mirror of
https://github.com/GayPizzaSpecifications/padlab.git
synced 2025-08-03 13:11:32 +00:00
244 lines
6.7 KiB
C
244 lines
6.7 KiB
C
#include "stick.h"
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#include "draw.h"
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extern inline void InitDefaults(StickState* p);
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vector RadialDeadzone(vector v, double min, double max)
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{
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double mag = sqrt(v.x * v.x + v.y * v.y);
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if (mag <= min)
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return (vector){0.0, 0.0};
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if (mag >= max)
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return (vector){v.x / mag, v.y / mag};
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double rescale = (mag - min) / (max - min);
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return (vector){v.x / mag * rescale, v.y / mag * rescale};
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}
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vector DigitalEight(vector v, double angle, double deadzone)
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{
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vector res = {0, 0};
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if (fabs(v.x) * angle > fabs(v.y))
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{
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if (fabs(v.x) > deadzone)
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res.x = copysign(1.0, v.x);
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}
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else if (fabs(v.y) * angle > fabs(v.x))
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{
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if (fabs(v.y) > deadzone)
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res.y = copysign(1.0, v.y);
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}
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else if (fabs(v.x) + fabs(v.y) > deadzone * (1.0 + angle))
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{
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const double dscale = 1/sqrt(2);
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res.x = copysign(dscale, v.x);
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res.y = copysign(dscale, v.y);
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}
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return res;
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}
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static inline double AccelCurve(double x, double y)
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{
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return (x * (x + y)) / (1.0 + y);
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}
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vector ApplyAcceleration(vector v, double y)
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{
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double mag = sqrt(v.x * v.x + v.y * v.y);
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if (mag <= 0.0)
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return (vector){0.0, 0.0};
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double curve = AccelCurve(mag, y);
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return (vector){v.x / mag * curve, v.y / mag * curve};
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}
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extern inline void InitDefaults(StickState* p);
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void DrawAnalogue(const rect* win, StickState* p)
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{
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if (p->recalc)
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{
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p->compos = RadialDeadzone(p->rawpos, p->deadzone, 0.99);
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p->preaccel = sqrt(p->compos.x * p->compos.x + p->compos.y * p->compos.y);
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p->compos = ApplyAcceleration(p->compos, p->accelpow);
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p->postacel = sqrt(p->compos.x * p->compos.x + p->compos.y * p->compos.y);
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p->recalc = false;
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}
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double size = (double)(win->w > win->h ? win->h : win->w) * DISPLAY_SCALE;
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// range rect
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SetDrawColour(0x3F3F3FFF);
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const int rectSz = (int)round(size);
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DrawRect(
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win->x + (win->w - rectSz) / 2,
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win->y + (win->h - rectSz) / 2,
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rectSz, rectSz);
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const int ox = win->x + win->w / 2;
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const int oy = win->y + win->h / 2;
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// acceleration curve
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SetDrawColour(0x4F4F4FFF);
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const int accelsamp = (int)(sqrt(size) * 4.20);
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const double step = 1.0 / (double)accelsamp;
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double y1 = AccelCurve(0.0, p->accelpow);
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for (int i = 1; i <= accelsamp; ++i)
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{
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double y2 = AccelCurve(step * i, p->accelpow);
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DrawLine(
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win->x + (int)(step * (i - 1) * size) + (win->w - (int)round(size)) / 2,
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win->y + (int)((1.0 - y1) * size) + (win->h - (int)round(size)) / 2,
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win->x + (int)(step * i * size) + (win->w - (int)round(size)) / 2,
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win->y + (int)((1.0 - y2) * size) + (win->h - (int)round(size)) / 2);
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y1 = y2;
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}
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const int tickerx = (int)((p->preaccel - 0.5) * size);
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const int tickery = (int)((0.5 - p->postacel) * size);
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SetDrawColour(0x2F3F1FFF);
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DrawLine(
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ox + tickerx,
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win->y + (win->h - (int)round(size)) / 2,
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ox + tickerx,
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win->y + (win->h + (int)round(size)) / 2);
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SetDrawColour(0x2F5F2FFF);
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DrawLine(
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win->x + (win->w - (int)round(size)) / 2,
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oy + tickery,
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win->x + (win->w + (int)round(size)) / 2,
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oy + tickery);
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// guide circle
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SetDrawColour(0x4F4F4FFF);
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DrawCircle(ox, oy, (int)round(size) / 2);
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SetDrawColour(0x3F3F3FFF);
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DrawCircle(ox, oy, (int)round(p->deadzone * size) / 2);
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// 0,0 line axis'
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SetDrawColour(0x2F2F2FFF);
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DrawLine(
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win->x, oy,
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win->x + win->w, oy);
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DrawLine(
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ox, win->y,
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ox, win->y + win->h);
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// compensated position
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SetDrawColour(0x1FFF1FFF);
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DrawCircleSteps(
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ox + (int)round(p->compos.x * size / 2.0),
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oy + (int)round(p->compos.y * size / 2.0),
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8, 16);
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DrawPoint(
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ox + (int)round(p->compos.x * size / 2.0),
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oy + (int)round(p->compos.y * size / 2.0));
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// raw position
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SetDrawColour(0xFFFFFFFF);
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DrawLine(
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ox + (int)round(p->rawpos.x * size / 2.0) - 4,
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oy + (int)round(p->rawpos.y * size / 2.0),
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ox + (int)round(p->rawpos.x * size / 2.0) + 4,
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oy + (int)round(p->rawpos.y * size / 2.0));
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DrawLine(
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ox + (int)round(p->rawpos.x * size / 2.0),
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oy + (int)round(p->rawpos.y * size / 2.0) - 4,
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ox + (int)round(p->rawpos.x * size / 2.0),
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oy + (int)round(p->rawpos.y * size / 2.0) + 4);
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}
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void DrawDigital(const rect* win, StickState* p)
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{
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if (p->recalc)
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{
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p->compos = DigitalEight(p->rawpos, p->digiangle, p->digideadzone);
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p->recalc = false;
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}
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const double size = (double)(win->w > win->h ? win->h : win->w) * DISPLAY_SCALE;
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// range rect
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SetDrawColour(0x3F3F3FFF);
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const int rectSz = (int)round(size);
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DrawRect(
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win->x + (win->w - rectSz) / 2,
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win->y + (win->h - rectSz) / 2,
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rectSz, rectSz);
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// window centre
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const int ox = win->x + win->w / 2;
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const int oy = win->y + win->h / 2;
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// guide circle
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SetDrawColour(0x4F4F4FFF);
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DrawCircle(ox, oy, (int)round(size) / 2);
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// 0,0 line axis'
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SetDrawColour(0x2F2F2FFF);
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DrawLine(
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win->x, oy,
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win->x + win->w, oy);
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DrawLine(
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ox, win->y,
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ox, win->y + win->h);
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// calcuate points for the zone previews
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const double outerinvmag = 1.0 / sqrt(1.0 + p->digiangle * p->digiangle);
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const int outh = (int)round((size * outerinvmag) / 2.0);
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const int outq = (int)round((size * outerinvmag) / 2.0 * p->digiangle);
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const int innh = (int)round(p->digideadzone * size / 2.0);
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const int innq = (int)round(p->digideadzone * size / 2.0 * p->digiangle);
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SetDrawColour(0x3F3F3FFF);
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// angles preview
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DrawLine(ox - outq, oy - outh, ox - innq, oy - innh);
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DrawLine(ox + outq, oy - outh, ox + innq, oy - innh);
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DrawLine(ox + outh, oy - outq, ox + innh, oy - innq);
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DrawLine(ox + outh, oy + outq, ox + innh, oy + innq);
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DrawLine(ox + outq, oy + outh, ox + innq, oy + innh);
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DrawLine(ox - outq, oy + outh, ox - innq, oy + innh);
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DrawLine(ox - outh, oy + outq, ox - innh, oy + innq);
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DrawLine(ox - outh, oy - outq, ox - innh, oy - innq);
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// deadzone octagon
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DrawLine(ox - innq, oy - innh, ox + innq, oy - innh);
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DrawLine(ox + innq, oy - innh, ox + innh, oy - innq);
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DrawLine(ox + innh, oy - innq, ox + innh, oy - innq);
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DrawLine(ox + innh, oy - innq, ox + innh, oy + innq);
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DrawLine(ox + innh, oy + innq, ox + innq, oy + innh);
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DrawLine(ox + innq, oy + innh, ox - innq, oy + innh);
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DrawLine(ox - innq, oy + innh, ox - innh, oy + innq);
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DrawLine(ox - innh, oy + innq, ox - innh, oy - innq);
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DrawLine(ox - innh, oy - innq, ox - innq, oy - innh);
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// compensated position
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SetDrawColour(0x1FFF1FFF);
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DrawCircleSteps(
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ox + (int)round(p->compos.x * size / 2.0),
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oy + (int)round(p->compos.y * size / 2.0),
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8, 16);
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DrawPoint(
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ox + (int)round(p->compos.x * size / 2.0),
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oy + (int)round(p->compos.y * size / 2.0));
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// raw position
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SetDrawColour(0xFFFFFFFF);
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DrawLine(
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ox + (int)round(p->rawpos.x * size / 2.0) - 4,
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oy + (int)round(p->rawpos.y * size / 2.0),
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ox + (int)round(p->rawpos.x * size / 2.0) + 4,
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oy + (int)round(p->rawpos.y * size / 2.0));
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DrawLine(
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ox + (int)round(p->rawpos.x * size / 2.0),
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oy + (int)round(p->rawpos.y * size / 2.0) - 4,
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ox + (int)round(p->rawpos.x * size / 2.0),
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oy + (int)round(p->rawpos.y * size / 2.0) + 4);
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}
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