471 lines
10 KiB
C
471 lines
10 KiB
C
#include "gameobject.h"
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#include "2dphysics.h"
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#include "debugdraw.h"
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#include "input.h"
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#include "log.h"
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#include "resources.h"
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#include "script.h"
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#include "shader.h"
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#include "sprite.h"
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#include <chipmunk/chipmunk.h>
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#include <string.h>
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#include "debugdraw.h"
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#include "stb_ds.h"
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struct gameobject *gameobjects = NULL;
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static int first = -1;
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const int nameBuf[MAXNAME] = {0};
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const int prefabNameBuf[MAXNAME] = {0};
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struct gameobject *get_gameobject_from_id(int id) {
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if (id < 0) return NULL;
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return &gameobjects[id];
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}
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struct gameobject *id2go(int id) {
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if (id < 0) return NULL;
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return &gameobjects[id];
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}
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int body2id(cpBody *body) {
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return (int)cpBodyGetUserData(body);
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}
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cpBody *id2body(int id) {
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struct gameobject *go = id2go(id);
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if (go)
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return go->body;
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return NULL;
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}
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int shape2gameobject(cpShape *shape) {
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struct phys2d_shape *s = cpShapeGetUserData(shape);
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return s->go;
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}
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struct gameobject *shape2go(cpShape *shape)
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{
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return id2go(shape2gameobject(shape));
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}
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HMM_Vec2 go2pos(struct gameobject *go)
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{
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cpVect p = cpBodyGetPosition(go->body);
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return (HMM_Vec2){p.x, p.y};
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}
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float go2angle(struct gameobject *go)
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{
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return cpBodyGetAngle(go->body);
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}
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transform2d mat2transform2d(HMM_Mat3 mat)
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{
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}
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HMM_Mat3 mt_t(transform2d t)
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{
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HMM_Mat3 p = HMM_M3D(1);
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p.Columns[2].X = t.pos.X;
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p.Columns[2].Y = t.pos.Y;
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return p;
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}
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HMM_Mat3 mt_s(transform2d t)
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{
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HMM_Mat3 s = HMM_M3D(1);
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s.Columns[0].X = t.scale.X;
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s.Columns[1].Y = t.scale.Y;
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return s;
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}
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HMM_Mat3 mt_r(transform2d t)
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{
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HMM_Mat3 r = HMM_M3D(1);
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r.Columns[0] = (HMM_Vec3){cos(t.angle), sin(t.angle), 0};
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r.Columns[1] = (HMM_Vec3){-sin(t.angle), cos(t.angle), 0};
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return r;
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}
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HMM_Mat3 transform2d2mat(transform2d t)
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{
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return HMM_MulM3(mt_t(t), HMM_MulM3(mt_r(t), mt_s(t)));
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}
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HMM_Mat3 mt_rst(transform2d t)
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{
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return transform2d2mat(t);
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}
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HMM_Mat3 mt_st(transform2d t)
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{
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return HMM_MulM3(mt_t(t), mt_s(t));
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}
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HMM_Mat3 mt_rt(transform2d t)
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{
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return HMM_MulM3(mt_t(t), mt_r(t));
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}
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HMM_Vec2 go2world(struct gameobject *go, HMM_Vec2 pos)
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{
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HMM_Vec2 v = HMM_MulM3V3(t_go2world(go), (HMM_Vec3){pos.X, pos.Y, 1.0}).XY;
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return v;
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}
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HMM_Vec2 world2go(struct gameobject *go, HMM_Vec2 pos)
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{
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return HMM_MulM3V3(t_world2go(go), (HMM_Vec3){pos.X, pos.Y, 1.0}).XY;
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}
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HMM_Vec2 mat_t_pos(HMM_Mat3 m, HMM_Vec2 pos)
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{
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return HMM_MulM3V3(m, (HMM_Vec3){pos.x, pos.y, 1}).XY;
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}
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HMM_Vec2 mat_t_dir(HMM_Mat3 m, HMM_Vec2 dir)
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{
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m.Columns[2] = (HMM_Vec3){0,0,1};
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return HMM_MulM3V3(m, (HMM_Vec3){dir.x, dir.y, 1}).XY;
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}
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HMM_Vec2 goscale(struct gameobject *go, HMM_Vec2 pos)
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{
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return HMM_MulV2(go->scale.XY, pos);
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}
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HMM_Mat3 t_go2world(struct gameobject *go)
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{
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return transform2d2mat(go2t(go));
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}
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HMM_Mat3 t_world2go(struct gameobject *go)
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{
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return HMM_InvGeneralM3(transform2d2mat(go2t(go)));
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}
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int pos2gameobject(HMM_Vec2 pos) {
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cpShape *hit = phys2d_query_pos(pos.cp);
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if (hit) {
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return shape2gameobject(hit);
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}
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for (int i = 0; i < arrlen(gameobjects); i++) {
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if (!gameobjects[i].body) continue;
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cpVect gpos = cpBodyGetPosition(gameobjects[i].body);
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float dist = cpvlength(cpvsub(gpos, pos.cp));
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if (dist <= 25) return i;
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}
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return -1;
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}
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int id_from_gameobject(struct gameobject *go) {
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for (int i = 0; i < arrlen(gameobjects); i++) {
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if (&gameobjects[i] == go) return i;
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}
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return -1;
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}
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void gameobject_set_sensor(int id, int sensor) {
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id2go(id)->sensor = sensor;
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gameobject_apply(id2go(id));
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}
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transform2d go2t(gameobject *go)
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{
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transform2d t;
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t.pos.cp = cpBodyGetPosition(go->body);
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t.angle = cpBodyGetAngle(go->body);
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t.scale = go->scale.XY;
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if (isnan(t.scale.X)) t.scale.X = 1;
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if (isnan(t.scale.Y)) t.scale.Y = 1;
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return t;
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}
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int go2id(struct gameobject *go) {
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return id_from_gameobject(go);
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}
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uint32_t go2category(struct gameobject *go)
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{
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return 0;
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}
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uint32_t go2mask(struct gameobject *go)
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{
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return 0;
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}
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unsigned int editor_cat = 1<<31;
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void go_shape_apply(cpBody *body, cpShape *shape, struct gameobject *go) {
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cpShapeSetFriction(shape, go->f);
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cpShapeSetElasticity(shape, go->e);
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cpShapeSetCollisionType(shape, go2id(go));
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cpShapeFilter filter;
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filter.group = go2id(go);
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filter.categories = 1<<go->layer | editor_cat;
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// filter.mask = CP_ALL_CATEGORIES;
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filter.mask = category_masks[go->layer] | editor_cat;
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// filter.mask = CP_ALL_CATEGORIES;
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cpShapeSetFilter(shape, filter);
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struct phys2d_shape *ape = cpShapeGetUserData(shape);
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if (ape && ape->apply)
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ape->apply(ape->data);
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}
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void go_shape_moi(cpBody *body, cpShape *shape, struct gameobject *go) {
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float moment = cpBodyGetMoment(go->body);
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struct phys2d_shape *s = cpShapeGetUserData(shape);
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if (!s) {
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cpBodySetMoment(go->body, moment + 1);
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return;
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}
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moment += s->moi(s->data, go->mass);
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if (moment < 0) moment = 1;
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cpBodySetMoment(go->body, 1);
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}
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void gameobject_apply(struct gameobject *go) {
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cpBodySetType(go->body, go->bodytype);
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cpBodyEachShape(go->body, go_shape_apply, go);
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if (go->bodytype == CP_BODY_TYPE_DYNAMIC) {
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cpBodySetMass(go->body, go->mass);
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cpBodySetMoment(go->body, 0.f);
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cpBodyEachShape(go->body, go_shape_moi, go);
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if (cpBodyGetMoment(go->body) <= 0.f)
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cpBodySetMoment(go->body, 1.f);
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return;
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}
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}
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static void gameobject_setpickcolor(struct gameobject *go) {
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/*
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float r = ((go->editor.id & 0x000000FF) >> 0) / 255.f;
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float g = ((go->editor.id & 0x0000FF00) >> 8) / 255.f;
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float b = ((go->editor.id & 0x00FF0000) >> 16) / 255.f;
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go->editor.color[0] = r;
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go->editor.color[1] = g;
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go->editor.color[2] = b;
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*/
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}
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static void velocityFn(cpBody *body, cpVect gravity, cpFloat damping, cpFloat dt)
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{
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struct gameobject *go = id2go((int)cpBodyGetUserData(body));
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if (!go) {
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cpBodyUpdateVelocity(body,gravity,damping,dt);
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return;
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}
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cpFloat d = isnan(go->damping) ? damping : d;
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cpVect g = go->gravity ? gravity : go->cgravity.cp;
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cpBodyUpdateVelocity(body,g,d,dt*go->timescale);
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if (!isinf(go->maxvelocity))
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cpBodySetVelocity(body, cpvclamp(cpBodyGetVelocity(body), go->maxvelocity));
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if (!isinf(go->maxangularvelocity)) {
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float av = cpBodyGetAngularVelocity(body);
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if (fabs(av) > go->maxangularvelocity)
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cpBodySetAngularVelocity(body, copysignf(go->maxangularvelocity, av));
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}
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}
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int MakeGameobject() {
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struct gameobject go = {
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.scale = (HMM_Vec3){1.f,1.f,1.f},
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.bodytype = CP_BODY_TYPE_STATIC,
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.maxvelocity = INFINITY,
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.maxangularvelocity = INFINITY,
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.mass = 1.f,
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.next = -1,
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.sensor = 0,
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.shape_cbs = NULL,
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.gravity = 1,
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.cgravity = (HMM_Vec2){0,0},
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.damping = NAN,
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.timescale = 1.0,
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.ref = JS_NULL,
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};
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go.cbs.begin.obj = JS_NULL;
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go.cbs.separate.obj = JS_NULL;
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go.body = cpSpaceAddBody(space, cpBodyNew(go.mass, 1.f));
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cpBodySetVelocityUpdateFunc(go.body, velocityFn);
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int retid;
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if (first < 0) {
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arrput(gameobjects, go);
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retid = arrlast(gameobjects).id = arrlen(gameobjects) - 1;
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} else {
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retid = first;
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first = id2go(first)->next;
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*id2go(retid) = go;
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}
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cpBodySetUserData(go.body, (void *)retid);
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phys2d_setup_handlers(retid);
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return retid;
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}
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void rm_body_shapes(cpBody *body, cpShape *shape, void *data) {
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struct phys2d_shape *s = cpShapeGetUserData(shape);
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if (s->data) {
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free(s->data);
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s->data = NULL;
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}
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cpSpaceRemoveShape(space, shape);
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cpShapeFree(shape);
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}
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int *go_toclean = NULL;
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/* Free this gameobject */
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void gameobject_clean(int id) {
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struct gameobject *go = id2go(id);
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arrfree(go->shape_cbs);
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cpBodyEachShape(go->body, rm_body_shapes, NULL);
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cpSpaceRemoveBody(space, go->body);
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cpBodyFree(go->body);
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go->body = NULL;
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}
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/* Really more of a "mark for deletion" ... */
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void gameobject_delete(int id) {
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id2go(id)->next = first;
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JS_FreeValue(js, id2go(id)->ref);
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first = id;
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if (cpSpaceIsLocked(space))
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arrpush(go_toclean, id);
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else
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gameobject_clean(id);
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}
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void gameobjects_cleanup() {
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for (int i = 0; i < arrlen(go_toclean); i++)
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gameobject_clean(go_toclean[i]);
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arrsetlen(go_toclean, 0);
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return;
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int clean = first;
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while (clean >= 0 && id2go(clean)->body) {
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gameobject_clean(clean);
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clean = id2go(clean)->next;
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}
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}
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void gameobject_move(struct gameobject *go, HMM_Vec2 vec) {
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cpVect p = cpBodyGetPosition(go->body);
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p.x += vec.x;
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p.y += vec.y;
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cpBodySetPosition(go->body, p);
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phys2d_reindex_body(go->body);
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}
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void gameobject_rotate(struct gameobject *go, float as) {
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cpFloat a = cpBodyGetAngle(go->body);
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a += as * deltaT;
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cpBodySetAngle(go->body, a);
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phys2d_reindex_body(go->body);
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}
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void gameobject_setangle(struct gameobject *go, float angle) {
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cpBodySetAngle(go->body, angle);
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phys2d_reindex_body(go->body);
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}
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void gameobject_setpos(struct gameobject *go, cpVect vec) {
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if (!go || !go->body) return;
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cpBodySetPosition(go->body, vec);
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phys2d_reindex_body(go->body);
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}
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void body_draw_shapes_dbg(cpBody *body, cpShape *shape, void *data) {
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struct phys2d_shape *s = cpShapeGetUserData(shape);
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s->debugdraw(s->data);
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}
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void gameobject_draw_debug(int go) {
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struct gameobject *g = id2go(go);
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if (!g || !g->body) return;
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cpVect pos = cpBodyGetPosition(g->body);
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struct rgba color = {
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.r = 0.76*255,
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.b = 0.38*255,
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.g = 255,
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.a = 255
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};
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cpBodyEachShape(g->body, body_draw_shapes_dbg, NULL);
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}
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void gameobject_draw_debugs() {
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for (int i = 0; i < arrlen(gameobjects); i++)
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gameobject_draw_debug(i);
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}
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static struct {
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struct gameobject go;
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cpVect pos;
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float angle;
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} *saveobjects = NULL;
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void gameobject_saveall() {
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arrfree(saveobjects);
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arrsetlen(saveobjects, arrlen(gameobjects));
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for (int i = 0; i < arrlen(gameobjects); i++) {
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saveobjects[i].go = gameobjects[i];
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saveobjects[i].pos = cpBodyGetPosition(gameobjects[i].body);
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saveobjects[i].angle = cpBodyGetAngle(gameobjects[i].body);
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}
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}
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void gameobject_loadall() {
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YughInfo("N gameobjects: %d, N saved: %d", arrlen(gameobjects), arrlen(saveobjects));
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for (int i = 0; i < arrlen(saveobjects); i++) {
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gameobjects[i] = saveobjects[i].go;
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cpBodySetPosition(gameobjects[i].body, saveobjects[i].pos);
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cpBodySetAngle(gameobjects[i].body, saveobjects[i].angle);
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cpBodySetVelocity(gameobjects[i].body, cpvzero);
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cpBodySetAngularVelocity(gameobjects[i].body, 0.f);
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}
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arrfree(saveobjects);
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}
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int gameobjects_saved() {
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return arrlen(saveobjects);
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}
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