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mirror of https://github.com/zenorogue/hyperrogue.git synced 2024-11-27 14:37:16 +00:00
hyperrogue/rogueviz/smoothcam.cpp
2023-08-14 20:13:52 +02:00

781 lines
22 KiB
C++

#include "rogueviz.h"
// This module allows creating complex animations with smooth camera movement
// enable with -smoothcam option, or the new "smooth camera" option in the Animations dialog
// it still seems a bit buggy
// to add: insert positions? split/merge segments? improved join?
namespace rogueviz {
namespace smoothcam {
struct frame {
string title;
cell *where;
transmatrix sView;
transmatrix V;
transmatrix ori;
ld front_distance, up_distance;
ld interval;
map<string, ld> params;
};
struct animation {
cell *start_cell;
transmatrix start;
ld start_interval;
vector<frame> frames;
};
vector<string> smoothcam_params;
}
}
namespace hr {
using pcell = cell*;
static void hwrite(hstream& hs, const pcell& c) {
hs.write<int>(mapstream::cellids[c]);
}
static void hread(hstream& hs, pcell& c) {
int32_t at = hs.get<int>();
c = mapstream::cellbyid[at];
}
static void hread(hstream& hs, transmatrix& h) { for(int i=0; i<MDIM; i++) hread(hs, h[i]); }
static void hwrite(hstream& hs, const transmatrix& h) { for(int i=0; i<MDIM; i++) hwrite(hs, h[i]); }
void hwrite(hstream& hs, const rogueviz::smoothcam::animation& anim) {
hwrite(hs, anim.start_cell, anim.start, anim.start_interval, anim.frames);
}
void hread(hstream& hs, rogueviz::smoothcam::animation& anim) {
hread(hs, anim.start_cell, anim.start, anim.start_interval, anim.frames);
}
void hwrite(hstream& hs, const rogueviz::smoothcam::frame& frame) {
hwrite(hs, frame.title, frame.where, frame.sView, frame.V, frame.ori, frame.front_distance, frame.up_distance, frame.interval);
for(auto pa: rogueviz::smoothcam::smoothcam_params) { hwrite(hs, frame.params.at(pa)); }
}
void hread(hstream& hs, rogueviz::smoothcam::frame& frame) {
hread(hs, frame.title, frame.where, frame.sView, frame.V, frame.ori, frame.front_distance, frame.up_distance, frame.interval);
for(auto pa: rogueviz::smoothcam::smoothcam_params) { hread(hs, frame.params[pa]); }
}
}
namespace rogueviz {
namespace smoothcam {
string smooth_camera_help =
"This feature lets you create animations with complex but smooth camera movement.\n\n"
"An animation is composed from a number of segments.\n\n"
"In each segment, you can provide a number of positions, and times for them. "
"For example, if you add a camera position A at time 0 and a camera position B at time 1, "
"we will move linearly from A to B. Polynomial approximation is used inside a segment, "
"while separate segments are animated independently.\n\n"
"The 'interval' values are the interval between the current and next position. "
"The total sum of 'interval' values is made equal to the 'animation period'. "
"If you place two positions X and Y with interval 0 between them, X will be used"
"as the actual position, while Y-X will be the first derivative. Thus, for example, "
"placing two equal positions with interval 0 will force the camera to smoothly stop.";
map<cell*, map<hyperpoint, string> > labels;
map<cell*, vector<vector<hyperpoint> > > traces;
vector<animation> anims;
vector<animation> anims_backup;
void backup() {
anims_backup = anims;
}
void append_backup() {
swap(anims_backup, anims);
for(auto a: anims_backup) anims.push_back(a);
anims_backup.clear();
}
transmatrix last_view, current_position, last_view_comp;
cell *last_centerover;
// during the animation, transform original coordinates to the current view coordinates
transmatrix last_computed;
ld last_time;
void analyze_view_pre() {
current_position = current_position * last_view * inverse(View);
}
void analyze_view_post() {
last_view = View;
}
animation *current_segment;
void start_segment() {
anims.emplace_back();
auto& anim = anims.back();
anim.start_cell = centerover;
anim.start = Id;
if(det(View) < 0) anim.start = MirrorX * anim.start;
last_view = anim.start;
current_position = anim.start;
current_segment = &anim;
}
/** does not work correctly -- should adjust to the current cell */
void join_segment() {
int n = anims.back().frames.size();
if(n < 2) return;
auto s1 = anims.back().frames[n-2];
auto s2 = anims.back().frames[n-1];
start_segment();
auto& l = anims[anims.size()-2];
anims.back().frames.push_back(l.frames[n-2]);
anims.back().frames.push_back(l.frames[n-1]);
anims.back().start_cell = l.start_cell;
anims.back().start = l.start;
anims.back().start_interval = 0;
}
map<cell*, int> indices;
string gentitle() {
return lalign(0, centerover, ":", indices[centerover]++);
}
bool animate_on;
bool view_labels, view_trace;
void edit_interval(ld& v) {
dialog::add_action([&v] {
dialog::editNumber(v, -10, 10, 1, 0, "interval", "");
});
}
transmatrix try_harder_relative_matrix(cell *at, cell *from) {
transmatrix U = Id;
int d = celldistance(at, from);
again:
while(d > 0) {
forCellIdEx(c1, i, at) {
int d1 = celldistance(c1, from);
if(d1 < d) {
U = currentmap->iadj(at, i) * U;
d = d1;
at = c1;
goto again;
}
}
println(hlog, "still failed");
return Id;
}
println(hlog, "got U = ", U);
return U;
}
frame new_frame() {
frame f;
f.title = gentitle();
f.where = centerover;
f.sView = View;
f.V = current_position;
f.ori = ortho_inverse(NLP);
f.front_distance = 1;
f.up_distance = 1;
f.interval = 0;
for(auto p: smoothcam_params) f.params[p] = real(params[p]->get_cld());
return f;
};
void edit_segment(int aid) {
cmode = sm::PANNING;
gamescreen();
dialog::init(XLAT("animation segment"), 0xFFFFFFFF, 150, 0);
dialog::addSelItem("interval", fts(anims[aid].start_interval), 'i');
edit_interval(anims[aid].start_interval);
dialog::addItem("delete", 'd');
dialog::add_action([aid] {
anims.erase(anims.begin()+aid);
if(anims.empty()) start_segment();
popScreen();
});
dialog::addItem("mirror", 'm');
dialog::add_action([aid] {
auto a = anims[aid];
reverse(a.frames.begin(), a.frames.end());
ld* last = &a.start_interval;
for(auto& f: a.frames) { swap(*last, f.interval); last = &f.interval; }
anims.push_back(std::move(a));
popScreen();
});
dialog::addItem("copy before", 'c');
dialog::add_action([aid] {
auto a = anims[aid];
anims.insert(anims.begin() + aid, a);
current_segment = nullptr;
popScreen();
});
dialog::addItem("swap with the last segment", 'x');
dialog::add_action([aid] {
swap(anims.back(), anims[aid]);
current_segment = nullptr;
popScreen();
});
dialog::addBack();
dialog::display();
}
void generate_trace();
void edit_step(animation& anim, int id) {
cmode = 0;
gamescreen();
dialog::init(XLAT("animation step"), 0xFFFFFFFF, 150, 0);
auto& f = anim.frames[id];
dialog::addSelItem("title", f.title, 't');
dialog::addSelItem("interval", fts(f.interval), 'i');
edit_interval(f.interval);
dialog::addSelItem("front distance", fts(f.front_distance), 'f');
dialog::add_action([&f] {
dialog::editNumber(f.front_distance, -5, 5, .1, 1, "front distance", "");
});
dialog::addSelItem("up distance", fts(f.up_distance), 'u');
dialog::add_action([&f] {
dialog::editNumber(f.up_distance, -5, 5, .1, 1, "up distance", "");
});
char key = '1';
for(auto pa: smoothcam_params) {
dialog::addSelItem(pa, fts(f.params[pa]), key++);
}
dialog::addItem("delete", 'd');
dialog::add_action([&anim, id] {
anim.frames.erase(anim.frames.begin()+id);
popScreen();
});
if(&anim == current_segment) {
dialog::addItem("change to current camera location", 'e');
dialog::add_action([&f] {
f.where = centerover;
f.sView = View;
f.V = current_position;
popScreen();
});
}
dialog::addItem("move the camera here", 'r');
dialog::add_action([&f] {
transmatrix Rel = calc_relative_matrix(centerover, f.where, inverse(View) * C0);
println(hlog, "Rel = ", Rel);
if(eqmatrix(Rel, Id) && centerover != f.where)
Rel = try_harder_relative_matrix(centerover, f.where);
View = f.sView * Rel;
NLP = ortho_inverse(f.ori);
playermoved = false;
current_display->which_copy =
nonisotropic ? gpushxto0(tC0(view_inverse(View))) :
View;
popScreen();
});
dialog::addItem("edit this segment and move the camera here", 'p');
dialog::add_action([&anim, &f] {
last_view = View = f.sView;
NLP = ortho_inverse(f.ori);
centerover = f.where;
current_position = f.V;
playermoved = false;
current_display->which_copy =
nonisotropic ? gpushxto0(tC0(view_inverse(View))) :
View;
current_segment = &anim;
popScreen();
});
dialog::addItem("start a new segment from here", 'n');
dialog::add_action([&f] {
View = f.sView;
centerover = f.where;
playermoved = false;
NLP = ortho_inverse(f.ori);
current_display->which_copy =
nonisotropic ? gpushxto0(tC0(view_inverse(View))) :
View;
start_segment();
popScreen();
});
if(&anim == current_segment) {
dialog::addItem("insert the current position before this", 'j');
dialog::add_action([&anim, id] {
anim.frames.insert(anim.frames.begin() + id, new_frame());
popScreen();
});
}
dialog::addBack();
dialog::display();
}
int last_segment;
ld test_t = 0;
ld c_front_dist = 0, c_up_dist = 0;
void handle_animation(ld t);
bool side = true;
void snap_to_center() {
cmode = side ? sm::SIDE : 0;
gamescreen();
draw_crosshair();
dialog::init(XLAT("snap to center"), 0xFFFFFFFF, 150, 0);
dialog::addItem("center on mouse", ' ');
dialog::add_action([] {
View = gpushxto0(unshift(mapeditor::mouse_snap())) * View;
});
dialog::addItem("mouse up", 'w');
dialog::add_action([] {
View = spin90() * spintox(unshift(mapeditor::mouse_snap())) * View;
});
dialog::addItem("mouse down", 's');
dialog::add_action([] {
View = spin270() * spintox(unshift(mapeditor::mouse_snap())) * View;
});
dialog::addItem("mouse left", 'a');
dialog::add_action([] {
View = spin180() * spintox(unshift(mapeditor::mouse_snap())) * View;
});
dialog::addItem("mouse left", 'd');
dialog::add_action([] {
View = Id * spintox(unshift(mapeditor::mouse_snap())) * View;
});
dialog::addBack();
dialog::display();
keyhandler = [] (int sym, int uni) {
handlePanning(sym, uni);
dialog::handleNavigation(sym, uni);
if(doexiton(sym, uni)) popScreen();
};
}
void show() {
/* might not be changed automatically */
if(vid.fixed_yz) spinEdge_full();
cmode = side ? sm::SIDE : 0;
gamescreen();
draw_crosshair();
dialog::init(XLAT("smooth camera"), 0xFFFFFFFF, 150, 0);
int aid = 0;
labels.clear();
dialog::start_list(2000, 2000, 'A');
for(auto& anim: anims) {
dialog::addSelItem("segment #" + its(aid) + (&anim == current_segment ? "*" : ""), fts(anim.start_interval), dialog::list_fake_key++);
dialog::add_action_push([aid] { edit_segment(aid); });
int id = 0;
for(auto& f: anim.frames) {
labels[f.where][inverse(f.sView) * C0] = f.title;
string dist;
if(f.where != centerover)
dist = its(celldistance(f.where, centerover)) + " cells";
else {
hyperpoint h1 = tC0(iso_inverse(View));
hyperpoint h2 = tC0(iso_inverse(f.sView));
ld d = hdist(h1, h2);
if(d > 1e-3)
dist = fts(d) + "au";
else {
transmatrix T = f.sView * iso_inverse(View);
dist = fts(kz(acos_clamp(T[2][2])/degree)) + "°/" + fts(kz(acos_clamp(T[1][1])/degree)) + "°";
}
}
dialog::addSelItem(f.title + " [" + dist + "]", fts(f.interval), dialog::list_fake_key++);
dialog::add_action_push([&anim, id] { edit_step(anim, id); });
id++;
}
aid++;
}
dialog::end_list();
if(current_segment) {
dialog::addItem("create a new position", 'a');
dialog::add_action([] {
current_segment->frames.push_back(new_frame());
});
}
dialog::addItem("create a new segment", 'b');
dialog::add_action(start_segment);
if(current_segment) {
dialog::addItem("increase interval by 1", 's');
dialog::add_key_action('s', [] {
if(!current_segment->frames.empty())
current_segment->frames.back().interval += 1;
else
current_segment->start_interval+=1;
});
}
/* dialog::addItem("join a new segment", 'j');
dialog::add_action(join_segment); */
dialog::addBoolItem_action("view the labels", view_labels, 'l');
dialog::addBoolItem("view the trace", view_trace, 't');
dialog::add_action([] {
view_trace = !view_trace;
if(view_trace) generate_trace();
});
dialog::addBoolItem_action("side display", side, 'm');
dialog::addItem("test the animation", 't');
dialog::add_action([] {
animate_on = false;
last_time = HUGE_VAL;
last_segment = -1;
test_t = 0;
dialog::editNumber(test_t, 0, 100, 0.1, 0, "enter the percentage", "");
dialog::get_di().reaction = [] {
handle_animation(test_t / 100);
};
dialog::get_di().extra_options = [] {
dialog::addSelItem("current segment", its(last_segment), 'C');
dialog::addSelItem("current front", fts(c_front_dist), 'F');
dialog::addSelItem("current up", fts(c_up_dist), 'U');
};
});
dialog::addBoolItem("view the crosshair", crosshair_size, 'x');
dialog::add_action([] { crosshair_size = crosshair_size ? 0 : 10; });
dialog::addBoolItem("run the animation", animate_on, 'r');
dialog::add_action([] {
animate_on = !animate_on;
last_time = HUGE_VAL;
});
if(GDIM == 2) {
dialog::addItem("centering", 'z');
dialog::add_action_push(snap_to_center);
}
else {
dialog::addItem("mirror Y view", 'Y');
dialog::add_action([] {
rotate_view(MirrorY);
});
}
dialog::addHelp();
dialog::add_action([] { gotoHelp(smooth_camera_help); });
dialog::addBack();
dialog::display();
keyhandler = [] (int sym, int uni) {
handlePanning(sym, uni);
dialog::handleNavigation(sym, uni);
if(doexiton(sym, uni)) popScreen();
};
}
void prepare_for_interpolation(hyperpoint& h) {
if(gproduct) {
h[3] = zlevel(h);
ld t = exp(h[3]);
h[0] /= t;
h[1] /= t;
h[2] /= t;
}
}
void after_interpolation(hyperpoint& h) {
if(gproduct) {
ld v = exp(h[3]) / sqrt(abs(intval(h, Hypc)));
h[0] *= v;
h[1] *= v;
h[2] *= v;
}
else
h = normalize(h);
}
ld interpolate(vector<ld> values, const vector<ld>& times, ld t) {
int n = isize(values);
// print(hlog, "interpolate: ", kz(values));
for(int ss=1; ss<=n-1; ss++) {
for(int a=0; a<n-ss; a++) {
// combining [a..a+(ss-1)] and [a+1..a+ss]
if(times[a+ss] == times[a])
values[a] = values[a] + (values[a+ss] - values[a]) * (t-times[a]);
else
values[a] = (values[a] * (times[a+ss] - t) + values[a+1] * (t - times[a])) / (times[a+ss] - times[a]);
}
values.pop_back();
}
// println(hlog, " -> ", values[0], " based on ", times, " -> ", t);
return values[0];
}
void handle_animation(ld t) {
ld total_total = 0;
vector<ld> totals;
for(auto& anim: anims) {
ld total = anim.start_interval;
for(auto& f: anim.frames)
total += f.interval;
totals.push_back(total);
total_total += total;
}
if(total_total == 0) return;
t = frac(t);
t *= total_total;
int segment = 0;
while(totals[segment] < t && segment < isize(totals)-1) t -= totals[segment++];
auto& anim = anims[segment];
if(t < last_time || segment != last_segment) {
last_time = 0;
last_segment = segment;
current_segment = &anim;
View = anim.start;
last_view_comp = View;
centerover = anim.start_cell;
current_position = Id;
last_view = View;
last_centerover = centerover;
}
ld total = anim.start_interval;
vector<ld> times;
for(auto& f: anim.frames) {
times.push_back(total);
total += f.interval;
}
transmatrix V = View;
for(auto pa: smoothcam_params) {
vector<ld> values;
for(auto& f: anim.frames) values.push_back(f.params[pa]);
ld val = interpolate(values, times, t);
params[pa]->set_cld(val);
}
if(embedded_plane && embedded_shift_method_choice != smcNone) {
hyperpoint interm = C03;
for(int j=0; j<3; j++) {
vector<ld> values;
for(auto& f: anim.frames)
values.push_back(cgi.emb->actual_to_intermediate(f.V*C0)[j]);
interm[j] = interpolate(values, times, t);
}
transmatrix Rot = Id;
for(int j=0; j<3; j++) for(int k=0; k<3; k++) {
vector<ld> values;
for(auto& f: anim.frames) {
transmatrix Rot = inverse(cgi.emb->map_relative_push(f.V*C0) * lzpush(cgi.emb->center_z())) * f.V;
if(nisot::local_perspective_used) Rot = Rot * f.ori;
values.push_back(Rot[j][k]);
}
Rot[j][k] = interpolate(values, times, t);
}
View = inverse(cgi.emb->intermediate_to_actual_translation(interm) * lzpush(cgi.emb->center_z())); NLP = Id;
fix_rotation(Rot);
rotate_view(inverse(Rot));
}
else {
hyperpoint pts[3];
for(int j=0; j<3; j++) {
for(int i=0; i<4; i++) {
vector<ld> values;
for(auto& f: anim.frames) {
hyperpoint h;
if(j == 0)
h = tC0(f.V);
if(j == 1) {
h = tC0(shift_object(f.V, f.ori, ztangent(f.front_distance), (hyperbolic || euclid || sphere) ? smIsotropic : smGeodesic));
}
if(j == 2) {
h = tC0(shift_object(f.V, f.ori, ctangent(1, -f.up_distance), (hyperbolic || euclid || sphere) ? smIsotropic : smGeodesic));
}
prepare_for_interpolation(h);
values.push_back(h[i]);
}
pts[j][i] = interpolate(values, times, t);
}
after_interpolation(pts[j]);
}
set_view(pts[0], pts[1], pts[2]);
c_front_dist = geo_dist(pts[0], pts[1]);
c_up_dist = geo_dist(pts[0], pts[2]);
if(det(last_view_comp) < 0) View = MirrorX * View;
}
if(vid.fixed_yz) spinEdge_full();
transmatrix T = View * inverse(last_view_comp);
last_view_comp = View;
View = T * V;
fixmatrix(View);
if(invalid_matrix(View)) println(hlog, "invalid_matrix ", View, " at t = ", t);
last_time = t;
}
void handle_animation0() {
if(!animate_on) return;
handle_animation(ticks / anims::period);
anims::moved();
// println(hlog, "at ", cview());
}
void generate_trace() {
last_time = HUGE_VAL;
dynamicval<transmatrix> tN(NLP, NLP);
dynamicval<transmatrix> tV(View, View);
dynamicval<transmatrix> tC(current_display->which_copy, current_display->which_copy);
dynamicval<cell*> tc(centerover, centerover);
cell* cview = nullptr;
vector<hyperpoint> at;
traces.clear();
auto send = [&] {
if(cview && !at.empty()) traces[cview].push_back(at);
cview = centerover;
at.clear();
};
for(ld t=0; t<=1024; t ++) {
handle_animation(t / 1024);
if(cview != centerover) send();
at.push_back(inverse(View) * C0);
optimizeview();
if(cview != centerover) {
send();
at.push_back(inverse(View) * C0);
}
}
send();
}
bool draw_labels(cell *c, const shiftmatrix& V) {
if(view_labels) for(auto& p: labels[c])
queuestr(V * rgpushxto0(p.first), .1, p.second, 0xFFFFFFFF, 1);
if(view_trace)
for(auto& v: traces[c]) {
for(auto p: v)
curvepoint(p);
queuecurve(V, 0xFFD500FF, 0, PPR::FLOOR);
for(auto p: v)
curvepoint(p);
queuecurve(V, 0x80000080, 0, PPR::SUPERLINE);
}
return false;
}
bool enabled;
void enable() {
if(enabled) return;
enabled = true;
rogueviz::cleanup.push_back([] { enabled = false; });
rogueviz::rv_hook(hooks_preoptimize, 75, analyze_view_pre);
rogueviz::rv_hook(hooks_postoptimize, 75, analyze_view_post);
rogueviz::rv_hook(anims::hooks_anim, 100, handle_animation0);
rogueviz::rv_hook(hooks_drawcell, 100, draw_labels);
rogueviz::rv_hook(hooks_o_key, 190, [] (o_funcs& v) { v.push_back(named_dialog("smoothcam", show)); });
rogueviz::rv_hook(mapstream::hooks_savemap, 100, [] (hstream& f) {
f.write<int>(17);
hwrite(f, anims);
});
anims.clear();
start_segment();
}
void enable_and_show() {
showstartmenu = false;
start_game();
enable();
pushScreen(show);
}
auto hooks = arg::add3("-smoothcam", enable_and_show)
+ arg::add3("-smoothcam-on", [] {
enable_and_show();
animate_on = true;
last_time = HUGE_VAL;
})
+ arg::add3("-smoothcam-param", [] {
arg::shift(); smoothcam_params.push_back( arg::args() );
})
+ arg::add3("-smoothcam-anim-on", [] {
animate_on = true;
last_time = HUGE_VAL;
})
+ addHook(dialog::hooks_display_dialog, 100, [] () {
if(current_screen_cfunction() == anims::show) {
dialog::addItem(XLAT("smooth camera"), 'C');
dialog::add_action(enable_and_show);
}
}) +
+ addHook(mapstream::hooks_loadmap, 100, [] (hstream& f, int id) {
if(id == 17) {
enable();
hread(f, anims);
current_segment = &anims.back();
}
});
void save_animation(hstream& f) {
if(f.vernum >= 0xA930) hwrite(f, smoothcam_params);
hwrite(f, anims);
}
void load_animation(hstream& f) {
if(f.vernum >= 0xA930) hread(f, smoothcam_params);
hread(f, anims);
current_segment = &anims.back();
}
auto hooksw = addHook(hooks_swapdim, 100, [] {
last_segment = -1;
for(auto& anim: anims) {
anim.start = Id;
for(auto& f: anim.frames) {
transmatrix NLP = inverse(f.ori);
swapmatrix_iview(f.ori, f.V);
swapmatrix_view(NLP, f.sView);
}
}
});
}}