JacksEscape/Types.c

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C
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#include "Types.h"
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#include <windows.h>
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static inline double dmin(double x, double y) {
return x < y ? x : y;
}
static inline double dmax(double x, double y) {
return x > y ? x : y;
}
Vec2 vec2_Add(Vec2 x, Vec2 y) {
Vec2 result = {
.x = x.x + y.x,
.y = x.y + y.y};
return result;
}
Vec2 vec2_Scale(Vec2 v, double scale) {
Vec2 result = {
.x = v.x * scale,
.y = v.y * scale};
return result;
}
bool box2_Intersects(const Box2 x, const Box2 y, Box2 *out_intersection) {
// Compute the min and max of the first rectangle on both axes
const double r1MinX = dmin(x.lefttop.x, x.lefttop.x + x.size.x);
const double r1MaxX = dmax(x.lefttop.x, x.lefttop.x + x.size.x);
const double r1MinY = dmin(x.lefttop.y, x.lefttop.x + x.size.x);
const double r1MaxY = dmax(x.lefttop.y, x.lefttop.x + x.size.x);
// Compute the min and max of the second rectangle on both axes
const double r2MinX = dmin(y.lefttop.x, y.lefttop.x + y.size.x);
const double r2MaxX = dmax(y.lefttop.x, y.lefttop.x + y.size.x);
const double r2MinY = dmin(y.lefttop.y, y.lefttop.y + y.size.y);
const double r2MaxY = dmax(y.lefttop.y, y.lefttop.y + y.size.y);
// Compute the intersection boundaries
const double interLeft = dmax(r1MinX, r2MinX);
const double interTop = dmax(r1MinY, r2MinY);
const double interRight = dmin(r1MaxX, r2MaxX);
const double interBottom = dmin(r1MaxY, r2MaxY);
// If the intersection is valid (positive non zero area), then there is an intersection
if ((interLeft < interRight) && (interTop < interBottom)) {
if (out_intersection) {
out_intersection->lefttop.x = interLeft;
out_intersection->lefttop.y = interTop;
out_intersection->size.x = interRight - interLeft;
out_intersection->size.y = interBottom - interTop;
}
return true;
} else {
return false;
}
}
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Box2 box2_Offset(Box2 box, Vec2 offset) {
box.lefttop = vec2_Add(box.lefttop, offset);
return box;
}
Box2 box2_OffsetX(Box2 box, double offsetX) {
box.lefttop.x += offsetX;
return box;
}
Box2 box2_OffsetY(Box2 box, double offsetY) {
box.lefttop.y += offsetY;
return box;
}
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static double freqInverse = 0.0;
TimePoint time_Now() {
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// Reference: https://github.com/SFML/SFML/blob/2.6.x/src/SFML/System/Win32/ClockImpl.cpp
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if (freqInverse == 0.0) {
LARGE_INTEGER freq;
QueryPerformanceFrequency(&freq);
freqInverse = 1000000.0 / ((double)freq.QuadPart);
}
LARGE_INTEGER time;
QueryPerformanceCounter(&time);
TimePoint t = {.microseconds = (int64_t)(((double)time.QuadPart) * freqInverse)};
return t;
}
Duration time_Since(TimePoint prev) {
return time_Difference(time_Now(), prev);
}
Duration time_Difference(TimePoint now, TimePoint prev) {
Duration d = {.microseconds = now.microseconds - prev.microseconds};
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return d;
}