return sprintf("%.*f", decimals, number);
}
-float time;
vector colormapPaletteColor(float c, float isPants)
{
switch(c)
}
}
-vector healtharmor_maxdamage(float h, float a, float armorblock)
+#ifndef MENUQC
+vector healtharmor_maxdamage(float h, float a, float armorblock, float deathtype)
{
// NOTE: we'll always choose the SMALLER value...
float healthdamage, armordamage, armorideal;
+ if (deathtype == DEATH_DROWN) // Why should armor help here...
+ armorblock = 0;
vector v;
healthdamage = (h - 1) / (1 - armorblock); // damage we can take if we could use more health
armordamage = a + (h - 1); // damage we can take if we could use more armor
return v;
}
-vector healtharmor_applydamage(float a, float armorblock, float damage)
+vector healtharmor_applydamage(float a, float armorblock, float deathtype, float damage)
{
vector v;
+ if (deathtype == DEATH_DROWN) // Why should armor help here...
+ armorblock = 0;
v_y = bound(0, damage * armorblock, a); // save
v_x = bound(0, damage - v_y, damage); // take
v_z = 0;
return v;
}
+#endif
string getcurrentmod()
{
v += ReadByte(); // note: this is unsigned
return v;
}
+vector ReadInt48_t()
+{
+ vector v;
+ v_x = ReadInt24_t();
+ v_y = ReadInt24_t();
+ v_z = 0;
+ return v;
+}
+vector ReadInt72_t()
+{
+ vector v;
+ v_x = ReadInt24_t();
+ v_y = ReadInt24_t();
+ v_z = ReadInt24_t();
+ return v;
+}
#else
void WriteInt24_t(float dst, float val)
{
WriteShort(dst, (v = floor(val / 256)));
WriteByte(dst, val - v * 256); // 0..255
}
+void WriteInt48_t(float dst, vector val)
+{
+ WriteInt24_t(dst, val_x);
+ WriteInt24_t(dst, val_y);
+}
+void WriteInt72_t(float dst, vector val)
+{
+ WriteInt24_t(dst, val_x);
+ WriteInt24_t(dst, val_y);
+ WriteInt24_t(dst, val_z);
+}
#endif
#endif
float lowestbit(float f)
{
- f &~= f * 2;
- f &~= f * 4;
- f &~= f * 16;
- f &~= f * 256;
- f &~= f * 65536;
+ f &= ~(f * 2);
+ f &= ~(f * 4);
+ f &= ~(f * 16);
+ f &= ~(f * 256);
+ f &= ~(f * 65536);
return f;
}
// (3, [0..3])
// (3.5, [0.2..2.3])
// (4, 1)
+
+ /*
+ On another note:
+ inflection point is always at (2s + e - 3) / (3s + 3e - 6).
+
+ s + e - 2 == 0: no inflection
+
+ s + e > 2:
+ 0 < inflection < 1 if:
+ 0 < 2s + e - 3 < 3s + 3e - 6
+ 2s + e > 3 and 2e + s > 3
+
+ s + e < 2:
+ 0 < inflection < 1 if:
+ 0 > 2s + e - 3 > 3s + 3e - 6
+ 2s + e < 3 and 2e + s < 3
+
+ Therefore: there is an inflection point iff:
+ e outside (3 - s)/2 .. 3 - s*2
+
+ in other words, if (s,e) in triangle (1,1)(0,3)(0,1.5) or in triangle (1,1)(3,0)(1.5,0)
+ */
}
.float FindConnectedComponent_processing;
#endif
#ifndef MENUQC
-float Announcer_PickNumber(float num)
-{
- switch(num)
- {
- case 10: num = ANNCE_NUM_10; break;
- case 9: num = ANNCE_NUM_9; break;
- case 8: num = ANNCE_NUM_8; break;
- case 7: num = ANNCE_NUM_7; break;
- case 6: num = ANNCE_NUM_6; break;
- case 5: num = ANNCE_NUM_5; break;
- case 4: num = ANNCE_NUM_4; break;
- case 3: num = ANNCE_NUM_3; break;
- case 2: num = ANNCE_NUM_2; break;
- case 1: num = ANNCE_NUM_1; break;
- }
- return num;
+float Announcer_PickNumber(float type, float num)
+{
+ switch(type)
+ {
+ case CNT_GAMESTART:
+ {
+ switch(num)
+ {
+ case 10: return ANNCE_NUM_GAMESTART_10;
+ case 9: return ANNCE_NUM_GAMESTART_9;
+ case 8: return ANNCE_NUM_GAMESTART_8;
+ case 7: return ANNCE_NUM_GAMESTART_7;
+ case 6: return ANNCE_NUM_GAMESTART_6;
+ case 5: return ANNCE_NUM_GAMESTART_5;
+ case 4: return ANNCE_NUM_GAMESTART_4;
+ case 3: return ANNCE_NUM_GAMESTART_3;
+ case 2: return ANNCE_NUM_GAMESTART_2;
+ case 1: return ANNCE_NUM_GAMESTART_1;
+ }
+ break;
+ }
+ case CNT_IDLE:
+ {
+ switch(num)
+ {
+ case 10: return ANNCE_NUM_IDLE_10;
+ case 9: return ANNCE_NUM_IDLE_9;
+ case 8: return ANNCE_NUM_IDLE_8;
+ case 7: return ANNCE_NUM_IDLE_7;
+ case 6: return ANNCE_NUM_IDLE_6;
+ case 5: return ANNCE_NUM_IDLE_5;
+ case 4: return ANNCE_NUM_IDLE_4;
+ case 3: return ANNCE_NUM_IDLE_3;
+ case 2: return ANNCE_NUM_IDLE_2;
+ case 1: return ANNCE_NUM_IDLE_1;
+ }
+ break;
+ }
+ case CNT_KILL:
+ {
+ switch(num)
+ {
+ case 10: return ANNCE_NUM_KILL_10;
+ case 9: return ANNCE_NUM_KILL_9;
+ case 8: return ANNCE_NUM_KILL_8;
+ case 7: return ANNCE_NUM_KILL_7;
+ case 6: return ANNCE_NUM_KILL_6;
+ case 5: return ANNCE_NUM_KILL_5;
+ case 4: return ANNCE_NUM_KILL_4;
+ case 3: return ANNCE_NUM_KILL_3;
+ case 2: return ANNCE_NUM_KILL_2;
+ case 1: return ANNCE_NUM_KILL_1;
+ }
+ break;
+ }
+ case CNT_RESPAWN:
+ {
+ switch(num)
+ {
+ case 10: return ANNCE_NUM_RESPAWN_10;
+ case 9: return ANNCE_NUM_RESPAWN_9;
+ case 8: return ANNCE_NUM_RESPAWN_8;
+ case 7: return ANNCE_NUM_RESPAWN_7;
+ case 6: return ANNCE_NUM_RESPAWN_6;
+ case 5: return ANNCE_NUM_RESPAWN_5;
+ case 4: return ANNCE_NUM_RESPAWN_4;
+ case 3: return ANNCE_NUM_RESPAWN_3;
+ case 2: return ANNCE_NUM_RESPAWN_2;
+ case 1: return ANNCE_NUM_RESPAWN_1;
+ }
+ break;
+ }
+ case CNT_ROUNDSTART:
+ {
+ switch(num)
+ {
+ case 10: return ANNCE_NUM_ROUNDSTART_10;
+ case 9: return ANNCE_NUM_ROUNDSTART_9;
+ case 8: return ANNCE_NUM_ROUNDSTART_8;
+ case 7: return ANNCE_NUM_ROUNDSTART_7;
+ case 6: return ANNCE_NUM_ROUNDSTART_6;
+ case 5: return ANNCE_NUM_ROUNDSTART_5;
+ case 4: return ANNCE_NUM_ROUNDSTART_4;
+ case 3: return ANNCE_NUM_ROUNDSTART_3;
+ case 2: return ANNCE_NUM_ROUNDSTART_2;
+ case 1: return ANNCE_NUM_ROUNDSTART_1;
+ }
+ break;
+ }
+ default:
+ {
+ switch(num)
+ {
+ case 10: return ANNCE_NUM_10;
+ case 9: return ANNCE_NUM_9;
+ case 8: return ANNCE_NUM_8;
+ case 7: return ANNCE_NUM_7;
+ case 6: return ANNCE_NUM_6;
+ case 5: return ANNCE_NUM_5;
+ case 4: return ANNCE_NUM_4;
+ case 3: return ANNCE_NUM_3;
+ case 2: return ANNCE_NUM_2;
+ case 1: return ANNCE_NUM_1;
+ }
+ break;
+ }
+ }
+ return NOTIF_ABORT; // abort sending if none of these numbers were right
}
#endif