Blend (or animate) the current value
{ T blend(float fac) const;
// warp time coordinates in accordance w/ settings
if (fac > beginning) {
// remap for beginning offset
auto len = 1 - beginning;
fac -= beginning;
fac /= len;
// remap for repetitions void serialize(std::ostream &os) const;
fac *= reps; void deSerialize(std::istream &is);
if (fac > 1) // poor man's modulo
fac -= (decltype(reps))fac;
// remap for style
switch (style) {
case TweenStyle::fwd: /* do nothing */ break;
case TweenStyle::rev: fac = 1.0f - fac; break;
case TweenStyle::pulse:
case TweenStyle::flicker: {
if (fac > 0.5f) {
fac = 1.f - (fac*2.f - 1.f);
} else {
fac = fac * 2;
}
if (style == TweenStyle::flicker) {
fac *= myrand_range(0.7f, 1.0f);
}
}
}
if (fac>1.f)
fac = 1.f;
else if (fac<0.f)
fac = 0.f;
} else {
fac = (style == TweenStyle::rev) ? 1.f : 0.f;
}
return start.interpolate(fac, end);
}
void serialize(std::ostream &os) const
{
writeU8(os, static_cast<u8>(style));
writeU16(os, reps);
writeF32(os, beginning);
start.serialize(os);
end.serialize(os);
}
void deSerialize(std::istream &is)
{
style = static_cast<TweenStyle>(readU8(is));
reps = readU16(is);
beginning = readF32(is);
start.deSerialize(is);
end.deSerialize(is);
}
}; };
template <typename T> template <typename T>