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Code Issues Releases Wiki Activity

fixed hunting flashes

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This commit is contained in:
Zeno Rogue 2019-12-08 19:33:17 +01:00
parent 26fb19e7a8
commit e5a2116958
1 changed files with 69 additions and 61 deletions
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130
graph.cpp
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@ -4118,67 +4118,11 @@ void drawFlashes() {
for(int k=0; k<isize(flashes); k++) {
bool kill = true;
flashdata& f = flashes[k];
ADC(V, f.where) {
int tim = ticks - f.t;
if(tim <= f.size && !f.spd) kill = false;
if(f.spd) {
#if CAP_SHAPES
if(tim <= 300) kill = false;
int partcol = darkena(f.color, 0, GDIM == 3 ? 255 : max(255 - tim*255/300, 0));
poly_outline = OUTLINE_DEFAULT;
ld t = f.spd * tim * cgi.scalefactor / 50000.;
transmatrix T =
GDIM == 2 ? V * spin(f.angle) * xpush(t) :
V * cspin(0, 1, f.angle) * cspin(0, 2, f.angle2) * cpush(2, t);
queuepoly(T, cgi.shParticle[f.size], partcol);
#endif
}
else if(f.size == 1000) {
for(int u=0; u<=tim; u++) {
if((u-tim)%50) continue;
if(u < tim-150) continue;
ld rad = u * 3 / 1000.;
rad = rad * (5-rad) / 2;
rad *= cgi.hexf;
int flashcol = f.color;
if(u > 500) flashcol = gradient(flashcol, 0, 500, u, 1100);
flashcol = darkena(flashcol, 0, 0xFF);
#if MAXMDIM >= 4
if(GDIM == 3)
queueball(V * zpush(cgi.GROIN1), rad, flashcol, itDiamond);
else
#endif
{
PRING(a) curvepoint(V*xspinpush0(a * M_PI / cgi.S42, rad));
queuecurve(flashcol, 0x8080808, PPR::LINE);
}
}
}
else if(f.size == 2000) {
for(int u=0; u<=tim; u++) {
if((u-tim)%50) continue;
if(u < tim-250) continue;
ld rad = u * 3 / 2000.;
rad = rad * (5-rad) * 1.25;
rad *= cgi.hexf;
int flashcol = f.color;
if(u > 1000) flashcol = gradient(flashcol, 0, 1000, u, 2200);
flashcol = darkena(flashcol, 0, 0xFF);
#if MAXMDIM >= 4
if(GDIM == 3)
queueball(V * zpush(cgi.GROIN1), rad, flashcol, itRuby);
else
#endif
{
PRING(a) curvepoint(V*xspinpush0(a * M_PI / cgi.S42, rad));
queuecurve(flashcol, 0x8080808, PPR::LINE);
}
}
}
bool copies = false;
ADC(V, f.where) copies = true, draw_flash(f, V, kill);
forCellIdEx(c2, id, f.where) if(!copies) ADC(V, c2) {
draw_flash(f, V * currentmap->iadj(f.where, id), kill);
copies = true;
}
if(kill) {
f = flashes[isize(flashes)-1];
@ -4188,6 +4132,70 @@ void drawFlashes() {
#endif
}
#if CAP_QUEUE
EX void draw_flash(struct flashdata& f, const transmatrix& V, bool& kill) {
int tim = ticks - f.t;
if(tim <= f.size && !f.spd) kill = false;
if(f.spd) {
#if CAP_SHAPES
if(tim <= 300) kill = false;
int partcol = darkena(f.color, 0, GDIM == 3 ? 255 : max(255 - tim*255/300, 0));
poly_outline = OUTLINE_DEFAULT;
ld t = f.spd * tim * cgi.scalefactor / 50000.;
transmatrix T =
GDIM == 2 ? V * spin(f.angle) * xpush(t) :
V * cspin(0, 1, f.angle) * cspin(0, 2, f.angle2) * cpush(2, t);
queuepoly(T, cgi.shParticle[f.size], partcol);
#endif
}
else if(f.size == 1000) {
for(int u=0; u<=tim; u++) {
if((u-tim)%50) continue;
if(u < tim-150) continue;
ld rad = u * 3 / 1000.;
rad = rad * (5-rad) / 2;
rad *= cgi.hexf;
int flashcol = f.color;
if(u > 500) flashcol = gradient(flashcol, 0, 500, u, 1100);
flashcol = darkena(flashcol, 0, 0xFF);
#if MAXMDIM >= 4
if(GDIM == 3)
queueball(V * zpush(cgi.GROIN1), rad, flashcol, itDiamond);
else
#endif
{
PRING(a) curvepoint(V*xspinpush0(a * M_PI / cgi.S42, rad));
queuecurve(flashcol, 0x8080808, PPR::LINE);
}
}
}
else if(f.size == 2000) {
for(int u=0; u<=tim; u++) {
if((u-tim)%50) continue;
if(u < tim-250) continue;
ld rad = u * 3 / 2000.;
rad = rad * (5-rad) * 1.25;
rad *= cgi.hexf;
int flashcol = f.color;
if(u > 1000) flashcol = gradient(flashcol, 0, 1000, u, 2200);
flashcol = darkena(flashcol, 0, 0xFF);
#if MAXMDIM >= 4
if(GDIM == 3)
queueball(V * zpush(cgi.GROIN1), rad, flashcol, itRuby);
else
#endif
{
PRING(a) curvepoint(V*xspinpush0(a * M_PI / cgi.S42, rad));
queuecurve(flashcol, 0x8080808, PPR::LINE);
}
}
}
}
#endif
EX bool allowIncreasedSight() {
if(cheater || autocheat) return true;
if(peace::on) return true;