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d163a01b8a
Trying to compile with `-DUSE_UNORDERED_MAP` produces lots of compiler errors like these, because of missing `std::hash` specializations. Also, `#define unordered_map map` is just evil! ``` ./nonisotropic.cpp:875:36: note: in instantiation of template class 'std::__1::unordered_map<hr::nilv::mvec, hr::heptagon *, std::__1::hash<hr::nilv::mvec>, std::__1::equal_to<hr::nilv::mvec>, std::__1::allocator<std::__1::pair<const hr::nilv::mvec, hr::heptagon *> > >' requested here unordered_map<mvec, heptagon*> at; ^ ./nonisotropic.cpp:239:58: note: in instantiation of template class 'std::__1::unordered_map<std::__1::pair<hr::heptagon *, hr::heptagon *>, hr::heptagon *, std::__1::hash<std::__1::pair<hr::heptagon *, hr::heptagon *> >, std::__1::equal_to<std::__1::pair<hr::heptagon *, hr::heptagon *> >, std::__1::allocator<std::__1::pair<const std::__1::pair<hr::heptagon *, hr::heptagon *>, hr::heptagon *> > >' requested here unordered_map<pair<heptagon*, heptagon*>, heptagon*> at; ^ ./nonisotropic.cpp:457:49: error: no matching member function for call to 'iadj' while(h1->distance < h2->distance) back = iadj(h2, down) * back, h2 = h2->cmove(down); ^~~~ cell.cpp:42:15: note: candidate function not viable: no known conversion from 'hr::sn::hrmap_solnih' to 'hr::hrmap' for object argument transmatrix iadj(heptagon *h, int d) { ^ cell.cpp:41:22: note: candidate function not viable: no known conversion from 'hr::sn::hrmap_solnih' to 'hr::hrmap' for object argument struct transmatrix iadj(cell *c, int i) { cell *c1 = c->cmove(i); return adj(c1, c->c.spin(i)); } ^ ```
250 lines
5.3 KiB
C++
250 lines
5.3 KiB
C++
#include "../hyper.h"
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// usage: -viz -geo 1 -canvas i -zoom .2 -shot-1000 -magmashape N
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// where N = 1, 2, 3, 4
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namespace hr {
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int magmav = 7;
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/* vertices of the Magma's heptagon */
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vector<hyperpoint> vertices;
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hyperpoint hcenter;
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/* how are all Magma's heptagons transformed and colored */
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vector<pair<transmatrix, color_t>> heps;
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int magmashape = 0;
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int magmacount = 1000;
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int magmalong = 10;
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bool magmadebug = false;
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/* transformation from the original to the next heptagon;
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edge a of the original heptagon matches edge b of the next heptagon */
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EX transmatrix get_adj(int a, int b) {
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hyperpoint vl = vertices[a];
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hyperpoint vr = vertices[a+1];
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hyperpoint vm = mid(vl, vr);
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transmatrix rm = gpushxto0(vm);
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hyperpoint xvl = vertices[b];
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hyperpoint xvr = vertices[b+1];
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hyperpoint xvm = mid(xvl, xvr);
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transmatrix xrm = gpushxto0(xvm);
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transmatrix Res = rgpushxto0(vm) * rspintox(rm*vr);
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Res = Res * spintox(xrm*xvl) * xrm;
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return Res;
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}
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pair<int, int> hash(hyperpoint h) {
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return {int(h[0] * 1000000 + .5), int(h[1] * 1000000 + .5)};
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}
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void make() {
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int& v = magmav;
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/* compute the vertices */
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vertices.resize(magmav+1);
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for(int i=0; i<=magmav; i++)
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vertices[i] = spin(2*M_PI*(i+(v-7)/4.)/v) * xpush0(1);
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ld xx = vertices[2][0];
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int down = v/2 + 2;
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for(int k=3; k<down; k++)
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vertices[k][0] = 2 * xx - vertices[k][0];
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hcenter = Hypc;
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for(int i=0; i<magmav; i++) hcenter += vertices[i];
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hcenter = normalize(hcenter);
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vertices.resize(magmav);
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for(int i=0; i<magmav; i++) vertices.push_back(vertices[i]);
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for(int i=0; i<magmav; i++) vertices.push_back(vertices[i]);
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map<pair<int, int>, int> counts;
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int big = v - 2;
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auto rehash = [&] (const transmatrix& T) {
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for(int a=0; a<v; a++) {
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auto hashval = hash(T * vertices[a]);
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if(a == 2 || a == down)
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counts[hashval]++;
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else if(a > 2 && a < down)
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counts[hashval] += 2*v - big;
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else
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counts[hashval] += big;
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}
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};
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heps.emplace_back(Id, 0xFFFFFFFF);
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auto advance = [&] (int i, int j, bool mirror = false) {
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transmatrix T = heps.back().first * get_adj(i, j);
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if(mirror) T = T * MirrorY;
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heps.emplace_back(T, heps.back().second ^ 0xFFFF00);
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};
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/* create the core */
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int last = v-1;
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int t = 3;
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switch(magmashape) {
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case 1:
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for(int i=1; i<2*v; i++)
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advance(0, t);
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break;
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case 2:
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for(int i=0; i<t+1; i++)
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advance(t, 0);
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break;
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case 3:
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for(int a=0; a<2; a++) {
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advance(t-1, 0);
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for(int i=a; i<v+1; i++)
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advance(t, 0);
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}
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break;
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case 4: {
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advance(t, 1);
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for(int a=0; a<v-3; a++)
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advance(t, 0);
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advance(t, 1);
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for(int a=0; a<v-4; a++)
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advance(t, 0);
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break;
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}
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case 5:
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for(int a=0; a<v-1; a++) {
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advance(t, 0);
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}
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for(int b=0; b<magmalong; b++) {
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advance(t, last);
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advance(t, 0);
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}
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for(int a=0; a<v; a++) {
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advance(t, 0);
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}
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for(int b=0; b<magmalong; b++) {
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advance(t, last);
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advance(t, 0);
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}
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break;
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}
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/* center the core */
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hyperpoint center = Hypc;
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for(auto& h: heps) for(int i=0; i<v; i++)
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center += h.first * vertices[i];
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center = normalize(center);
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for(auto& h: heps) h.first = gpushxto0(center) * h.first;
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counts.clear();
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for(auto& h: heps) rehash(h.first);
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/* grow */
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for(int a=0; a<magmacount; a++) {
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hyperpoint p = heps.back().first * vertices[2];
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int total = counts[hash(p)];
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println(hlog, "total ", total);
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if(total == 2*v)
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advance(down, down, true);
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else if(total == 2 * v - big)
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advance(t, last);
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else if(total < 2 * v)
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advance(t, 0);
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else
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break;
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rehash(heps.back().first);
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}
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}
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void draw_at(transmatrix T, color_t col, int id) {
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for(int i=0; i<=magmav; i++)
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curvepoint(T * vertices[i]);
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queuecurve(0xFF, col, PPR::LINE);
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if(magmadebug) {
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for(int i=0; i<magmav; i++) {
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hyperpoint h = mid(vertices[i], vertices[i+1]);
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h += spin(M_PI/2) * (vertices[i+1] - vertices[i]) * .05;
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queuestr(T * rgpushxto0(h), 0.4, its(i), 0x80);
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}
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queuestr(T * rgpushxto0(hcenter), 0.4, "#"+its(id), 0x80);
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}
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}
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void draw_magma() {
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if(heps.empty()) make();
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transmatrix V = ggmatrix(currentmap->gamestart());
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int id = 0;
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for(auto h: heps)
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draw_at(V * h.first, h.second, id++);
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}
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int readArgs() {
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using namespace arg;
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if(0) ;
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else if(argis("-magmashape")) {
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shift(); magmashape = argi();
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}
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else if(argis("-magmav")) {
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shift(); magmav = argi();
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}
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else if(argis("-magmacount")) {
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shift(); magmacount = argi();
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}
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else if(argis("-magmalong")) {
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shift(); magmalong = argi();
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}
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else if(argis("-magmadebug")) {
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shift(); magmadebug = argi();
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}
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else return 1;
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return 0;
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}
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auto msc = addHook(hooks_frame, 100, draw_magma)
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+ addHook(hooks_args, 100, readArgs);
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}
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