Heat: THE AUTHENTIC ELECTRICAL MODEL -- weapons recharge from generators (task #10)
Task #10 set out to fix "scrambled linked-sink routing"; a [heat-link] attach log proved the routing was NEVER scrambled (every subsystem links its authored condenser exactly; the "pools in Condenser1" read was the diagnostic-sampler aliasing trap). The real defect: emitter.cpp's local FUN_00417ab4 stub returned NULL, so the whole electrical model was inert and the E7 force-charge recharged every emitter in ONE frame (~0.3s cycle, 1501 fires/90s, ~1.7e9 heat/s -- the "runaway"). Landed authentically [T1: disasm + byte-verified constants]: - Emitter ctor @004bb120: seekVoltage = authored fraction x generator ratedVoltage (10000); EC = energyTotal/(seekV^2 x 0.5); voltageScale@0x310 = (RechargeRate / -ln(1 - 1e-4 x seekV)) / EC -- charge reaches seekV[rec] in EXACTLY the authored RechargeRate (PPC 5s, ERL 4s, SRM 3s, ERM 2s) cold. Owner-flags ctor gate (the usual gotcha; the this-flags read never armed). - PoweredSubsystem::ChargeTimeScale (@004b0d50, was a =1.0 stub): voltageScale x (1 + thermalResistivity x srcTempRise) -- hot generators charge slower. ("voltageScale is never read back" was wrong; corrected + swept.) - TrackSeekVoltage @004ba838: charging I^2R -> the GENERATOR's pendingHeat (~3.5e8/full PPC charge) -- generators self-heat, conduct to their authored condensers, and throttle further charging. The feedback economy closes. - FailureHeat consumers found: this+0x184 == 2 gates BOTH weapon families (@004baa88 emitter: reset firing + hold charge 0; @004bbd36 ballistic: recoil=rechargeRate + alarm 7). Emitter::GetFaultState un-stubbed. - ProjectileWeaponSimulation @004bbd04 opens with call 0x4b0bd0 (disasm) -- launchers now run the powered/heat step (their firing heat previously accumulated in pendingHeat forever). - heat.cpp: per-instance BT_HEAT_LOG census (the old shared-static 1-Hz sampler aliased); [heat-link] attach log; the stolen-else Verify restored. Verified live (120s max-rate autofire): PPC ~470-500 (was 55,000), bank plateaus ~600 and sheds to ambient, generators 1100-1400, ERMLaser self-regulates at the authored 2000 failure threshold (shutdown-cool-resume). Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>
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Claude Fable 5
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@@ -341,6 +341,41 @@ void
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}
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//
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// @004b0d50 -- the charge time-scale (task #10, the heat/firepower feedback):
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// rise = max(0, srcTemperature - srcStartingTemperature) (src+0x114 - src+0x13C)
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// scale = max(voltageScale,
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// (thermalResistivityCoefficient * rise + 1.0) * voltageScale)
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// (_DAT_004b0dd0 = 0.0f, _DAT_004b0dd4 = 1.0f, both byte-verified.) The binary
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// dereferences the resolved source UNGUARDED (the master ctor Verify guarantees
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// the link); the port falls back to the unstretched voltageScale instead.
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//
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Scalar
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PoweredSubsystem::ChargeTimeScale()
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{
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Generator *source = (Generator *)voltageSource.Resolve(); // FUN_00417ab4(this+0x1D0)
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Scalar rise = 0.0f;
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if (source != 0)
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{
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rise = source->currentTemperature // src+0x114
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- source->startingTemperature; // src+0x13C
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}
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if (rise < 0.0f) // _DAT_004b0dd0
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{
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rise = 0.0f;
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}
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Scalar scale = (thermalResistivityCoefficient * rise + 1.0f) // this+0x30C, _DAT_004b0dd4
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* voltageScale; // this+0x310
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if (scale < voltageScale)
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{
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scale = voltageScale;
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}
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return scale;
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}
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//#############################################################################
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// Subsystem virtual overrides
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//
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