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[1.8.x-1.12.x] Module Manager 4.2.2 (June 18th 2022) - The Heatwave Edition


sarbian
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I'm getting an error with this patch:

@PART[*]:HAS[#CrewCapacity[<1],@MODULE[ModuleCommand]]:FINAL
{
	%entryCost = #$cost$ * 2
}

I never used variables before, so I don't know what I'm doing wrong - but I suspect numeric operations have to be done in some other way...

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32 minutes ago, Tonas1997 said:

I'm getting an error with this patch:

@PART[*]:HAS[#CrewCapacity[<1],@MODULE[ModuleCommand]]:FINAL
{
	%entryCost = #$cost$ * 2
}

I never used variables before, so I don't know what I'm doing wrong - but I suspect numeric operations have to be done in some other way...

%entryCost = #$cost$
@entryCost *= 2

 

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On 4/4/2020 at 11:28 PM, Jso said:
%entryCost = #$cost$
@entryCost *= 2

 

Thanks, that worked!

As a follow-up, however, I found out that this doesn't seem to work with float values, as patches that multiply that field by a fractional number (for instance 1.2) keep the part from being compiled. This is a bit weird, as both cost and entryCost are float fields. Am I doing something else wrong, or am I restricted to use integers as multiplying factors?

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On 4/7/2020 at 2:14 PM, Tonas1997 said:

Thanks, that worked!

As a follow-up, however, I found out that this doesn't seem to work with float values, as patches that multiply that field by a fractional number (for instance 1.2) keep the part from being compiled. This is a bit weird, as both cost and entryCost are float fields. Am I doing something else wrong, or am I restricted to use integers as multiplying factors?

It should work with floats.  In fact it only works in floats.  What does your patch look like?

One thing I'll add though is that MM has no knowledge of what any field is or means.  Everything MM sees starts as a string.  If you tell it to multiply it will attempt to convert both operands to floats and then convert the result back to a string.

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Here it is:

// Probe cores: 1.2x the unit cost
@PART[*]:HAS[#CrewCapacity[<1],@MODULE[ModuleCommand]]:FINAL
{
	%entryCost = #$cost$
	%entryCost *= 1.2
}

// Crewed capsules: 5x the unit cost
@PART[*]:HAS[#CrewCapacity[>0],@MODULE[ModuleCommand]]:FINAL
{
	%entryCost = #$cost$
	%entryCost *= 5
}

The former won't work, whereas the latter will

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1 hour ago, Tonas1997 said:

Here it is:

// Probe cores: 1.2x the unit cost
@PART[*]:HAS[#CrewCapacity[<1],@MODULE[ModuleCommand]]:FINAL
{
	%entryCost = #$cost$
	%entryCost *= 1.2
}

// Crewed capsules: 5x the unit cost
@PART[*]:HAS[#CrewCapacity[>0],@MODULE[ModuleCommand]]:FINAL
{
	%entryCost = #$cost$
	%entryCost *= 5
}

The former won't work, whereas the latter will

% means edit or create. I don't believe it will accept any operator other than = (assignment). So when when you initialize your value use % (because @ will throw an error if the value does not exist). Afterwards use @ to edit the existing value. @entryCost *= 1.2 will work.

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I am trying to modify USI MKS conversion rates to balance with stock converters. The USI Module I am trying to change is "USI_ConverterSwapOption"

Would one of you Guru's care to point me in the right direction?

I am not achieving any effect with the following plugin:

@PART[MKS_Processor250]:FINAL
{
    @MODULE[USI_ConverterSwapOption],*
    {
        @INPUT_RESOURCE[MetallicOre,Uraninite,Substrate,Minerals,Karbonite,Commodities,MaterialKits,Metals,Polymers,Supplies,Ore,Machinery,Recyclables,SpecializedParts,Fertilizer,Hydrates,Gypsum,Dirt,Silicates,Silicon,RefinedExotics,ColonySupplies,Organics,Rock,Karborundum,XenonGas,ArgonGas,LiquidFuel,Oxidizer,Water,Chemicals,Mulch,LqdHydrogen,LiquidFuel,MonoPropellant],*
        {
            @Ratio *= 173
        }
        @OUTPUT_RESOURCE[MetallicOre,Uraninite,Substrate,Minerals,Karbonite,Commodities,MaterialKits,Metals,Polymers,Supplies,Ore,Machinery,Recyclables,SpecializedParts,Fertilizer,Hydrates,Gypsum,Dirt,Silicates,Silicon,RefinedExotics,ColonySupplies,Organics,Rock,Karborundum,XenonGas,ArgonGas,LiquidFuel,Oxidizer,Water,Chemicals,Mulch,LqdHydrogen,LiquidFuel,MonoPropellant],*
        {
            @Ratio *= 173
        }
    }
}

 

The config I am trying to modify is as follows:

Spoiler

 

PART
{
    name = MKS_Processor250
    module = Part
    author = RoverDude

     MODULE
    {
        name = USI_Converter

        GeneratesHeat = true
        AutoShutdown = true
        UseSpecialistBonus = false
        TemperatureModifier
        {
            key = 0 50000
            key = 500 20000
            key = 1000 5000
            key = 1500 2500
            key = 2000 500
            key = 3000 0
        }        
        ThermalEfficiency 
        {
            key = 0 0
            key = 500 0.15
            key = 1000 1.0
            key = 1500 0.25
            key = 2000 0.1
            key = 3000 0
        }
    }
    MODULE
    {
        name = USI_Converter

        GeneratesHeat = true
        AutoShutdown = true
        UseSpecialistBonus = false
        TemperatureModifier
        {
            key = 0 50000
            key = 500 20000
            key = 1000 5000
            key = 1500 2500
            key = 2000 500
            key = 3000 0
        }        
        ThermalEfficiency 
        {
            key = 0 0
            key = 500 0.15
            key = 1000 1.0
            key = 1500 0.25
            key = 2000 0.1
            key = 3000 0
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = LFO
        StartActionName = Start LFO
        StopActionName = Stop LFO
        INPUT_RESOURCE
        {
            ResourceName = Ore
            Ratio =  0.047
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 5.64
        }
        OUTPUT_RESOURCE
        {
            ResourceName = LiquidFuel
            Ratio = 0.00423
            DumpExcess = False
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Oxidizer
            Ratio = 0.00517
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.0094
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = LiquidFuel
        StartActionName = Start LiquidFuel
        StopActionName = Stop LiquidFuel
        INPUT_RESOURCE
        {
            ResourceName = Ore
            Ratio =  0.047
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 5.64
        }
        OUTPUT_RESOURCE
        {
            ResourceName = LiquidFuel
            Ratio = 0.0094
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.0094
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = MonoPropellant
        StartActionName = Start MonoPropellant
        StopActionName = Stop MonoPropellant
        INPUT_RESOURCE
        {
            ResourceName = Ore
            Ratio =  0.047
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 5.64
        }
        OUTPUT_RESOURCE
        {
            ResourceName = MonoPropellant
            Ratio = 0.0094
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.0094
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = Chemicals
        StartActionName = Start Chemicals
        StopActionName = Stop Chemicals
        INPUT_RESOURCE
        {
            ResourceName = Minerals
            Ratio =  0.0047
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 5.64
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Chemicals
            Ratio = 0.00094
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.00094
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = Metals
        StartActionName = Start Metals
        StopActionName = Stop Metals
        INPUT_RESOURCE
        {
            ResourceName = MetallicOre
            Ratio =  0.0047
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 5.64
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Metals
            Ratio = 0.00094
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.00094
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = Polymers
        StartActionName = Start Polymers
        StopActionName = Stop Polymers
        INPUT_RESOURCE
        {
            ResourceName = Substrate
            Ratio =  0.0047
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 5.64
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Polymers
            Ratio = 0.00094
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.00094
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = Fertilizer(G)
        StartActionName = Start Fertilizer(G)
        StopActionName = Stop Fertilizer(G)
        INPUT_RESOURCE
        {
            ResourceName = Gypsum
            Ratio =  0.003
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 4.5
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Fertilizer
            Ratio = 0.0015
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.000375
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = Fertilizer(M)
        StartActionName = Start Fertilizer(M)
        StopActionName = Stop Fertilizer(M)
        INPUT_RESOURCE
        {
            ResourceName = Minerals
            Ratio =  0.0047
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 5.64
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Fertilizer
            Ratio = 0.00094
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.00094
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_ConverterSwapOption
        ConverterName = Silicon
        StartActionName = Start Silicon
        StopActionName = Stop Silicon
        INPUT_RESOURCE
        {
            ResourceName = Silicates
            Ratio =  0.0047
        }
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 5.64
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Silicon
            Ratio = 0.00094
            DumpExcess = False
        }
        OUTPUT_RESOURCE:NEEDS[ART]
        {
            ResourceName = Rock
            Ratio =  0.00094
            DumpExcess = true
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
    }
    MODULE
    {
        name = USI_EfficiencyBoosterSwapOption
        ConverterName = [Crusher]
        StartActionName = Start [Crusher]
        StopActionName = Stop [Crusher]
        EfficiencyTag = Crusher
        EfficiencyMultiplier = 1.728
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 17.282
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
    }
    MODULE
    {
        name = USI_EfficiencyBoosterSwapOption
        ConverterName = [Smelter]
        StartActionName = Start [Smelter]
        StopActionName = Stop [Smelter]
        EfficiencyTag = Smelter
        EfficiencyMultiplier = 1.728
        INPUT_RESOURCE
        {
            ResourceName = ElectricCharge
            Ratio = 17.282
        }
        REQUIRED_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 650
        }
        INPUT_RESOURCE
        {
            ResourceName = Machinery
            Ratio = 0.00000325
        }
        OUTPUT_RESOURCE
        {
            ResourceName = Recyclables
            Ratio = 0.00000325
            DumpExcess = true
        }
    }
    RESOURCE
    {
        name = Machinery
        amount = 650
        maxAmount = 650
        isTweakable = True
    }
    RESOURCE
    {
        name = Recyclables
        amount = 0
        maxAmount = 650
        isTweakable = True
    }
}

 

Update:

I have tried modifying the patch by replacing the "_" by a "?" wildcard since it was pointed out that KSP does not recognise the underscore. New patch below:

Spoiler

@PART[MKS?Processor250]:FINAL
{
    @MODULE[USI?ConverterSwapOption],*
    {
        @INPUT_RESOURCE[*],*
        {
            @Ratio *= 173
        }
        @OUTPUT_RESOURCE[*],*
        {
            @Ratio *= 173
        }
    }
}

The change is however not reflected in MM ConfigCache.

Any assistance would be appreciated.

Edited by DeepWaterDaz
Update
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On 4/13/2020 at 4:35 AM, DeepWaterDaz said:

I have tried modifying the patch by replacing the "_" by a "?" wildcard since it was pointed out that KSP does not recognise the underscore. New patch below:

You don't need to do that. MM handles underscores just fine.

On 4/13/2020 at 4:35 AM, DeepWaterDaz said:

@INPUT_RESOURCE[*],*

This is not matching because INPUT_RESOURCE doesn't have a name field, it has a ResourceName field. INPUT_RESOURCE[*] is looking for name=anything and since there are no name fields it never matches. Just use @INPUT_RESOURCE,* and it will do what you intend there.

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On 4/7/2020 at 2:14 PM, Tonas1997 said:

As a follow-up, however, I found out that this doesn't seem to work with float values, as patches that multiply that field by a fractional number (for instance 1.2) keep the part from being compiled. This is a bit weird, as both cost and entryCost are float fields. Am I doing something else wrong, or am I restricted to use integers as multiplying factors?

Okay should have read this a little closer.

The problem as nothing to do with ModuleManager.  If you look at GameData/ModuleManager.ConfigCache, you will see that the multiplication is getting applied correctly.

The problem is that entryCost is actually an int.  The API docs confirm this.  So you must provide a whole number.

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And because I started thinking about it again, here's a patch that rounds to the nearest integer:

Spoiler

input:

SOME_NODE
{
	value = 1.0
	value = 1.1
	value = 1.15
	value = 1.2
	value = 1.25
	value = 1.3
	value = 1.35
	value = 1.4
	value = 1.45
	value = 1.5
	value = 1.55
	value = 1.6
	value = 1.65
	value = 1.7
	value = 1.75
	value = 1.8
	value = 1.85
	value = 1.9
	value = 1.95
	value = 2.0
}

patch:

@SOME_NODE
{
	@value,* += 0.5
	@value,* ^= :\.\d+$::
}

result:

SOME_NODE
{
	value = 1
	value = 1
	value = 1
	value = 1
	value = 1
	value = 1
	value = 1
	value = 1
	value = 1
	value = 2
	value = 2
	value = 2
	value = 2
	value = 2
	value = 2
	value = 2
	value = 2
	value = 2
	value = 2
	value = 2
}

explanation: it adds 0.5 and then truncates everything after (and including) the decimal point

and yeah doesn’t handle negative numbers or scientific notation but most of the time this should be sufficient

 

Edited by blowfish
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On 3/13/2020 at 5:55 PM, VoidSquid said:

I was afraid of such an answer. (Actually, I'd have given the same answer if I'd knew a bit more about this stuff). :P 

I was puzzled when I tried to look it up: what might be the difference between IsEnabled and  moduleIsEnabled ? Still don't know this. Guess it's try and error :D 

One question remains though: 

 

There's a lot of ways to get stuff done so my main question would be "What are you trying to achieve when you say you wish to 'disable' them?" (literally no thrusters? thrusters that are toggled off by default? Just the effects but no thrust?)

With regards to :HAS[@MODULE[ModuleCommand],@MODULE[ModuleRCSFX]] -> the comma means AND. A pipe means OR. Note that OR does not work within a HAS statement.

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Why isn't this patch:

@PART[*]:HAS[#category[Propulsion|Engine],@MODULE[ModuleEngines*]]:FINAL
{
	%entryCost = #$cost$
	@entryCost *= 3
}

capturing any engines?

Example from the MM cache:

Spoiler
PART
	{
		module = Part
		name = ROE-F1
		author = Shadowmage, Pap
		subcategory = 0
		RSSROConfig = true
		RP0conf = true
		maxTemp = 673.15
		skinTemp = 773.15
		fuelCrossfeed = true
		breakingForce = 10000
		breakingTorque = 10000
		scale = 1.0
		rescaleFactor = 1.0
		node_stack_top = 0,0,0,0,1,0,2
		node_stack_bottom = 0,-5.6373,0,0,-1,0,2
		node_attach = 0,0,0,0,1,0,2
		attachRules = 1,1,1,1,0
		title = F-1 Series
		description = The massive Rocketdyne F-1 engine. One of the largest, most powerful rocket engines ever built. Ensure you enable roll capability or disable gimbal as required for your application. Plume configured by RealPlume.
		tags = apollo, saturn, saturn-v, s-ic, saturn-5, f1, f-1
		stagingIcon = LIQUID_ENGINE
		stageOffset = 1
		childStageOffset = 1
		entryCost = 409361
		crashTolerance = 12
		gTolerance = 100
		maxPressure = 20000
		manufacturer = Rocketdyne
		category = Engine
		TechRequired = giganticRocketry
		cost = 15570
		MODEL
		{
			model = ROEngines/Assets/SSTU/SC-ENG-F1
			scale = 1.5232, 1.38, 1.5232
		}
		MODULE
		{
			name = ModuleEnginesRF
			thrustVectorTransformName = F1-ThrustTransform
			powerEffectName = Kerolox-Lower-F1
			shieldedCanActivate = True
			exhaustDamageMultiplier = 20
			exhaustDamageFalloffPower = 1
			exhaustDamageMaxMutliplier = 1.0
			exhaustDamageSplashbackMult = 0.1
			exhaustDamageSplashbackMaxMutliplier = 0.1
		}
		MODULE
		{
			name = ModuleGimbal
			gimbalTransformName = F1-Bell
			gimbalRange = 6.0
			useGimbalResponseSpeed = true
			gimbalResponseSpeed = 16
		}
		MODULE
		{
			name = ModuleSurfaceFX
			thrustProviderModuleIndex = 1
			fxMax = 1
			maxDistance = 120
			falloff = 2
			thrustTransformName = SmokeTransform
		}
		MODULE
		{
			name = ROEModelConstraint
			LOOK_CONST
			{
				transformName = F1-Strut-LeftUpper
				targetName = F1-Target-LeftLower
			}
			LOOK_CONST
			{
				transformName = F1-Strut-LeftLower
				targetName = F1-Target-LeftUpper
			}
			LOOK_CONST
			{
				transformName = F1-Strut-RightUpper
				targetName = F1-Target-RightLower
			}
			LOOK_CONST
			{
				transformName = F1-Strut-RightLower
				targetName = F1-Target-RightUpper
			}
			LOOK_CONST
			{
				transformName = F1-FuelLineLeft
				targetName = F1-Target-FuelLeft
			}
			LOOK_CONST
			{
				transformName = F1-FuelLineRight
				targetName = F1-Target-FuelRight
			}
			LOOK_CONST
			{
				transformName = F1-FuelLineCenter
				targetName = F1-Target-FuelCenter
			}
		}
		MODULE
		{
			name = EngineGroupModule
		}
		MODULE
		{
			name = EngineLightEffect
			enableEmissiveLight = true
			engineEmissiveMultiplier = 1.33
			jitterMultiplier = 0.1
			lightFadeCoefficient = 0.8
			lightPower = 1.0
			lightRange = 9.0
			multiplierOnIva = 0.5
			exhaustRed = 1
			exhaustGreen = 0.88
			exhaustBlue = 0.68
			emissiveRed = 0.6
			emissiveGreen = 0.0
			emissiveBlue = 0.0
			emissiveLogRed = 0.4
			emissiveLogGreen = 0.1
			emissiveLogBlue = 0.0
			emissiveQuadRed = 0.0
			emissiveQuadGreen = 0.5
			emissiveQuadBlue = 0.05
			lightOffsetX = 0.0
			lightOffsetY = 0.0
			emissiveOffsetZ = 0.0
			exhaustOffsetZ = 1.0
		}
		MODULE
		{
			name = GeometryPartModule
		}
		MODULE
		{
			name = FARAeroPartModule
		}
		MODULE
		{
			name = FARPartModule
		}
		MODULE
		{
			name = KOSNameTag
		}
		MODULE
		{
			name = ModuleEngineConfigs
			configuration = F-1
			origMass = 8.391459
			modded = false
			type = ModuleEnginesRF
			CONFIG
			{
				name = F-1
				minThrust = 7740.5
				maxThrust = 7740.5
				heatProduction = 100
				ullage = True
				pressureFed = False
				ignitions = 1
				PROPELLANT
				{
					name = Kerosene
					ratio = 0.3800
					DrawGauge = True
				}
				PROPELLANT
				{
					name = LqdOxygen
					ratio = 0.6200
				}
				atmosphereCurve
				{
					key = 0 304
					key = 1 263
				}
				IGNITOR_RESOURCE
				{
					name = ElectricCharge
					amount = 0.5
				}
				IGNITOR_RESOURCE
				{
					name = TEATEB
					amount = 1
				}
			}
			CONFIG
			{
				name = F-1A
				description = Uprated F-1 developed for post-Apollo launch vehicles. Tested extensively, but cancelled following the cancellation of Apollo
				minThrust = 9189.6
				maxThrust = 9189.6
				massMult = 0.97673
				heatProduction = 100
				ullage = True
				pressureFed = False
				ignitions = 1
				PROPELLANT
				{
					name = Kerosene
					ratio = 0.3800
					DrawGauge = True
				}
				PROPELLANT
				{
					name = LqdOxygen
					ratio = 0.6200
				}
				atmosphereCurve
				{
					key = 0 310
					key = 1 270
				}
				IGNITOR_RESOURCE
				{
					name = ElectricCharge
					amount = 0.5
				}
				IGNITOR_RESOURCE
				{
					name = TEATEB
					amount = 1
				}
			}
		}
		RESOURCE
		{
			name = TEATEB
			amount = 1
			maxAmount = 1
		}
		PLUME
		{
			name = Kerolox-Lower-F1
			transformName = F1-ThrustTransform
			localRotation = 0,0,0
			plumePosition = 0,0,3.5
			plumeScale = 1.5
			flarePosition = 0,0,3.35
			flareScale = 1.2
			energy = 0.7
			speed = 1
			localPosition = 0,0,0
			fixedScale = 1
			emissionMult = 0.5
			saturationMult = 1
			alphaMult = 1
			blazeScale = 1
			coreScale = 1
			fumeScale = 1
			lampScale = 1
			plume2Scale = 1
			plume3Scale = 1
			smokeScale = 1
			shockScale = 1
			shockconeScale = 1
			slagScale = 1
			streamScale = 1
			blazePosition = 0,0,0
			corePosition = 0,0,0
			fumePosition = 0,0,0
			lampPosition = 0,0,0
			plume2Position = 0,0,0
			plume3Position = 0,0,0
			smokePosition = 0,0,0
			shockPosition = 0,0,0
			shockconePosition = 0,0,0
			slagPosition = 0,0,0
			streamPosition = 0,0,0
			plumeIdentifier = Kerolox-Lower-F1
			processed = true
		}
		EFFECTS
		{
			Kerolox-Lower-F1
			{
				plumeIdentifier = Kerolox-Lower-F1
				MODEL_MULTI_SHURIKEN_PERSIST
				{
					transformName = F1-ThrustTransform
					localRotation = 0,0,0
					localPosition = 0,0,3.35
					fixedScale = 1.2
					name = Kerolox-Lower-F1-flare
					modelName = RealPlume/MP_Nazari_FX/nasaf1
					emission = 0.0 0
					emission = 0.01 0.2
					emission = 1.0 4
					speed = 0.0 1
					speed = 1.0 1
					offset = -0.5
					energy = 0.0 0.07
					energy = 1.0 0.07
					size = 0.0 0.5
					size = 1.0 0.5
					fixedEmissions = false
					randomInitalVelocityOffsetMaxRadius = 1
					linGrow
					{
						power = 0 2
						power = 1 2
					}
					grow
					{
						power = 0 5
						power = 1 5
					}
				}
				MODEL_MULTI_SHURIKEN_PERSIST
				{
					transformName = F1-ThrustTransform
					localRotation = 0,0,0
					localPosition = 0,0,3.5
					fixedScale = 1.5
					energy = 0.7
					speed = 1
					emissionMult = 0.5
					alphaMult = 1
					saturationMult = 1
					name = Kerolox-Lower-F1-plume
					modelName = RealPlume/MP_Nazari_FX/KWbooster
					fixedEmissions = false
					sizeClamp = 50
					randomInitalVelocityOffsetMaxRadius = 2
					saturationMult
					{
						density = 0.19 1
						density = 0.07 0.9
						density = 0.045 0.8
						density = 0.02 0.7
					}
					randConeEmit
					{
						density = 1.0 0
						density = 0.25 1
						density = 0.06 1.5
						density = 0 1.7
					}
					logGrow
					{
						density = 1.0 1
						density = 0.2 1
						density = 0.1 7
						density = 0.0 2
					}
					logGrowScale
					{
						density = 1.0 1
						density = 0.8 1
						density = 0.46 1.3
						density = 0.2 2
						density = 0.1 4
						density = 0.0 5
					}
					linGrow
					{
						density = 1.0 -0.2
						density = 0.25 0
						density = 0.07 4
						density = 0.035 12
						density = 0.0 25
					}
					speed
					{
						density = 1.0 5
						density = 0.46 5
						density = 0.2 5
						density = 0.1 8
						density = 0.05 8
						density = 0.01 6
						density = 0.0 4
					}
					xyForce
					{
						density = 1 0.4
						density = 0.25 0.6
						density = 0.06 0.75
						density = 0.01 0.85
						density = 0 1
					}
					zForce
					{
						density = 1 1
						density = 0.2 1.02
						density = 0 1.033
					}
					emission
					{
						density = 1.0 10
						density = 0.5 10
						density = 0.2 12
						density = 0.1 9
						density = 0.07 7
						density = 0.035 15
						density = 0.01 15
						density = 0.0  13
						power = 1 1
						power = 0.01 0.2
						power = 0 0
					}
					energy
					{
						density = 1.0 1.25
						density = 0.3 1
						density = 0.2 0.7
						density = 0.07 0.65
						density = 0.035 0.25
						density = 0.0 0.2
					}
					size
					{
						density = 1.0 2
						density = 0.8 1.8
						density = 0.2 1.7
						density = 0.06 1.4
						density = 0.01 1.2
						density = 0.0 0.8
					}
				}
				MODEL_MULTI_SHURIKEN_PERSIST
				{
					transformName = F1-ThrustTransform
					localRotation = 0,0,0
					localPosition = 0,0,3.5
					fixedScale = 1.5
					emissionMult = 0.5
					alphaMult = 1
					saturationMult = 1
					name = Kerolox-Lower-F1-plumeboundary
					modelName = RealPlume/Hoojiwana_FX/MPspike
					fixedEmissions = false
					sizeClamp = 50
					randomInitalVelocityOffsetMaxRadius = 5
					randConeEmit
					{
						density = 1.0 0
						density = 0.25 1
						density = 0.06 1.7
						density = 0 2
					}
					xyForce
					{
						density = 1 0.05
						density = 0.25 0.1
						density = 0.06 0.45
						density = 0.01 0.75
						density = 0 1
					}
					logGrow
					{
						density = 1.0 1
						density = 0.2 2
						density = 0.1 7
						density = 0.0 10
					}
					logGrowScale
					{
						density = 1.0 1
						density = 0.8 1.5
						density = 0.46 2
						density = 0.2 3
						density = 0.1 4
						density = 0.0 6
					}
					linGrow
					{
						density = 1.0 -0.2
						density = 0.46 0.0
						density = 0.2 3
						density = 0.035 20
						density = 0.0 25
					}
					speed
					{
						density = 1.0 2
						density = 0.25 2.5
						density = 0.1 4
						density = 0.05 4.5
						density = 0.0 4
					}
					zForce
					{
						density = 1 1
						density = 0.2 1.02
						density = 0 1.04
					}
					emission
					{
						density = 1.0 2.0
						density = 0.8 2
						density = 0.5 3
						density = 0.2 4
						density = 0.1 4
						density = 0.05 5
						density = 0.01 6
						density = 0.0 7
						power = 1 1
						power = 0.01 0.2
						power = 0 0
					}
					energy
					{
						density = 1.0 3
						density = 0.3 2.5
						density = 0.2 1.7
						density = 0.05 1.6
						density = 0.01 1
						density = 0.0 0.4
					}
					size
					{
						density = 1.0 1.8
						density = 0.8 1.6
						density = 0.2 1.5
						density = 0.06 1.3
						density = 0.0 0.7
					}
				}
				AUDIO
				{
					name = Kerolox-Lower-F1-audio
					channel = Ship
					clip = RealPlume/KW_Sounds/sound_altloop2
					volume = 0.0 0.0
					volume = 1.0 1.5
					pitch = 0.0 1.0
					pitch = 1.0 1.0
					loop = true
				}
			}
			engage
			{
				AUDIO
				{
					channel = Ship
					clip = RealPlume/KW_Sounds/sound_liq10
					volume = 1.5
					pitch = 1.0
					loop = false
				}
			}
			disengage
			{
				AUDIO
				{
					channel = Ship
					clip = sound_vent_soft
					volume = 1.0
					pitch = 2.0
					loop = false
				}
			}
			flameout
			{
				AUDIO
				{
					channel = Ship
					clip = sound_explosion_low
					volume = 1.0
					pitch = 2.0
					loop = false
				}
			}
		}
		MODULE
		{
			name = TestFlightInterop
		}
		MODULE
		{
			name = TestFlightCore
			title = F-1
			configuration = engineConfig = F-1:F-1
			maxData = 10000
			techTransferMax = 2000
			techTransfer = 
		}
		MODULE
		{
			name = FlightDataRecorder_Engine
			configuration = F-1
			flightDataEngineerModifier = 0.4
			flightDataMultiplier = 3.87878787878788
		}
		MODULE
		{
			name = TestFlightReliability
			configuration = F-1
			reliabilityCurve
			{
				key = 0 0.000381212121212121
				key = 3000 0.000108484848484849 -2.46753246753247E-08 -2.46753246753247E-08
				key = 10000 1.75757575757576E-05 0 0
			}
		}
		MODULE
		{
			name = TestFlightReliability_EngineCycle
			configuration = F-1
			ratedBurnTime = 165
			engineConfig = F-1
			cycle
			{
				key = 0.00 10.00
				key = 5.00 1.00 -0.8 0
				key = 170 1 0 0
				key = 417.5 100 1.1830303030303 0
			}
		}
		MODULE
		{
			name = TestFlightFailure_ShutdownEngine
			configuration = F-1
			duFail = 1100
			weight = 32
			failureType = software
			failureTitle = Engine Shutdown
			duRepair = 50
			severity = major
			REPAIR
			{
				canBeRepairedInFlight = True
				dataSize = 1
				dataScale = 1
				repairChance = 75
				canBeRepairedOnSplashed = True
				canBeRepairedByRemote = True
			}
		}
		MODULE
		{
			name = TestFlightFailure_IgnitionFail
			configuration = F-1
			restoreIgnitionCharge = False
			duFail = 1050
			oneShot = True
			failureType = mechanical
			failureTitle = Failed to ignite
			additionalFailureChance = 0.2
			ignorePressureOnPad = True
			severity = major
			pressureCurve
			{
				key = 0 1 0 0
				key = 5000 1 0 0
				key = 15000 0.85 -2.25E-05 -2.25E-05
				key = 30000 0.4
				key = 50000 0.15 0 0
			}
			baseIgnitionChance
			{
				key = 0 0.9371
				key = 3000 0.9821 4.07142857142857E-06 4.07142857142857E-06
				key = 10000 0.9971 0 0
			}
		}
		MODULE
		{
			name = TestFlightFailure_ReducedMaxThrust
			oneShot = True
			configuration = F-1
			duFail = 700
			weight = 8
			failureType = mechanical
			failureTitle = Loss of Thrust
			duRepair = 250
			severity = minor
			REPAIR
			{
				canBeRepairedInFlight = False
				canBeRepairedOnSplashed = False
				canBeRepairedByRemote = False
				repairChance = 75
			}
		}
		MODULE
		{
			name = TestFlightFailure_EnginePerformanceLoss
			oneShot = True
			configuration = F-1
			duFail = 800
			weight = 16
			failureType = mechanical
			failureTitle = Performance Loss
			duRepair = 250
			severity = minor
			ispMultiplier = 0.5
			ispMultiplierJitter = 0.1
			REPAIR
			{
				canBeRepairedInFlight = False
				canBeRepairedOnSplashed = False
				canBeRepairedByRemote = False
				repairChance = 75
			}
		}
		MODULE
		{
			name = TestFlightFailure_Explode
			configuration = F-1
			failureTitle = Explosion!
			duFail = 1300
			weight = 2
			failureType = mechanical
			severity = major
		}
		MODULE
		{
			name = TestFlightCore
			title = F-1A
			configuration = engineConfig = F-1A:F-1A
			maxData = 10000
			techTransferMax = 2000
			techTransfer = F-1:50
		}
		MODULE
		{
			name = FlightDataRecorder_Engine
			configuration = F-1A
			flightDataEngineerModifier = 0.4
			flightDataMultiplier = 2.03174603174603
		}
		MODULE
		{
			name = TestFlightReliability
			configuration = F-1A
			reliabilityCurve
			{
				key = 0 0.00019968253968254
				key = 3000 5.6825396825397E-05 -1.29251700680273E-08 -1.29251700680273E-08
				key = 10000 9.20634920634924E-06 0 0
			}
		}
		MODULE
		{
			name = TestFlightReliability_EngineCycle
			configuration = F-1A
			ratedBurnTime = 315
			engineConfig = F-1A
			cycle
			{
				key = 0.00 10.00
				key = 5.00 1.00 -0.8 0
				key = 320 1 0 0
				key = 792.5 100 0.61968253968254 0
			}
		}
		MODULE
		{
			name = TestFlightFailure_ShutdownEngine
			configuration = F-1A
			duFail = 1100
			weight = 32
			failureType = software
			failureTitle = Engine Shutdown
			duRepair = 50
			severity = major
			REPAIR
			{
				canBeRepairedInFlight = True
				dataSize = 1
				dataScale = 1
				repairChance = 75
				canBeRepairedOnSplashed = True
				canBeRepairedByRemote = True
			}
		}
		MODULE
		{
			name = TestFlightFailure_IgnitionFail
			configuration = F-1A
			restoreIgnitionCharge = False
			duFail = 1050
			oneShot = True
			failureType = mechanical
			failureTitle = Failed to ignite
			additionalFailureChance = 0.2
			ignorePressureOnPad = True
			severity = major
			pressureCurve
			{
				key = 0 1 0 0
				key = 5000 1 0 0
				key = 15000 0.85 -2.25E-05 -2.25E-05
				key = 30000 0.4
				key = 50000 0.15 0 0
			}
			baseIgnitionChance
			{
				key = 0 0.9371
				key = 3000 0.9821 4.07142857142857E-06 4.07142857142857E-06
				key = 10000 0.9971 0 0
			}
		}
		MODULE
		{
			name = TestFlightFailure_ReducedMaxThrust
			oneShot = True
			configuration = F-1A
			duFail = 700
			weight = 16
			failureType = mechanical
			failureTitle = Loss of Thrust
			duRepair = 250
			severity = minor
			REPAIR
			{
				canBeRepairedInFlight = False
				canBeRepairedOnSplashed = False
				canBeRepairedByRemote = False
				repairChance = 75
			}
		}
		MODULE
		{
			name = TestFlightFailure_EnginePerformanceLoss
			oneShot = True
			configuration = F-1A
			duFail = 800
			weight = 16
			failureType = mechanical
			failureTitle = Performance Loss
			duRepair = 250
			severity = minor
			ispMultiplier = 0.5
			ispMultiplierJitter = 0.1
			REPAIR
			{
				canBeRepairedInFlight = False
				canBeRepairedOnSplashed = False
				canBeRepairedByRemote = False
				repairChance = 75
			}
		}
		MODULE
		{
			name = TestFlightFailure_Explode
			configuration = F-1A
			failureTitle = Explosion!
			duFail = 1300
			weight = 2
			failureType = mechanical
			severity = major
		}
	}

 

 

Edited by Tonas1997
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1 hour ago, Tonas1997 said:

Why isn't this patch:

@PART[*]:HAS[#category[Propulsion|Engine],@MODULE[ModuleEngines*]]:FINAL
{
	%entryCost = #$cost$
	@entryCost *= 3
}

capturing any engines?

If I were to guess, last sentence in post above yours.

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1 hour ago, Tonas1997 said:

Well, that was shameful of me. I'll try to split this patch in two, then :P

To be fair, I wouldn't have been aware of it either. Time to check my patch collection, I guess...

 $ grep -r HAS * | grep '|'

 

All clear. Note this will likely result in false positives, but it provides a quick overview.

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If I were to write a patch increasing all antenna power by a factor of X is this the correct way to do it?
 

@PART[*]:HAS[@MODULE[ModuleDataTransmitter]]:FINAL
{
	@antennaPower *= X
}

I have been trying to tweak antennas for my x6.4 scale game but to no avail, I must be missing something.

EDIT: added the :FINAL flag because I want this patch to be applied after all other changes.

EDIT2: or would the code look like this where I need to specify that I want to edit a field in the MODULE instead? 
 

@PART[*]:HAS[@MODULE[ModuleDataTransmitter]]:FINAL
{
	@MODULE[ModuleDataTransmitter]
	{
		@antennaPower *= X
	}
}

EDIT3: Rubber ducky rule worked, second solution is valid :P

Edited by Ja222
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8 hours ago, Virtualgenius said:

Which log do i troll through to figure out whats generating a warning in MM I would like to correct it or delete it is it ksp.log or something else

Places I would look would be the player.log and the <your KSP instal>\GameData\ModuleManager.ConfigCache.

Edited by Brigadier
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6 hours ago, Virtualgenius said:

Which log do i troll through to figure out whats generating a warning in MM I would like to correct it or delete it is it ksp.log or something else

Thanks in advance 

They will all contain the information, ModuleManager.log should probably be your go-to for MM specific stuff though.

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I'm updating the Engineering Tech Tree mod.  I was thinking about the aviation branch.  If there are no propellers in the game, I want to put the small Juno engine in the first aviation node along with an intake. But, if any other mod that has propellers in it is installed, I want to put the jet engine parts back in the jet engine node (or something like that).  What would be the best way to do something like that.  Using several NEEDS?

 

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Hi, community.

A quick question: is there a way/method to check whether an other node is defined from root path? E.g.: I would like to apply patch to a part only in case if a resource is already defined:

@PART[MyCoolPart]:AFTER[OtherCoolMod]
{
	(all the stuff)
}

but only if root node RESOURCE_DEFINITION[ResName] exists already?

Thank you in advance.

Edited by ns88ns
fixed typos
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