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1.7 Further Quest Book Tweaks (#485)

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More Quest Book Tweaks after 1.7-a-1.

Rest of the changes will be after the update to GregTech 2.8 and the move to Nomi Labs.

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checks = { compareNot = "1.7-alpha-1" }
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[[messages]]
messageTitle = "Fixes some Quests giving Nomicoins (#485)"
messageBody = "[QB]\n[HM]"

[[messages]]
messageTitle = "More Fixes and Tweaks related to GregTech 2.7+ (#485)"
messageBody = "[QB]"
[EXPAND]
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tracer4b 2023-11-29 12:56:56 +08:00 committed by GitHub
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commit 9a911e1403
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2 changed files with 39 additions and 80 deletions
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70
overrides/config/betterquesting/saved_quests/ExpertQuestsDev.json
View File

@ -42307,7 +42307,7 @@
"properties:10": { "properties:10": {
"betterquesting:10": { "betterquesting:10": {
"autoclaim:1": 0, "autoclaim:1": 0,
"desc:8": "The §3Assembly Line§r is a particularly unusual multiblock from an automation standpoint. Up until now, it has been possible to dump ingredients into a single input bus. Clearly, this won\u0027t work for the Assembly Line, since you are required to insert items in the §ccorrect order§r.\n\nYou might be tempted to dump everything into a chest and route items around to specific buses with §aItem Conduits§r. You\u0027ll probably find this to be slow, prone to jamming, and inflexible when you want to run different recipes.\n\nThere are several better ways to automate ordered items. Described here is an §dAE2§r-based method:\n\n- Place the §3ME Interface§r containing the patterns facing an §3Item P2P§r. (Item P2P Tunnels are made by placing an §3ME P2P Tunnel§r in-world and right-clicking with a chest.)\n\n- Connect it to two output Item P2P: one on the first Input Bus, and the other into a §3GT Item Pipe§r network.\n\n- Connect the Item Pipes to all Input Buses, including the first one.\n\nSince ME Interfaces send items in order, this can flawlessly automate ordered inputs. If you don\u0027t have enough space in a normal pattern, try using the §6Extended Processing Pattern Terminal§r!\n\nRemember to always use §eBlocking Mode§r when connecting the laser network to on-demand crafting. If you don\u0027t use Blocking Mode, you are likely to accidentally craft something else and jam your Assembly Line.", "desc:8": "The §3Assembly Line§r is a particularly unusual multiblock from an automation standpoint. Up until now, it has been possible to dump ingredients into a single input bus. Clearly, this won\u0027t work for the Assembly Line, since you are required to insert items in the §ccorrect order§r.\n\nYou might be tempted to dump everything into a chest and route items around to specific buses with §aItem Conduits§r. You\u0027ll probably find this to be slow, prone to jamming, and inflexible when you want to run different recipes.\n\nThere are several better ways to automate ordered items. Described here is an §dAE2§r-based method:\n\n- Place the §3ME Interface§r containing the patterns facing an §3Item P2P§r. (Item P2P Tunnels are made by placing an §3ME P2P Tunnel§r in-world and right-clicking with a chest.)\n\n- Connect it to two output Item P2P: one on the first Input Bus, and the other into a §3GT Item Pipe§r network.\n\n- Connect the Item Pipes to all Input Buses, including the first one.\n\nSince ME Interfaces send items in order, this can flawlessly automate ordered inputs. If you don\u0027t have enough space in a normal pattern, try using the §6Extended Processing Pattern Terminal§r!\n\nRemember to always use §eBlocking Mode§r when configuring Assembly Lines. If you don\u0027t use Blocking Mode, you are likely to accidentally craft something else and jam your Assembly Line.",
"globalshare:1": 0, "globalshare:1": 0,
"icon:10": { "icon:10": {
"Count:3": 1, "Count:3": 1,
@ -49877,12 +49877,12 @@
}, },
"938:10": { "938:10": {
"preRequisites:11": [ "preRequisites:11": [
3 909
], ],
"properties:10": { "properties:10": {
"betterquesting:10": { "betterquesting:10": {
"autoclaim:1": 0, "autoclaim:1": 0,
"desc:8": "Don\u0027t let the name deceive you. §6Small Storage Crates§r can be crafted with just wood and can hold 117 stacks of items in a single block.\n\nThese will be your storage solution until you get your §dME System§r up and running.\n\nYou can move them with the §6Storage Crate Keeper§r.", "desc:8": "Don\u0027t let the name deceive you. §6Small Storage Crates§r can be crafted cheaply and can hold 117 stacks of items in a single block.\n\nThese will be your storage solution until you get your §dME System§r up and running.\n\nYou can move them with the §6Storage Crate Keeper§r.",
"globalshare:1": 0, "globalshare:1": 0,
"icon:10": { "icon:10": {
"Count:3": 1, "Count:3": 1,
@ -50019,20 +50019,7 @@
} }
}, },
"questID:3": 1030, "questID:3": 1030,
"rewards:9": { "rewards:9": {},
"0:10": {
"index:3": 0,
"rewardID:8": "bq_standard:item",
"rewards:9": {
"0:10": {
"Count:3": 1,
"Damage:2": 0,
"OreDict:8": "",
"id:8": "contenttweaker:omnicoin25"
}
}
}
},
"tasks:9": { "tasks:9": {
"0:10": { "0:10": {
"autoConsume:1": 0, "autoConsume:1": 0,
@ -50093,20 +50080,7 @@
} }
}, },
"questID:3": 1031, "questID:3": 1031,
"rewards:9": { "rewards:9": {},
"0:10": {
"index:3": 0,
"rewardID:8": "bq_standard:item",
"rewards:9": {
"0:10": {
"Count:3": 1,
"Damage:2": 0,
"OreDict:8": "",
"id:8": "contenttweaker:omnicoin25"
}
}
}
},
"tasks:9": { "tasks:9": {
"0:10": { "0:10": {
"autoConsume:1": 0, "autoConsume:1": 0,
@ -50815,20 +50789,7 @@
} }
}, },
"questID:3": 1042, "questID:3": 1042,
"rewards:9": { "rewards:9": {},
"0:10": {
"index:3": 0,
"rewardID:8": "bq_standard:item",
"rewards:9": {
"0:10": {
"Count:3": 1,
"Damage:2": 0,
"OreDict:8": "",
"id:8": "contenttweaker:omnicoin25"
}
}
}
},
"tasks:9": { "tasks:9": {
"0:10": { "0:10": {
"autoConsume:1": 0, "autoConsume:1": 0,
@ -50947,20 +50908,7 @@
} }
}, },
"questID:3": 1044, "questID:3": 1044,
"rewards:9": { "rewards:9": {},
"0:10": {
"index:3": 0,
"rewardID:8": "bq_standard:item",
"rewards:9": {
"0:10": {
"Count:3": 1,
"Damage:2": 0,
"OreDict:8": "",
"id:8": "contenttweaker:omnicoin5"
}
}
}
},
"tasks:9": { "tasks:9": {
"0:10": { "0:10": {
"autoConsume:1": 0, "autoConsume:1": 0,
@ -56396,8 +56344,8 @@
"id:3": 938, "id:3": 938,
"sizeX:3": 24, "sizeX:3": 24,
"sizeY:3": 24, "sizeY:3": 24,
"x:3": 36, "x:3": 72,
"y:3": -4 "y:3": 192
} }
} }
}, },

49
overrides/config/betterquesting/saved_quests/NormalQuestsDev.json
View File

@ -63508,7 +63508,7 @@
"properties:10": { "properties:10": {
"betterquesting:10": { "betterquesting:10": {
"autoclaim:1": 0, "autoclaim:1": 0,
"desc:8": "The §3High Performance Computing Array (HPCA)§r is a computer which provides §dComputation Work§r to be used in the §3Research Station§r. The amount of §dComputation Work§r it provides depends on the type of HPCA parts within it. It also needs to receive adequate §dCooling§r provided by Coolers within its structure.\n\nConnect the §3Computation Data Transmission Hatch§r to the §3Reception Hatch§r on your §3Research Station§r to transfer the §dCWU/t§r produced to it.\n\nThe HPCA accepts almost any combination of §3Computation Components§r, §3Coolers§r, §3Bridges§r and §3Empty Components§r within the 3x3 area behind the §aComputer Heat Vents§r. This quest will build a §d16 CWU/t§r HPCA, enough for scanning the §3Fusion Reactor Mk2§r, §6UV Circuits§r, and all §6ZPM Components§r. You can get away with less at first, but you will eventually need to upgrade to this computing power. Refer to §eJEI§r for some other possible setups.\n\nThe §dCWU/t§r of the HPCA is determined by the sum of the outputs of the §3HPCA Computation Components§r within it. Regular §3Computation Components§r produce §d4 CWU/t§r each, and require §d2 Cooling§r each. §3Advanced Computation Components§r, which you do not have access to yet, produce §d16 CWU/t§r each and require §d4 Cooling§r each.\n\n§dCooling§r is provided by §3Cooler§r blocks within the structure. §3Passive Coolers§r provide §d1 Cooling§r each for free, whereas §3Active Coolers§r provide §d2 Cooling§r each with a steady flow of §9Dielectric PCB Coolant§r, provided through an §3Input Hatch§r. If the Cooling within the HPCA is insufficient, the components may be §cdamaged§r from overheating. The physical position of the components within the HPCA does not matter.\n\nA §3Bridge Component§r may be installed, allowing the HPCA to connect to §3Network Switches§r.\n\nThe energy consumption of the HPCA is determined by the sum of its parts. \u0027Max Energy\u0027 refers to the power draw while the HPCA is computing, while \u0027Upkeep Energy\u0027 refers to the power draw when the HPCA is idling.", "desc:8": "The §3High Performance Computing Array (HPCA)§r is a computer which provides §dComputation Work§r to be used in the §3Research Station§r. The amount of §dComputation Work§r it provides depends on the type of HPCA parts within it. It also needs to receive adequate §dCooling§r provided by Coolers within its structure.\n\nConnect the §3Computation Data Transmission Hatch§r to the §3Reception Hatch§r on your §3Research Station§r to transfer the §dCWU/t§r produced to it.\n\nThe HPCA accepts almost any combination of §3Computation Components§r, §3Coolers§r, §3Bridges§r and §3Empty Components§r within the 3x3 area behind the §aComputer Heat Vents§r. The suggested components will build a §d16 CWU/t§r HPCA, enough for scanning the §3Fusion Reactor Mk2§r, §6UV Circuits§r, and all §6ZPM Components§r. You can get away with less at first, but you will eventually need to upgrade to this computing power. Refer to §eJEI§r for some other possible setups.\n\nThe §dCWU/t§r of the HPCA is determined by the sum of the outputs of the §3HPCA Computation Components§r within it. Regular §3Computation Components§r produce §d4 CWU/t§r each, and require §d2 Cooling§r each. §3Advanced Computation Components§r, which you do not have access to yet, produce §d16 CWU/t§r each and require §d4 Cooling§r each.\n\n§dCooling§r is provided by §3Cooler§r blocks within the structure. §3Passive Coolers§r provide §d1 Cooling§r each for free, whereas §3Active Coolers§r provide §d2 Cooling§r each with a steady flow of §9Dielectric PCB Coolant§r, provided through an §3Input Hatch§r. If the Cooling within the HPCA is insufficient, the components may be §cdamaged§r from overheating. The physical position of the components within the HPCA does not matter.\n\nA §3Bridge Component§r may be installed, allowing the HPCA to connect to §3Network Switches§r.\n\nThe energy consumption of the HPCA is determined by the sum of its parts. \u0027Max Energy\u0027 refers to the power draw while the HPCA is computing, while \u0027Upkeep Energy\u0027 refers to the power draw when the HPCA is idling.",
"globalshare:1": 0, "globalshare:1": 0,
"icon:10": { "icon:10": {
"Count:3": 1, "Count:3": 1,
@ -63580,24 +63580,6 @@
"id:8": "gregtech:computer_casing" "id:8": "gregtech:computer_casing"
}, },
"4:10": { "4:10": {
"Count:3": 4,
"Damage:2": 1413,
"OreDict:8": "",
"id:8": "gregtech:machine"
},
"5:10": {
"Count:3": 4,
"Damage:2": 1416,
"OreDict:8": "",
"id:8": "gregtech:machine"
},
"6:10": {
"Count:3": 1,
"Damage:2": 1412,
"OreDict:8": "",
"id:8": "gregtech:machine"
},
"7:10": {
"Count:3": 1, "Count:3": 1,
"Damage:2": 1410, "Damage:2": 1410,
"OreDict:8": "", "OreDict:8": "",
@ -63605,6 +63587,35 @@
} }
}, },
"taskID:8": "bq_standard:retrieval" "taskID:8": "bq_standard:retrieval"
},
"1:10": {
"autoConsume:1": 0,
"consume:1": 0,
"groupDetect:1": 0,
"ignoreNBT:1": 0,
"index:3": 1,
"partialMatch:1": 1,
"requiredItems:9": {
"0:10": {
"Count:3": 4,
"Damage:2": 1413,
"OreDict:8": "",
"id:8": "gregtech:machine"
},
"1:10": {
"Count:3": 4,
"Damage:2": 1415,
"OreDict:8": "",
"id:8": "gregtech:machine"
},
"2:10": {
"Count:3": 1,
"Damage:2": 1412,
"OreDict:8": "",
"id:8": "gregtech:machine"
}
},
"taskID:8": "bq_standard:optional_retrieval"
} }
} }
}, },