aae3ce29d843380cf32f93541db7a9712e18f9ad
7
Commits
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b44e908101 |
gauge wave P2c: GeneratorCluster reconstructed + infra (gated -- parent aborts)
Reconstructed the 4th unbuilt widget (the 4 generator engineering panels, buttons 9-12) + its companions, but left it UNREGISTERED pending a runtime-abort fix: - Generator OutputVoltage attribute table (powersub) -> outputVoltage@0x1DC, chained to HeatSink's dense index (temps already reach it). Correct + reusable. - ScalarBarGauge @004c72ac plain-Scalar variant (btl4gau2) -- the DIRECT-Scalar* bar the GeneratorCluster voltage bar needs (the existing @004c721c takes a resolved source object). Correct + harmless. - GeneratorCluster Make/ctor/dtor + 15-param methodDescription reconstructed from part_014.c:891-1013 (replacing the prose + placeholder Make + the bogus DAT pool); builds the 5 children (temp bar / voltage bar / leak wipe / 2 lamps). Header fixed to the binary ctor param order (secondaryColor@0x94, +_reserved0xB0 -> sizeof 0xB4). ChildRate forward-declared. ⚠ REGISTRATION GATED (commented out in BTL4MethodDescription[]): registering it aborts at runtime -- the 4 panels build (the 4 "BecameActive not defined" warnings fire) then abort(). ISOLATED to the PARENT lifecycle: the abort PERSISTS with all 5 children nulled; there are no pure virtuals; Execute is SEH-guarded under BT_DEV_GAUGES so the fault is in the unguarded ctor/lifecycle path. The sibling SubsystemCluster overrides BecameActive/Execute/TestInstance whereas the decode has GeneratorCluster overriding ONLY the dtor -- that "inherits only the dtor" claim is the prime suspect. Deferred; the 3 other P2 widgets (LeakGauge/VertNormalSlider/PilotList) ship clean. Verified: unregistered -> parse-skips -> no abort; combat un-regressed (DESTROYED), 0 crashes. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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070af409f7 |
gauge wave P1a: publish heat/power/weapon attributes + radar zoom
The gauge-databinding-map workflow found most cockpit gauges resolve NULL because the reconstructed subsystems publish only a fraction of the attributes the config binds. First publishing batch (attribute tables are read-only static data; ids kept a dense prefix from each parent's NextAttributeID): - HeatSink table dense-append: DegradationTemperature/FailureTemperature (the condenser temp-bar warn/max endpoints -- were NULL, so the two-part bars could not scale), NormalizedPressure/DegradationPressure/CoolantMassLeakRate, and the HeatSink link. Condenser/Reservoir inherit this -> all 6 condenser temp bars now resolve current/warn/max (verified: BT_GAUGE_ATTR_LOG all OK). - PoweredSubsystem::GetAttributeIndex() (new) publishes InputVoltage->voltageSource -- the cluster power-branch gate (the power-lamp/generator-voltage/state-lamp sub-branch is skipped when it resolves NULL). Flows to Sensor/Myomers/weapons. - MechWeapon::GetAttributeIndex() (new) publishes OutputVoltage/PercentDone-> rechargeLevel; Emitter/PPC/ProjectileWeapon/MissileLauncher/GaussRifle DefaultData re-pointed at it (they carried an EMPTY default-constructed index -> resolved NOTHING). Verified: the ER MED LASER / PPC / STREAK weapon clusters now render live recharge dials (were blank TEMP/STATUS). - Mech::SetTargetRange un-stubbed (radarRange = range) -> the radar map scale + overlay range readout track the mapper's zoom (was frozen at 1000). - GAUGREND ParseAttribute: env-gated per-binding resolution trace (BT_GAUGE_ATTR_LOG) -- durable diagnostic infra for the wave. Verified DBASE+dev gauges: no startup/gauge-construction crash (dense chain intact), combat un-regressed (TARGET DESTROYED), clusters build with InputVoltage resolving. Remaining config-binding NULLs: HeatSink/AmbientTemperature (aggregate bank, P3) + Searchlight/LightOn (P1b). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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9d82be46a1 |
P7: subsystem-tree alarm unification -- the whole PoweredSubsystem weapon/power subtree is byte-exact
The reconstruction modeled the binary's 0x54 AlarmIndicator (FUN_0041b9ec) with undersized
stand-ins (AlarmIndicator==ReconAlarm==4B; HeatAlarm==8B) across the entire subsystem tree, so
every field above an alarm sat at the wrong compiled offset. Retype every such stand-in to
GaugeAlarm54(0x54) and de-phantom each class against its ctor, so the whole PoweredSubsystem
subtree becomes byte-exact. An 8-agent read-only decomp-mapping workflow decoded every ctor
first; then hands-on implementation. static_assert-locked chain (verified vs the raw ctors):
HeatSink 0x1D0
-> PoweredSubsystem 0x31C retype electricalStateAlarm@0x264 + modeAlarm@0x2B8 @004b0f74
-> MechWeapon 0x3F0 retype weaponAlarm@0x350; delete 5 phantom tail fields @004b99a8
-> Emitter 0x478 delete outputVoltage/beamLengthRatio/firingArmed aliases
+ beamHit*/beamColor/beamHitData/energyRampTime phantoms;
retype beamOrientation EulerAngles->Quaternion(16B) @004bb120
-> PPC 0x478 (no own fields) @004bb888
PoweredSubsystem -> Sensor 0x328 (no alarm; 3 own fields) @004b1d18
PoweredSubsystem -> Myomers 0x358 (no alarm) @004b8fec
New systemic bug-class instances fixed (added to the CLAUDE.md checklist):
* alias field - Emitter outputVoltage==inherited rechargeLevel@0x320; beamLengthRatio==
beamScale.z@0x434; firingArmed==inherited useConfiguredPip@0x3E0
* phantom field - MechWeapon segmentReference/pipSegment/hasTarget/targetPoint/muzzlePoint
(past 0x3F0); Emitter beamHitPoint/beamImpact/beamImpactScalar/beamColor/
beamHitData/energyRampTime (binary writes inherited damageData/voltageScale
or the value is a method local)
Non-layout fixes required in the same wave:
* outputVoltage->rechargeLevel also in the compiled GAUSS.CPP:74/93 (external readers of the
removed Emitter field -- must grep EVERY TU, not just the class's own .cpp)
* MechWeapon::GetMuzzlePoint reimplemented faithfully (removed muzzlePoint collided with
Emitter's own fields at 0x3F0) via a BTResolveWeaponMuzzle void* bridge in mech4.cpp,
resolving the weapon's mount segment (inherited this+0xdc) through the owner segment table
* DetachFromVoltageSource fixed to set electricalStateAlarm not modeAlarm (raw @004b0e30
writes the 0x264 alarm)
The vehicleSubSystems aux-screen gauge raw reads (btl4gau2.cpp:868/952 at subsystem+0x2b8/+0x278)
and the Sensor RadarPercent path now read the CORRECT byte offsets (garbage under the short layout).
Verified: combat DESTROYED-in-8, 28 shots, 0 crashes, heat heatEnergy=1.34e7, every static_assert
lock passes, heapcheck-clean through construction (the phase the isolated PoweredSubsystem retype
had overflowed). LESSON: a factory-bridge runtime Check(sizeof<=alloc) does NOT fail the build --
only a static_assert sizeof lock catches alloc overflow at compile time.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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1356870e56 |
P7: byte-exact re-base of the CORE heat leaf (HeatSink/Condenser/Reservoir/Generator/Myomers)
The reconstruction modeled the binary's shared alarm/connection types with undersized
stand-ins, sliding every field above them low (the 72-byte auxScreenNumber gap). Fix the
foundational heat-leaf classes byte-exact + static_assert-lock them, from the ctor decomp:
Shared types corrected:
* SubsystemConnection 4 -> 0xC (binary link node FUN_004af9cf; FUN_00417ab4 derefs +8)
* GaugeAlarm54 = 0x54 (real AlarmIndicator FUN_0041b9ec; STATUS level at +0x14,
so subsystem+0x184 == heatAlarm+0x14 == GetLevel())
WatcherGaugeAlarm now typedefs GaugeAlarm54 (Watcher branch locks stay valid).
Byte-exact + locked (ctor-verified):
* HeatSink heatEnergy@0x158 linkedSinks@0x164 heatAlarm@0x170 resource@0x1C4
pendingHeat@0x1C8, sizeof 0x1D0 (@004adda0)
* Condenser valveState@0x1D0 condenserAlarm@0x1DC (@004ae568)
* Reservoir reservoirAlarm@0x1D0 ... squirtEfficiency@0x22C, sizeof 0x230 (@4aef78)
* Generator stateAlarm@0x1FC, sizeof 0x250 (@004b225c)
* Myomers phantom moverConnection tail removed (fits 0x358)
Three systemic bug classes fixed (added to the checklist in CLAUDE.md / HARD_PROBLEMS.md):
* alias field - a subclass member re-declaring an inherited slot the ctor reuses
(Condenser refrigerationOutput==massScale@0x160; Reservoir
coolantCapacity==thermalCapacity@0x128) -> use the inherited name
* alarm-interior - a value read at alarm+0x14 modeled as a separate member
(HeatSink heatState@0x184, Reservoir injectActive@0x1e4)
-> route to alarm.GetLevel()
* phantom field - a member past the object end (Generator shortFlag@0x25C is really
*(owner+0x190)+0x25c the msg-manager, @004b0efc; Myomers
moverConnection@0x110 a write-only base slot) -> remove it
Heat conduction now reads the REAL heatEnergy=1.34e7 (not garbage); combat DESTROYED-in-8,
0 crashes, heapcheck-clean through construction.
REMAINING (measured; a distinct larger task): making PoweredSubsystem byte-exact grows it
+0x98 and cascades into MechWeapon/Emitter/PPC/Sensor/Myomers -- all model the 0x54
AlarmIndicator with 4-byte ReconAlarm / 8-byte HeatAlarm stand-ins and are short +
phantom-tailed; retyping without byte-exacting them overflows the Emitter alloc (heap
corruption). PoweredSubsystem kept on HeatAlarm(8) stand-ins (marked) pending a
subsystem-tree ALARM UNIFICATION. See docs/HARD_PROBLEMS.md P7.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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dc6af8cef6 |
vehicleSubSystems: reconstruct the stubbed connection helpers from decomp
Replace the return-0 stubs with the real functions: - ResolveLink (FUN_00417ab4) = SubsystemConnection::Resolve (two-level deref of the plug's bound link); an unbound plug resolves to 0, the authentic no-source branch. - FindLinkedSubsystem (FUN_0041bf44) = GetAttributePointer(index) via the engine Simulation attribute-index system (the cooling-loop master at slot 3). - IsGeneratorDerived (FUN_0041a1a4) = the real IsDerivedFrom(PoweredSubsystem ClassDerivations 0x50f4bc) via a new powersub.cpp bridge BTIsPoweredSubsystem (shared with the aux-screen filter) -> the generator stateLamp now builds. So the cooling/power/voltage connections resolve real data when the plug is bound, instead of always reading 0. Build clean. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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6fceb58439 |
vehicleSubSystems Phase 2: authentic aux-screen assignment -> panels build
The engineering-screen cluster panels now build for each subsystem on its real aux-screen position. Two pieces: 1. Aux-screen bridge (powersub.cpp BTGetSubsystemAuxScreen): the assignment lives on PoweredSubsystem (auxScreenNumber/Placement/Label, resource +0x104/108/10C) which our ctor already populates -- but the reconstructed heat-leaf branch is NOT byte-exact, so the Make's raw sub[0x1dc]/[0x1e0]/[0x1e4] reads were garbage (0xCDCDCDCD). The bridge casts through the real PoweredSubsystem type + returns the NAMED fields (and is the FUN_0041a1a4/0x50f4bc type filter). Make + Subsystem Cluster now read via the bridge. 2. Reconstruct the 4 child gauges the clusters build that were declared-but-undefined (only VertTwoPartBar/OneOfSeveral/PixInt existed): HorizTwoPartBar (full, mirrors Vert), OneOfSeveralInt (ctor), OneOfSeveralStates (ctor + BecameActive + State Connection @004c3324), BitMapInverseWipe/LeakGauge (full) + SeekVoltageGraph's Execute/BecameActive/dtor -- their /FORCE-stubbed ctors were segfaulting when a cluster built them. VERIFIED (BT_DEV_GAUGES + BT_VSS_LOG): 7 authentic panels build -- Sensor(scr5, qsensors) HeatSinkCluster, Myomers(scr6,qmyomers) MyomerCluster, PPC(scr1,10) + Emitter(scr4,8,7) Energy/Ballistic clusters -- with real labels + placements, 0 crashes, combat un-regressed. Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com> |
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7b7d465e5e |
Initial commit: bt411 -- standalone Windows BattleTech (Tesla 4.10 port)
Clean, self-contained extraction of the BattleTech-specific work from the
reverse-engineering workspace -- engine + game + content + build, with nothing
from Red Planet or the raw archive dumps. Builds green (Win32) and runs the
single-player drive->animate->target->fire->damage->destroy loop out of the box.
Layout:
engine/ MUNGA + MUNGA_L4 shared 2007 engine, carrying our BT render/loader
work (bgfload/L4D3D/L4VIDEO: BSL bit-slice decode, LOD/ground/shadow
models) + image codec; the minimal rp/ headers the audio HAL needs
game/ reconstructed BT logic + surviving-original BT source + fwd shims
+ WinMain launcher
content/ full runtime tree (BTL4.RES, VIDEO/, GAUGE/, AUDIO/, eggs, BTDPL.INI)
docs/ format specs + reconstruction ledgers
reference/ raw Ghidra pseudocode (recon source-of-truth) + decomp exporter
tools/ MP console emulator + map/resource scanners
One top-level CMake builds munga_engine lib + bt410_l4 game lib + btl4.exe.
All paths relativized (186 fwd shims + ~437 CMake abs paths -> repo-relative);
DXSDK is the one external, overridable via -DDXSDK. Verified: builds to a
byte-identical 2.27MB exe and runs combat (TARGET DESTROYED, 0 crashes) against
the bundled content.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
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