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hyperrogue/screenshot.cpp

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// Hyperbolic Rogue -- screenshots in SVG and PNG formats
// Copyright (C) 2011-2018 Zeno Rogue, see 'hyper.cpp' for details
namespace hr {
#if ISMOBILE==1
namespace svg {
bool in = false;
}
#endif
#if ISMOBILE==0
// svg renderer
namespace svg {
FILE *f;
bool in = false;
ld cta(color_t col) {
// col >>= 24;
col &= 0xFF;
return col / 255.0;
}
bool invisible(color_t col) { return (col & 0xFF) == 0; }
ld gamma = .5;
void fixgamma(unsigned int& color) {
unsigned char *c = (unsigned char*) (&color);
for(int i=1; i<4; i++) c[i] = 255 * pow(float(c[i] / 255.0), float(gamma));
}
int svgsize;
int divby = 10;
const char* coord(int val) {
static char buf[10][20];
static int id;
id++; id %= 10;
if(divby == 1) {
sprintf(buf[id], "%d", val); return buf[id];
}
else if(divby <= 10) {
sprintf(buf[id], "%.1f", val*1./divby); return buf[id];
}
else {
sprintf(buf[id], "%.2f", val*1./divby); return buf[id];
}
}
char* stylestr(unsigned int fill, unsigned int stroke, ld width=1) {
fixgamma(fill);
fixgamma(stroke);
static char buf[600];
// printf("fill = %08X stroke = %08x\n", fill, stroke);
if(stroke == 0xFF00FF && false) {
stroke = 0x000000FF;
if(fill == 0x332a22ff) fill = 0x000000FF;
else if(fill == 0x686868FF) fill = 0x000000FF;
else if(fill == 0xd0d0d0FF) fill = 0x000000FF;
else fill = 0xFFFFFFFF;
}
sprintf(buf, "style=\"stroke:#%06x;stroke-opacity:%.3" PLDF ";stroke-width:%" PLDF "px;fill:#%06x;fill-opacity:%.3" PLDF "\"",
(stroke>>8) & 0xFFFFFF, cta(stroke),
width/divby,
(fill>>8) & 0xFFFFFF, cta(fill)
);
return buf;
}
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void circle(int x, int y, int size, color_t col, color_t fillcol) {
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if(!invisible(col) || !invisible(fillcol)) {
if(vid.stretch == 1)
fprintf(f, "<circle cx='%s' cy='%s' r='%s' %s/>\n",
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coord(x), coord(y), coord(size), stylestr(fillcol, col));
else
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fprintf(f, "<ellipse cx='%s' cy='%s' rx='%s' ry='%s' %s/>\n",
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coord(x), coord(y), coord(size), coord(size*vid.stretch), stylestr(fillcol, col));
}
}
string link;
void startstring() {
if(link != "") fprintf(f, "<a xlink:href=\"%s\" xlink:show=\"replace\">", link.c_str());
}
void stopstring() {
if(link != "") fprintf(f, "</a>");
}
string font = "Times";
void text(int x, int y, int size, const string& str, bool frame, color_t col, int align) {
double dfc = (x - current_display->xcenter) * (x - current_display->xcenter) +
(y - current_display->ycenter) * (y - current_display->ycenter);
dfc /= current_display->radius;
dfc /= current_display->radius;
// 0 = center, 1 = edge
dfc = 1 - dfc;
col = 0xFF + (col << 8);
bool uselatex = font == "latex";
if(!invisible(col)) {
startstring();
string str2 = "";
for(int i=0; i<(int) str.size(); i++)
if(str[i] == '&')
str2 += "&amp;";
else if(str[i] == '<')
str2 += "&lt;";
else if(str[i] == '>')
str2 += "&gt;";
else if(uselatex && str[i] == '#')
str2 += "\\#";
else str2 += str[i];
if(uselatex) str2 = string("\\myfont{")+coord(size)+"}{" + str2 + "}";
fprintf(f, "<text x='%s' y='%s' text-anchor='%s' ",
coord(x), coord(y+size*.4),
align == 8 ? "middle" :
align < 8 ? "start" :
"end");
if(!uselatex)
fprintf(f, "font-family='%s' font-size='%s' ", font.c_str(), coord(size));
fprintf(f, "%s>%s</text>",
stylestr(col, frame ? 0x0000000FF : 0, (1<<get_sightrange())*dfc/40), str2.c_str());
stopstring();
fprintf(f, "\n");
}
}
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void polygon(int *polyx, int *polyy, int polyi, color_t col, color_t outline, double linewidth) {
if(invisible(col) && invisible(outline)) return;
if(polyi < 2) return;
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startstring();
for(int i=0; i<polyi; i++) {
if(i == 0)
fprintf(f, "<path d=\"M ");
else
fprintf(f, " L ");
fprintf(f, "%s %s", coord(polyx[i]), coord(polyy[i]));
}
fprintf(f, "\" %s/>", stylestr(col, outline, (hyperbolic ? current_display->radius : current_display->scrsize) * linewidth/256));
stopstring();
fprintf(f, "\n");
}
void render(const char *fname, const function<void()>& what) {
dynamicval<videopar> v(vid, vid);
dynamicval<bool> v2(in, true);
// dynamicval<int> v5(ringcolor, 0x808080FF);
vid.usingGL = false;
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vid.xres = vid.yres = svgsize ? svgsize : vid.use_smart_range ? pngres*divby : min(1 << (get_sightrange()+7), 16384);
calcparam();
dynamicval<bool> v6(inHighQual, true);
darken = 0;
time_t timer;
timer = time(NULL);
char buf[128]; strftime(buf, 128, "svgshot-%y%m%d-%H%M%S.svg", localtime(&timer));
if(!fname) fname = buf;
f = fopen(fname, "wt");
fprintf(f, "<svg xmlns=\"http://www.w3.org/2000/svg\" xmlns:xlink=\"http://www.w3.org/1999/xlink\" width=\"%s\" height=\"%s\">\n", coord(vid.xres), coord(vid.yres));
what();
fprintf(f, "</svg>\n");
fclose(f);
addMessage(XLAT("Saved the SVG shot to %1 (sightrange %2)", fname, its(get_sightrange())));
}
#if CAP_COMMANDLINE
int read_args() {
using namespace arg;
if(argis("-svgsize")) {
shift(); sscanf(argcs(), "%d/%d", &svg::svgsize, &svg::divby);
}
else if(argis("-svgfont")) {
shift(); svg::font = args();
// note: use '-svgfont latex' to produce text output as: \myfont{size}{text}
// (this is helpful with Inkscape's PDF+TeX output feature; define \myfont yourself)
}
else if(argis("-svggamma")) {
shift_arg_formula(svg::gamma);
}
else if(argis("-svgshot")) {
PHASE(3); shift(); start_game();
printf("saving SVG screenshot to %s\n", argcs());
svg::render(argcs());
}
else return 1;
return 0;
}
auto ah = addHook(hooks_args, 0, read_args);
#endif
}
#endif
#if CAP_SDL
int pngres = 2000;
int pngformat = 0;
#if CAP_PNG
void IMAGESAVE(SDL_Surface *s, const char *fname) {
SDL_Surface *s2 = SDL_PNGFormatAlpha(s);
SDL_SavePNG(s2, fname);
SDL_FreeSurface(s2);
}
#endif
hookset<void(renderbuffer*)> *hooks_hqshot;
void saveHighQualityShot(const char *fname, const char *caption, int fade) {
resetbuffer rb;
// int maxrange = getDistLimit() * 3/2;
// dynamicval<int> v3(sightrange, (cheater && sightrange < maxrange) ? maxrange : sightrange);
if(cheater) doOvergenerate();
time_t timer;
timer = time(NULL);
dynamicval<videopar> v(vid, vid);
dynamicval<bool> v2(inHighQual, true);
dynamicval<bool> v6(auraNOGL, fname ? true : false);
vid.xres = vid.yres = pngres;
if(pngformat == 1) vid.xres = vid.yres * 4/3;
if(pngformat == 2) vid.xres = vid.yres * 16/9;
if(pngformat == 3) {
vid.xres = vid.yres * 22/16;
while(vid.xres & 15) vid.xres++;
}
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// if(vid.pmodel == 0) vid.scale = 0.99;
calcparam();
renderbuffer glbuf(vid.xres, vid.yres, vid.usingGL);
glbuf.enable();
current_display->set_viewport(0);
// printf("format = %d, %d x %d\n", pngformat, vid.xres, vid.yres);
darken = 0;
int numi = (fname?1:2);
for(int i=0; i<numi; i++) {
glbuf.clear(numi==1 ? backcolor : i ? 0xFFFFFF : 0);
#if CAP_RUG
if(rug::rugged) {
if(!rug::renderonce) rug::prepareTexture();
glbuf.enable();
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if(rug::in_crystal()) rug::physics();
rug::drawRugScene();
}
else
#endif
drawfullmap();
drawStats();
callhooks(hooks_hqshot, &glbuf);
if(fade < 255)
for(int y=0; y<vid.yres; y++)
for(int x=0; x<vid.xres; x++) {
color_t& p = qpixel(s, x, y);
for(int i=0; i<3; i++) {
part(p,i) = (part(p,i) * fade + 127) / 255;
}
}
if(caption)
displayfr(vid.xres/2, vid.fsize+vid.fsize/4, 3, vid.fsize*2, caption, forecolor, 8);
char buf[128]; strftime(buf, 128, "bigshota-%y%m%d-%H%M%S" IMAGEEXT, localtime(&timer));
buf[7] += i;
if(!fname) fname = buf;
IMAGESAVE(glbuf.render(), fname);
if(i == 0) addMessage(XLAT("Saved the high quality shot to %1", fname));
}
rb.reset();
}
#if CAP_COMMANDLINE
int png_read_args() {
using namespace arg;
if(argis("-pngshot")) {
PHASE(3); shift(); start_game();
printf("saving PNG screenshot to %s\n", argcs());
saveHighQualityShot(argcs());
}
else if(argis("-pngsize")) {
shift(); pngres = argi();
}
else if(argis("-pngformat")) {
shift(); pngformat = argi();
}
else return 1;
return 0;
}
auto ah_png = addHook(hooks_args, 0, png_read_args);
#endif
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#endif
#if CAP_ANIMATIONS
namespace anims {
enum eMovementAnimation {
maNone, maTranslation, maRotation, maCircle, maParabolic
};
eMovementAnimation ma;
ld shift_angle, movement_angle;
ld period = 10000;
int noframes = 30;
ld cycle_length = 2 * M_PI;
ld parabolic_length = 1;
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ld skiprope_rotation;
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int lastticks, bak_turncount;
ld rug_rotation1, rug_rotation2, ballangle_rotation, env_ocean, env_volcano;
ld rug_angle;
heptspin rotation_center_h;
cellwalker rotation_center_c;
transmatrix rotation_center_View;
color_t circle_display_color = 0x00FF00FF;
ld circle_radius = acosh(2.), circle_spins = 1;
void moved() {
optimizeview();
if(cheater || autocheat) {
if(hyperbolic && memory_saving_mode && cwt.at != centerover.at && !quotient) {
if(isNeighbor(cwt.at, centerover.at)) {
cwt.spin = neighborId(centerover.at, cwt.at);
flipplayer = true;
}
animateMovement(cwt.at, centerover.at, LAYER_SMALL, NODIR);
cwt.at = centerover.at;
save_memory();
return;
}
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setdist(masterless ? centerover.at : viewctr.at->c7, 7 - getDistLimit() - genrange_bonus, NULL);
}
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playermoved = false;
}
struct animated_parameter {
ld *value;
ld last;
string formula;
reaction_t reaction;
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};
vector<animated_parameter> aps;
void deanimate(ld &x) {
for(int i=0; i<isize(aps); i++)
if(aps[i].value == &x)
aps.erase(aps.begin() + (i--));
}
void get_parameter_animation(ld &x, string &s) {
for(auto &ap: aps)
if(ap.value == &x && ap.last == x)
s = ap.formula;
}
void animate_parameter(ld &x, string f, const reaction_t& r) {
deanimate(x);
aps.emplace_back(animated_parameter{&x, x, f, r});
}
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int ap_changes;
void apply_animated_parameters() {
ap_changes = 0;
for(auto &ap: aps) {
if(*ap.value != ap.last) continue;
*ap.value = parseld(ap.formula);
if(*ap.value != ap.last) {
if(ap.reaction) ap.reaction();
ap_changes++;
ap.last = *ap.value;
}
}
}
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bool needs_highqual;
bool joukowsky_anim;
void reflect_view() {
if(centerover.at) {
transmatrix T = Id;
cell *mbase = centerover.at;
cell *c = centerover.at;
if(shmup::reflect(c, mbase, T))
View = inverse(T) * View;
}
}
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void apply() {
int t = ticks - lastticks;
lastticks = ticks;
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switch(ma) {
case maTranslation:
if(conformal::on) {
conformal::phase = (isize(conformal::v) - 1) * ticks * 1. / period;
conformal::movetophase();
}
else if(centerover.at) {
reflect_view();
if((hyperbolic && !quotient &&
(centerover.at->land != cwt.at->land || memory_saving_mode) && among(centerover.at->land, laHaunted, laIvoryTower, laDungeon, laEndorian) && centerover.at->landparam >= 10
) ) {
if(memory_saving_mode) {
activateSafety(laIce);
return;
}
else {
fullcenter(); View = spin(rand() % 1000) * View;
}
}
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View = spin(movement_angle * M_PI / 180) * ypush(shift_angle * M_PI / 180) * xpush(cycle_length * t / period) * ypush(-shift_angle * M_PI / 180) *
spin(-movement_angle * M_PI / 180) * View;
moved();
}
break;
case maRotation:
View = spin(2 * M_PI * t / period) * View;
break;
case maParabolic:
reflect_view();
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View = spin(movement_angle * M_PI / 180) * ypush(shift_angle * M_PI / 180) * binary::parabolic(parabolic_length * t / period) * ypush(-shift_angle * M_PI / 180) *
spin(-movement_angle * M_PI / 180) * View;
moved();
break;
case maCircle: {
if(masterless) centerover = rotation_center_c;
else viewctr = rotation_center_h;
ld alpha = circle_spins * 2 * M_PI * ticks / period;
View = spin(-cos_auto(circle_radius)*alpha) * xpush(circle_radius) * spin(alpha) * rotation_center_View;
moved();
break;
}
default:
break;
}
if(env_ocean) {
turncount += env_ocean * ticks * tidalsize / period;
calcTidalPhase();
for(auto& p: gmatrix) if(p.first->land == laOcean) checkTide(p.first);
turncount -= ticks * tidalsize / period;
}
if(env_volcano) {
bak_turncount = turncount;
turncount += env_volcano * ticks * 64 / period;
for(auto& p: gmatrix) if(p.first->land == laVolcano) checkTide(p.first);
}
if(rug::rugged) {
if(rug_rotation1) {
rug::apply_rotation(rotmatrix(rug_angle * M_PI / 180, 1, 2));
rug::apply_rotation(rotmatrix(rug_rotation1 * 2 * M_PI * t / period, 0, 2));
rug::apply_rotation(rotmatrix(-rug_angle * M_PI / 180, 1, 2));
}
if(rug_rotation2) {
rug::apply_rotation(rug::currentrot * rotmatrix(rug_rotation2 * 2 * M_PI * t / period, 0, 1) * inverse(rug::currentrot));
}
}
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vid.skiprope += skiprope_rotation * t * 2 * M_PI / period;
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if(ballangle_rotation) {
if(conformal::model_has_orientation())
conformal::model_orientation += ballangle_rotation * 360 * t / period;
else
vid.ballangle += ballangle_rotation * 360 * t / period;
}
if(joukowsky_anim) {
ld t = ticks / period;
t = t - floor(t);
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if(pmodel == mdBand) {
conformal::model_transition = t * 4 - 1;
}
else {
conformal::model_transition = t / 1.1;
vid.scale = (1 - conformal::model_transition) / 2.;
}
}
apply_animated_parameters();
if(need_reset_geometry) resetGeometry(), need_reset_geometry = false;
calcparam();
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}
void rollback() {
if(env_volcano) {
turncount = bak_turncount;
}
}
#if CAP_FILES
string animfile = "animation-%04d.png";
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bool record_animation() {
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lastticks = 0;
ticks = 0;
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for(int i=0; i<noframes; i++) {
int newticks = i * period / noframes;
while(ticks < newticks) shmup::turn(1), ticks++;
apply();
conformal::configure();
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if(conformal::on) {
conformal::phase = isize(conformal::v) * i * 1. / noframes;
conformal::movetophase();
}
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char buf[1000];
snprintf(buf, 1000, animfile.c_str(), i);
saveHighQualityShot(buf);
rollback();
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}
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lastticks = ticks = SDL_GetTicks();
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return true;
}
#endif
void display_animation() {
if(ma == maCircle && (circle_display_color & 0xFF)) {
for(int s=0; s<10; s++) {
if(s == 0) curvepoint(ggmatrix(rotation_center_c.at) * xpush0(circle_radius - .1));
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for(int z=0; z<100; z++) curvepoint(ggmatrix(rotation_center_c.at) * xspinpush0((z+s*100) * 2 * M_PI / 1000., circle_radius));
queuecurve(circle_display_color, 0, PPR::LINE);
}
if(sphere) for(int s=0; s<10; s++) {
if(s == 0) curvepoint(centralsym * ggmatrix(rotation_center_c.at) * xpush0(circle_radius - .1));
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for(int z=0; z<100; z++) curvepoint(centralsym * ggmatrix(rotation_center_c.at) * xspinpush0((z+s*100) * 2 * M_PI / 1000., circle_radius));
queuecurve(circle_display_color, 0, PPR::LINE);
}
}
}
void animator(string caption, ld& param, char key) {
dialog::addBoolItem(caption, param, key);
if(param) dialog::lastItem().value = fts(param);
dialog::add_action([&param, caption] () {
if(param == 0) {
param = 1;
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string s =
XLAT(
"The value of 1 means that the period of this animation equals the period set in the animation menu. "
"Larger values correspond to faster animations.");
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dialog::editNumber(param, 0, 10, 1, 1, caption, s);
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}
else param = 0;
});
}
ld a, b;
void list_animated_parameters() {
dialog::addHelp(XLAT(
"Most parameters can be animated simply by using '..' in their editing dialog. "
"For example, the value of a parameter set to 0..1 will grow linearly from 0 to 1. "
"You can also use functions (e.g. cos(0..2*pi)) and refer to other parameters; "
"parameters 'a' and 'b' exist for this purpose. "
"See the list below for parameters which are currently animated (or changed)."));
dialog::addBreak(50);
for(auto& ap: aps) {
string what = "?";
for(auto& p: params) if(&p.second == ap.value) what = p.first;
dialog::addInfo(what + " = " + ap.formula);
}
dialog::addBreak(50);
dialog::addHelp(parser_help());
}
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ld animation_period;
void show() {
cmode = sm::SIDE; needs_highqual = false;
animation_lcm = 1;
gamescreen(0);
animation_period = 2 * M_PI * animation_lcm / animation_factor;
dialog::init(XLAT("animations"), iinf[itPalace].color, 150, 100);
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dialog::addSelItem(XLAT("period"), fts(period)+ " ms", 'p');
dialog::add_action([] () { dialog::editNumber(period, 0, 10000, 1000, 200, XLAT("period"),
XLAT("This is the period of the whole animation, though in some settings the animation can have a different period or be aperiodic. "
"Changing the value will make the whole animation slower or faster."
)); });
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if(animation_lcm > 1) {
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dialog::addSelItem(XLAT("game animation period"), fts(animation_period)+ " ms", 'G');
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dialog::add_action([] () {
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dialog::editNumber(animation_period, 0, 10000, 1000, 1000, XLAT("game animation period"),
XLAT("Least common multiple of the animation periods of all the game objects on screen, such as rotating items.")
);
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dialog::reaction = [] () { animation_factor = 2 * M_PI * animation_lcm / animation_period; };
dialog::extra_options = [] () {
dialog::addItem("default", 'D');
dialog::add_action([] () {
animation_factor = 1;
popScreen();
});
};
});
}
dialog::addBoolItem(XLAT("no movement animation"), ma == maNone, '0');
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dialog::add_action([] () { ma = maNone; });
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dialog::addBoolItem(XLAT("translation"), ma == maTranslation, '1');
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dialog::add_action([] () { ma = maTranslation; });
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dialog::addBoolItem(XLAT("rotation"), ma == maRotation, '2');
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dialog::add_action([] () { ma = maRotation; });
if(hyperbolic) {
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dialog::addBoolItem(XLAT("parabolic"), ma == maParabolic, '3');
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dialog::add_action([] () { ma = maParabolic; });
}
if(among(pmodel, mdJoukowsky, mdJoukowskyInverted)) {
dialog::addBoolItem(XLAT("joukowsky_anim"), joukowsky_anim, 'j');
dialog::add_action([] () { joukowsky_anim = !joukowsky_anim; });
}
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if(among(pmodel, mdJoukowsky, mdJoukowskyInverted)) {
animator(XLAT("Möbius transformations"), skiprope_rotation, 'S');
}
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dialog::addBoolItem(XLAT("circle"), ma == maCircle, '4');
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dialog::add_action([] () { ma = maCircle;
rotation_center_h = viewctr;
rotation_center_c = centerover;
rotation_center_View = View;
});
switch(ma) {
case maCircle: {
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animator(XLAT("circle spins"), circle_spins, 's');
dialog::addSelItem(XLAT("circle radius"), fts(circle_radius), 'c');
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dialog::add_action([] () {
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dialog::editNumber(circle_radius, 0, 10, 0.1, acosh(1.), XLAT("circle radius"), "");
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dialog::extra_options = [] () {
if(hyperbolic) {
// area = 2pi (cosh(r)-1)
dialog::addSelItem(XLAT("double spin"), fts(acosh(2.)), 'A');
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dialog::add_action([] () { circle_radius = acosh(2.); });
dialog::addSelItem(XLAT("triple spin"), fts(acosh(3.)), 'B');
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dialog::add_action([] () { circle_radius = acosh(3.); });
}
if(sphere) {
dialog::addSelItem(XLAT("double spin"), fts(acos(1/2.)), 'A');
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dialog::add_action([] () { circle_radius = acos(1/2.); });
dialog::addSelItem(XLAT("triple spin"), fts(acos(1/3.)), 'B');
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dialog::add_action([] () { circle_radius = acos(1/3.); });
}
};
});
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dialog::addColorItem(XLAT("draw the circle"), circle_display_color, 'd');
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dialog::add_action([] () {
dialog::openColorDialog(circle_display_color, NULL);
});
dialog::addBreak(100);
}
case maTranslation:
case maParabolic: {
if(ma == maTranslation && conformal::on)
dialog::addBreak(300);
else if(ma == maTranslation) {
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dialog::addSelItem(XLAT("cycle length"), fts(cycle_length), 'c');
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dialog::add_action([] () {
dialog::editNumber(cycle_length, 0, 10, 0.1, 2*M_PI, "shift", "");
dialog::extra_options = [] () {
dialog::addSelItem(XLAT("full circle"), fts(2 * M_PI), 'A');
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dialog::add_action([] () { cycle_length = 2 * M_PI; });
dialog::addSelItem(XLAT("Zebra period"), fts(2.898149445355172), 'B');
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dialog::add_action([] () { cycle_length = 2.898149445355172; });
dialog::addSelItem(XLAT("Bolza period"), fts(2 * 1.528571), 'C');
dialog::add_action([] () { cycle_length = 2 * 1.528571; });
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};
});
}
else {
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dialog::addSelItem(XLAT("cells to go"), fts(parabolic_length), 'c');
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dialog::add_action([] () {
dialog::editNumber(parabolic_length, 0, 10, 1, 1, "cells to go", "");
});
}
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dialog::addSelItem(XLAT("shift"), fts(shift_angle) + "°", 's');
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dialog::add_action([] () {
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dialog::editNumber(shift_angle, 0, 90, 15, 0, XLAT("shift"), "");
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});
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dialog::addSelItem(XLAT("movement angle"), fts(movement_angle) + "°", 'm');
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dialog::add_action([] () {
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dialog::editNumber(movement_angle, 0, 360, 15, 0, XLAT("movement angle"), "");
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});
break;
}
default: {
dialog::addBreak(300);
}
}
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animator(XLATN("Ocean"), env_ocean, 'o');
animator(XLATN("Volcanic Wasteland"), env_volcano, 'v');
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#if CAP_RUG
if(rug::rugged) {
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animator(XLAT("screen-relative rotation"), rug_rotation1, 'r');
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if(rug_rotation1) {
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dialog::addSelItem(XLAT("angle"), fts(rug_angle) + "°", 'a');
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dialog::add_action([] () {
dialog::editNumber(rug_angle, 0, 360, 15, 0, "Rug angle", "");
});
}
else dialog::addBreak(100);
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animator(XLAT("model-relative rotation"), rug_rotation2, 'r');
animator(XLAT("automatic move speed"), rug::ruggo, 'M');
dialog::add_action([] () {
dialog::editNumber(rug::ruggo, 0, 10, 1, 1, XLAT("automatic move speed"), XLAT("Move automatically without pressing any keys."));
if(among(rug::gwhere, gSphere, gElliptic))
dialog::extra_options = [] () {
dialog::addItem(XLAT("synchronize"), 'S');
dialog::add_action([] () { rug::ruggo = 2 * M_PI * 1000 / period; popScreen(); });
};
});
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}
#endif
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if(conformal::model_has_orientation())
animator(XLAT("model rotation"), ballangle_rotation, 'r');
else if(among(pmodel, mdHyperboloid, mdHemisphere, mdBall))
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animator(XLAT("3D rotation"), ballangle_rotation, 'r');
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dialog::addSelItem(XLAT("animate parameters"), fts(a), 'a');
dialog::add_action([] () {
dialog::editNumber(a, -100, 100, 1, 0, XLAT("animate parameters"), "");
dialog::extra_options = list_animated_parameters;
});
dialog::addSelItem(XLAT("animate parameters"), fts(b), 'b');
dialog::add_action([] () {
dialog::editNumber(b, -100, 100, 1, 0, XLAT("animate parameters"), "");
dialog::extra_options = list_animated_parameters;
});
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dialog::addBoolItem(XLAT("history mode"), (conformal::on || conformal::includeHistory), 'h');
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dialog::add_action([] () { pushScreen(conformal::history_menu); });
#if CAP_FILES
if(needs_highqual)
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dialog::addInfo(XLAT("some parameters will only change in recorded animation"));
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else
dialog::addBreak(100);
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dialog::addSelItem(XLAT("frames to record"), its(noframes), 'n');
dialog::add_action([] () { dialog::editNumber(noframes, 0, 300, 30, 5, XLAT("frames to record"), ""); });
dialog::addSelItem(XLAT("record to a file"), animfile, 'R');
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dialog::add_action([] () {
dialog::openFileDialog(animfile, XLAT("record to a file"), ".png", record_animation);
});
#endif
dialog::addBack();
dialog::display();
}
int readArgs() {
using namespace arg;
if(0) ;
else if(argis("-animmenu")) {
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PHASE(3); showstartmenu = false; pushScreen(show);
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}
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else if(argis("-animperiod")) {
PHASE(2); shift_arg_formula(period);
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}
else if(argis("-animrecord")) {
PHASE(3); shift(); noframes = argi();
shift(); animfile = args(); record_animation();
}
else if(argis("-animcircle")) {
PHASE(3); start_game();
ma = maCircle;
rotation_center_h = viewctr;
rotation_center_c = cwt.at;
rotation_center_View = View;
shift_arg_formula(circle_spins);
shift_arg_formula(circle_radius);
shift(); circle_display_color = arghex();
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}
else if(argis("-animmove")) {
ma = maTranslation;
shift_arg_formula(cycle_length);
shift_arg_formula(shift_angle);
shift_arg_formula(movement_angle);
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}
else if(argis("-animpar")) {
ma = maParabolic;
shift_arg_formula(parabolic_length);
shift_arg_formula(shift_angle);
shift_arg_formula(movement_angle);
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}
else if(argis("-animrot")) {
ma = maRotation;
}
else if(argis("-animrug")) {
shift_arg_formula(rug_rotation1);
shift_arg_formula(rug_angle);
shift_arg_formula(rug_rotation2);
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}
else if(argis("-animenv")) {
shift_arg_formula(env_ocean);
shift_arg_formula(env_volcano);
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}
else if(argis("-animball")) {
shift_arg_formula(ballangle_rotation);
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}
else if(argis("-animj")) {
shift(); joukowsky_anim = true;
}
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else if(argis("-animrec")) {
PHASE(3);
shift(); noframes = argi();
shift(); animfile = args();
record_animation();
}
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else return 1;
return 0;
}
auto animhook = addHook(hooks_args, 100, readArgs)
+ addHook(hooks_frame, 100, display_animation)
+ 0;
bool any_animation() {
if(conformal::on) return true;
if(ma) return true;
if(ballangle_rotation || rug_rotation1 || rug_rotation2) return true;
if(ap_changes) return true;
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return false;
}
bool any_on() {
return any_animation() || conformal::includeHistory;
}
bool center_music() {
return among(ma, maParabolic, maTranslation);
}
}
#endif
}