rewrite ldtc to be less buggy
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krawthekrow
jacob1
parent
1c1bcb0cdc
commit
711d65bbd5
@ -46,10 +46,14 @@ Element_LDTC::Element_LDTC()
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Update = &Element_LDTC::update;
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}
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const int mask_invert_filter = 0x1;
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const int mask_ignore_energy = 0x2;
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const int mask_no_copy_color = 0x4;
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const int mask_keep_searching = 0x8;
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//#TPT-Directive ElementHeader Element_LDTC static const int FLAG_INVERT_FILTER
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//#TPT-Directive ElementHeader Element_LDTC static const int FLAG_IGNORE_ENERGY
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//#TPT-Directive ElementHeader Element_LDTC static const int FLAG_NO_COPY_COLOR
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//#TPT-Directive ElementHeader Element_LDTC static const int FLAG_KEEP_SEARCHING
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const int Element_LDTC::FLAG_INVERT_FILTER = 0x1;
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const int Element_LDTC::FLAG_IGNORE_ENERGY = 0x2;
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const int Element_LDTC::FLAG_NO_COPY_COLOR = 0x4;
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const int Element_LDTC::FLAG_KEEP_SEARCHING = 0x8;
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//NOTES:
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// ctype is used to store the target element, if any. (NONE is treated as a wildcard)
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@ -62,31 +66,37 @@ const int mask_keep_searching = 0x8;
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// 0x08: Keep searching even after finding a particle
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//#TPT-Directive ElementHeader Element_LDTC static bool phot_data_type(int rt);
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/* Returns true for particles that activate the special FILT color copying mode */
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bool phot_data_type(int rt)
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bool Element_LDTC::phot_data_type(int rt)
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{
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if (rt == PT_FILT || rt == PT_PHOT || rt == PT_BRAY)
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return true;
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return false;
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return rt == PT_FILT || rt == PT_PHOT || rt == PT_BRAY;
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}
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//#TPT-Directive ElementHeader Element_LDTC static bool accepted_conductor(Simulation *sim, int rt);
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/* Returns true for particles that start a ray search ("dtec" mode)
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*/
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bool accepted_type(Simulation* sim, int r)
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bool Element_LDTC::accepted_conductor(Simulation* sim, int r)
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{
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int rt = TYP(r);
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if ((sim->elements[rt].Properties & PROP_CONDUCTS) && !(rt == PT_WATR || rt == PT_SLTW || rt == PT_NTCT || rt == PT_PTCT || rt == PT_INWR))
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{
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if (sim->parts[ID(r)].life == 0)
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return true;
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}
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return false;
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return (sim->elements[rt].Properties & PROP_CONDUCTS) &&
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!(rt == PT_WATR || rt == PT_SLTW || rt == PT_NTCT ||
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rt == PT_PTCT || rt == PT_INWR) &&
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sim->parts[ID(r)].life == 0;
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}
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//#TPT-Directive ElementHeader Element_LDTC static int update(UPDATE_FUNC_ARGS)
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int Element_LDTC::update(UPDATE_FUNC_ARGS)
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{
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int max = parts[i].tmp + parts[i].life;
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int ctype = TYP(parts[i].ctype), ctypeExtra = ID(parts[i].ctype), detectLength = parts[i].tmp, detectSpaces = parts[i].tmp2;
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bool copyColor = !(parts[i].tmp2 & Element_LDTC::FLAG_NO_COPY_COLOR);
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bool ignoreEnergy = parts[i].tmp2 & Element_LDTC::FLAG_IGNORE_ENERGY;
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bool invertFilter = parts[i].tmp2 & Element_LDTC::FLAG_INVERT_FILTER;
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bool keepSearching = parts[i].tmp2 & Element_LDTC::FLAG_KEEP_SEARCHING;
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if (detectSpaces < 0)
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detectSpaces = parts[i].tmp2 = 0;
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if (detectLength < 0)
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detectLength = parts[i].tmp = 0;
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for (int rx = -1; rx <= 1; rx++)
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{
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for (int ry = -1; ry <= 1; ry++)
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@ -96,70 +106,68 @@ int Element_LDTC::update(UPDATE_FUNC_ARGS)
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int r = pmap[y+ry][x+rx];
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if (!r)
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continue;
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if (!accepted_type(sim, r) && ((parts[i].tmp2 & mask_no_copy_color) || !phot_data_type(TYP(r))))
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bool boolMode = Element_LDTC::accepted_conductor(sim, r);
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bool filtMode = copyColor && TYP(r) == PT_FILT;
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if (!boolMode && !filtMode)
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continue;
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// Stolen from DRAY, does the ray searching
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int maxRange = parts[i].life + parts[i].tmp;
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int xStep = rx * -1, yStep = ry * -1;
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int xCurrent = x + (xStep * (parts[i].life + 1)), yCurrent = y + (yStep * (parts[i].life + 1));
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for (;(parts[i].tmp == 0) || !(xCurrent - x >= max) || (yCurrent-y >= max); xCurrent += xStep, yCurrent += yStep)
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for (; !parts[i].tmp ||
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(xStep * (xCurrent - x) <= maxRange &&
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yStep * (yCurrent - y) <= maxRange);
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xCurrent += xStep, yCurrent += yStep)
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{
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int rr = pmap[yCurrent][xCurrent];
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if (!(xCurrent>=0 && yCurrent>=0 && xCurrent<XRES && yCurrent<YRES))
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{
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break; // We're out of bounds! Oops!
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}
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if (!rr)
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{
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int rr = pmap[yCurrent][xCurrent];
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if (!rr && !ignoreEnergy)
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rr = sim->photons[yCurrent][xCurrent];
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if (!(rr && !(parts[i].tmp2 & mask_ignore_energy)))
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{
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continue;
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}
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}
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if (!rr)
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continue;
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// Usual DTEC-like mode
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if (!phot_data_type(TYP(r)))
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// If ctype isn't set (no type restriction), or ctype matches what we found
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// Can use .tmp2 flag to invert this
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bool matchesCtype = parts[i].ctype == TYP(rr) && (ctype != PT_LIFE || parts[ID(rr)].ctype == ctypeExtra);
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bool matchesFilter = !ctype || (invertFilter ^ (int)matchesCtype);
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if (!matchesFilter)
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{
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// If ctype isn't set (no type restriction), or ctype matches what we found
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// Can use .tmp2 flag to invert this
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if (parts[i].ctype == 0 || (parts[i].ctype == TYP(rr)) ^ (parts[i].tmp2 & mask_invert_filter))
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{
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parts[ID(r)].life = 4;
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parts[ID(r)].ctype = TYP(r);
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sim->part_change_type(ID(r), x + rx, y + ry, PT_SPRK);
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if (keepSearching)
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continue;
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else
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break;
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}
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// room for more conditions here.
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}
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// FILT color copying mode
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else
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// room for more conditions here.
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if (boolMode)
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{
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// If ctype isn't set (no type restriction), or ctype matches what we found
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// Can use .tmp2 flag to invert this
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if (parts[i].ctype == 0 || (parts[i].ctype == TYP(rr)) ^ (parts[i].tmp2 & mask_invert_filter))
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{
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if (phot_data_type(TYP(rr)))
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{
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int nx = x + rx, ny = y + ry;
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while (TYP(r) == PT_FILT)
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{
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parts[ID(r)].ctype = Element_FILT::getWavelengths(&parts[ID(rr)]);
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nx += rx;
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ny += ry;
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if (nx < 0 || ny < 0 || nx >= XRES || ny >= YRES)
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break;
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r = pmap[ny][nx];
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}
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break;
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}
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}
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}
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if (!(parts[i].tmp2 & mask_keep_searching))
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parts[ID(r)].life = 4;
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parts[ID(r)].ctype = TYP(r);
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sim->part_change_type(ID(r), x + rx, y + ry, PT_SPRK);
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break;
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}
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if (filtMode)
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{
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if (!Element_LDTC::phot_data_type(TYP(rr)))
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continue;
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int nx = x + rx, ny = y + ry;
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int photonWl = TYP(rr) == PT_FILT ?
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Element_FILT::getWavelengths(&parts[ID(rr)]) :
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parts[ID(rr)].ctype;
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while (TYP(r) == PT_FILT)
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{
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parts[ID(r)].ctype = photonWl;
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nx += rx;
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ny += ry;
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if (nx < 0 || ny < 0 || nx >= XRES || ny >= YRES)
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break;
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r = pmap[ny][nx];
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}
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break;
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}
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}
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}
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}
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