raze/source/core/binaryangle.h

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#pragma once
#include <math.h>
#include "m_fixed.h"
#include "xs_Float.h" // needed for reliably overflowing float->int conversions.
#include "build.h"
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// type safe representations of high precision angle and horizon values. Angle uses natural 32 bit overflow to clamp to one rotation.
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class binangle
{
unsigned int value;
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inline static constexpr double pi() { return 3.14159265358979323846; }
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constexpr binangle(unsigned int v) : value(v) {}
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friend constexpr binangle bamang(unsigned int v);
friend constexpr binangle q16ang(unsigned int v);
friend constexpr binangle buildang(unsigned int v);
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friend binangle radang(double v);
friend binangle degang(double v);
public:
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binangle() = default;
binangle(const binangle &other) = default;
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// This class intentionally makes no allowances for implicit type conversions because those would render it ineffective.
constexpr short asbuild() const { return value >> 21; }
constexpr fixed_t asq16() const { return value >> 5; }
constexpr double asrad() const { return value * (pi::pi() / 0x80000000u); }
constexpr double asdeg() const { return value * (90. / 0x40000000); }
constexpr unsigned asbam() const { return value; }
double fsin() const { return sin(asrad()); }
double fcos() const { return cos(asrad()); }
double ftan() const { return tan(asrad()); }
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int bsin() const { return sintable[asbuild()]; }
int bcos() const { return sintable[(asbuild() + 512) & 2047]; }
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#if 0 // This makes no sense
bool operator< (binangle other) const
{
return value < other.value;
}
bool operator> (binangle other) const
{
return value > other.value;
}
bool operator<= (binangle other) const
{
return value <= other.value;
}
bool operator>= (binangle other) const
{
return value >= other.value;
}
#endif
constexpr bool operator== (binangle other) const
{
return value == other.value;
}
constexpr bool operator!= (binangle other) const
{
return value != other.value;
}
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constexpr binangle &operator+= (binangle other)
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{
value += other.value;
return *this;
}
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constexpr binangle &operator-= (binangle other)
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{
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value -= other.value;
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return *this;
}
constexpr binangle operator+ (binangle other) const
{
return binangle(value + other.value);
}
constexpr binangle operator- (binangle other) const
{
return binangle(value - other.value);
}
void interpolate(binangle a1, binangle a2, fixed_t smoothratio)
{
// Calculate in floating point to reduce the error caused by overflows which are to be expected here and then downconvert using a method that is safe to overflow.
// We do not want fixed point multiplications here to trash the result.
double smooth = smoothratio / 65536.f;
value = xs_CRoundToUInt(double(a1.asbam()) + smooth * (double(a2.asbam()) - double(a1.asbam())));
}
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};
class fixedhoriz
{
int value;
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constexpr fixedhoriz(int v) : value(v) {}
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friend constexpr fixedhoriz q16horiz(int v);
friend constexpr fixedhoriz buildhoriz(int v);
public:
fixedhoriz() = default;
fixedhoriz(const fixedhoriz &other) = default;
// This class intentionally makes no allowances for implicit type conversions because those would render it ineffective.
short asbuild() const { return FixedToInt(value); }
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constexpr fixed_t asq16() const { return value; }
bool operator< (fixedhoriz other) const
{
return value < other.value;
}
bool operator> (fixedhoriz other) const
{
return value > other.value;
}
bool operator<= (fixedhoriz other) const
{
return value <= other.value;
}
bool operator>= (fixedhoriz other) const
{
return value >= other.value;
}
constexpr bool operator== (fixedhoriz other) const
{
return value == other.value;
}
constexpr bool operator!= (fixedhoriz other) const
{
return value != other.value;
}
constexpr fixedhoriz &operator+= (fixedhoriz other)
{
value += other.value;
return *this;
}
constexpr fixedhoriz &operator-= (fixedhoriz other)
{
value -= other.value;
return *this;
}
constexpr fixedhoriz operator- () const
{
return fixedhoriz(-value);
}
constexpr fixedhoriz operator+ (fixedhoriz other) const
{
return fixedhoriz(value + other.value);
}
constexpr fixedhoriz operator- (fixedhoriz other) const
{
return fixedhoriz(value - other.value);
}
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};
inline constexpr binangle bamang(unsigned int v) { return binangle(v); }
inline constexpr binangle q16ang(unsigned int v) { return binangle(v << 5); }
inline constexpr binangle buildang(unsigned int v) { return binangle(v << 21); }
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inline binangle radang(double v) { return binangle(xs_CRoundToUInt(v * (0x80000000u / binangle::pi()))); }
inline binangle degang(double v) { return binangle(xs_CRoundToUInt(v * (0x40000000 / 90.))); }
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inline constexpr fixedhoriz q16horiz(int v) { return fixedhoriz(v); }
inline constexpr fixedhoriz buildhoriz(int v) { return fixedhoriz(IntToFixed(v)); }
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