查看“Module:State trait/List”的源代码

local p = { };
-- list of common effects
local ef = { };
ef['infra'] = '[[File:State status infrastructure.png|link=Infrastructure|24px]] Infrastructure'
ef['sConEf'] = '[[File:State status construction.png|link=Construction|24px]] State construction efficiency'
ef['mapi'] = 'Market access price impact'
ef['hw'] = '[[File:Goods hardwood.png|link=Hardwood|24px]] Hardwood output'
ef['el'] = '[[File:Goods electricity.png|link=Electricity|24px]] Electricity output'
ef['sy'] = 'Shipyards throughput'
ef['msy'] = 'Military Shipyards throughput'

-----------------------
-- List of state traits
-----------------------
-- 20 infra 5 mapi rivers
p['Danube River'] = {
 icon = 'river',
 effect = { { 'green', '+20', ef.infra }, { 'green', '+5%', ef.mapi } }
}
p['Don River'] = p['Danube River']
p['Indus River'] = p['Danube River']
p['Irtysh River'] = p['Danube River']
p['Mississippi River'] = p['Danube River']
p['Rhine River'] = p['Danube River']
p['Volga River'] = p['Danube River']
p['Yangtze River'] = p['Danube River']

-- 20 infra rivers
p['Brahmaputra River'] = {
 icon = 'river',
 effect = { { 'green', '+20', ef.infra } }
}
p['Columbia River'] = p['Brahmaputra River']
p['Euphrates River'] = p['Brahmaputra River']
p['Lake Victoria'] = p['Brahmaputra River']
p['Mekong River'] = p['Brahmaputra River']
p['Ohio River'] = p['Brahmaputra River']
p['Øresund'] = p['Brahmaputra River']
p['Orinoco River'] = p['Brahmaputra River']
p['Paraguay River'] = p['Brahmaputra River']
p['Paraná River'] = p['Brahmaputra River']
p['Tigris River'] = p['Brahmaputra River']
p['Uruguay River'] = p['Brahmaputra River']

-- 15 infra 5 mapi rivers
p['Dnieper River'] = {
 icon = 'river',
 effect = { { 'green', '+15', ef.infra }, { 'green', '+5%', ef.mapi } }
}
p['Yellow River'] = p['Dnieper River']

-- 15 infra rivers
p['Amazon River'] = {
 icon = 'river',
 effect = { { 'green', '+15', ef.infra } }
}
p['Congo River'] = p['Amazon River']
p['Drava River'] = p['Amazon River']
p['Elbe River'] = p['Amazon River']
p['Great Lakes'] = p['Amazon River']
p['Kapuas River'] = p['Amazon River']
p['Loire River'] = p['Amazon River']
p['Niger River'] = p['Amazon River']
p['Ob River'] = p['Amazon River']
p['Oder River'] = p['Amazon River']
p['Pearl River'] = p['Amazon River']
p['Po River'] = p['Amazon River']
p['Rhone River'] = p['Amazon River']
p['Sarawak River'] = p['Amazon River']
p['Seine River'] = p['Amazon River']
p['St Lawrence River'] = p['Amazon River']
p['Zambezi River'] = p['Amazon River']

-- flavored harbors
p['Natural Harbors'] = {
 icon = 'natural_harbors',
 effect = { { 'green', '+10%', ef.sy }, { 'green', '+10%', ef.msy }, 'green_+3_Port max level', 'green_+10_Naval Base max level' }
}
p['Bremerhaven'] = p['Natural Harbors']
p['Dalian Bay'] = p['Natural Harbors']
p['Edo Bay'] = p['Natural Harbors']
p['Golden Horn Bay'] = p['Natural Harbors']
p['Halifax Harbor'] = p['Natural Harbors']
p['Manila Bay'] = p['Natural Harbors']
p['Nagasaki Bay'] = p['Natural Harbors']
p['New York Harbor'] = p['Natural Harbors']
p['Newark Harbor'] = p['Natural Harbors']
p['Saronic Gulf'] = p['Natural Harbors']
p['Seto Inland Sea'] = p['Natural Harbors']

-- 20% mountains
p['Caucasus Mountain Range'] = {
 icon = 'mountain',
 effect = { { 'red', '−20%', ef.sConEf }, { 'red', '−20%', ef.infra } }
}
p['Mountains of Baluchistan'] = p['Caucasus Mountain Range']
p['Rocky Mountains'] = p['Caucasus Mountain Range']

-- 15% mountains
p['Alps Mountain Range'] = {
 icon = 'mountain',
 effect = { { 'red', '−15%', ef.sConEf }, { 'red', '−15%', ef.infra } }
}
p['Atlas Mountains'] = p['Alps Mountain Range']

-- 10% mountains
p['Andes'] = {
 icon = 'mountain',
 effect = { { 'red', '−10%', ef.sConEf }, { 'red', '−10%', ef.infra } }
}
p['Cascades'] = p['Andes']
p['Central American Cordilleras'] = p['Andes']
p['Great Dividing Range'] = p['Andes']
p['Sierra Madre Occidental'] = p['Andes']
p['Sierra Madre Oriental'] = p['Andes']
p['Zagros Mountains'] = p['Andes']

-- 10% coal
p['Appalachian Coalfields'] = {
 icon = 'resources_ore',
 effect = { 'green_+10%_Coal Mines throughput' }
}
p['Borinage Coalfield'] = p['Appalachian Coalfields']
p['Central Belt Coalfield'] = p['Appalachian Coalfields']
p['Chikuho Coalfield'] = p['Appalachian Coalfields']
p['Cuencas Mineras'] = p['Appalachian Coalfields']
p['Ishikari Coalfield'] = p['Appalachian Coalfields']
p['Jharia-Dhanbad Coalfield'] = p['Appalachian Coalfields']
p['Kaiping Coalfield'] = p['Appalachian Coalfields']
p['Kuznetsk Basin'] = p['Appalachian Coalfields']
p['Lancashire Coalfield'] = p['Appalachian Coalfields']
p['Loire Coalfield'] = p['Appalachian Coalfields']
p['Nord-Pas-de-Calais Coalfield'] = p['Appalachian Coalfields']
p['Ruhr Coalfield'] = p['Appalachian Coalfields']
p['Saar Coalfield'] = p['Appalachian Coalfields']
p['South Wales Valleys'] = p['Appalachian Coalfields']
p['South Yorkshire Coalfield'] = p['Appalachian Coalfields']
p['Upper Silesia Coalfield'] = p['Appalachian Coalfields']
p['Waterberg Coalfield'] = p['Appalachian Coalfields']

-- 20% iron
p['Basque Iron Ore'] = {
 icon = 'resources_ore',
 effect = { 'green_+20%_Iron Mines throughput' }
}
p['El Mutún'] = p['Basque Iron Ore']
p['Kongsberg'] = p['Basque Iron Ore']
p['Malmberget'] = p['Basque Iron Ore']
p['Mokta El Hadid'] = p['Basque Iron Ore']
p['Serra Dos Carajás'] = p['Basque Iron Ore']
p['Uralic Iron Ore Deposits'] = p['Basque Iron Ore']

-- 20% ag soils
p['Central Valley'] = {
 icon = 'good_soils',
 effect = { 'green_+20%_Agriculture throughput', 'green_+20%_Plantations throughput' }
}
p['Indus Valley'] = p['Central Valley']
p['Mesopotamian Floodplain'] = p['Central Valley']
p['Volcanic Fertility'] = p['Central Valley']

-- 15% ag soils
p['Black Soil'] = {
 icon = 'good_soils',
 effect = { 'green_+15%_Agriculture throughput', 'green_+15%_Plantations throughput' }
}
p['Loess Plateau'] = p['Black Soil']
p['Mitidja Plain'] = p['Black Soil']
p['Red Basin'] = p['Black Soil']
p['Terra Rossa'] = p['Black Soil']
p['Valle Central'] = p['Black Soil']

-- 15% ag river
p['Chao Phraya Delta'] = {
 icon = 'river',
 effect = p['Black Soil'].effect
}
p['Irrwaddy Delta'] = p['Chao Phraya Delta']
p['Mekong Delta'] = p['Chao Phraya Delta']

-- 10% ag soils
p['Good Soils'] = {
 icon = 'good_soils',
 effect = { 'green_+10%_Agriculture throughput', 'green_+10%_Plantations throughput' }
}
p['La Costa'] = p['Good Soils']

--20% fish
p['Grand Banks Fisheries'] = {
 icon = 'resources_fish',
 effect = { 'green_+20%_Fishing Industry throughput' }
}
p['North Sea Fishing'] = p['Grand Banks Fisheries']
p['Yukon River Salmon Run'] = p['Grand Banks Fisheries']

--20% whales
p['Arctic Whaling'] = {
 icon = 'resources_whales',
 effect = { 'green_+20%_Whaling Industry throughput' }
}
p['Antarctic Whaling'] = p['Arctic Whaling']
p['New England Whaling'] = p['Arctic Whaling']

-- deserts
p['Arabian Desert'] = {
 icon = 'dry_climate',
 effect = { 'red_−10%_Ranches throughput', 'red_−20%_Agriculture throughput', 'red_−20%_Plantations throughput', { 'red', '−25%', ef.sConEf }, { 'red', '−25%', ef.infra } }
}
p['Australian Desert'] = p['Arabian Desert']
p['Gobi Desert'] = p['Arabian Desert']
p['Great Basin Desert'] = p['Arabian Desert']
p['Sahara Desert'] = p['Arabian Desert']
p['Taklamakan Desert'] = p['Arabian Desert']

p['Alborz Mountains'] = {
 icon = 'mountain',
 effect = { { 'red', '−10%', ef.sConEf }, { 'red', '−20%', ef.infra } }
}

p['Angara River'] = {
 icon = 'river',
 effect = { { 'green', '+20%', ef.el }, { 'green', '+15', ef.infra } }
}

p['Amazon Rainforest'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+25%', ef.hw }, { 'red', '−30%', ef.sConEf }, { 'red', '−30%', ef.infra } }
}

p['American Chestnut Forests'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+25%', ef.hw } }
}

p['Arctic Terrain'] = {
 icon = 'cold_climate',
 effect = { 'red_−10%_Ranches throughput', { 'red', '−20%', ef.sConEf }, { 'red', '−20%', ef.infra }, 'red_−50%_Migration attraction' }
}

-- name changed to Arctic Terrain in 1.7
p['Siberian Terrain'] = p['Arctic Terrain']

p['Atacama Desert'] = {
 icon = 'dry_climate',
 effect = { 'green_+15%_Sulfur Mines throughput', 'red_−10%_Agriculture throughput', 'red_−10%_Plantations throughput', { 'red', '−10%', ef.sConEf }, { 'red', '−10%', ef.infra } }
}

p['Bam-Narmashir Oasis'] = {
 icon = 'turquoise',
 effect = { 'green_+20%_Dye Plantations throughput' }
}
p['Cobalt Deposits'] = p['Bam-Narmashir Oasis']

p['Bengal Delta'] = {
 icon = 'river',
 effect = { 'green_+25%_Agriculture throughput', 'green_+25%_Plantations throughput' }
}

p['Bergslagen'] = {
 icon = 'resources_ore',
 effect = { 'green_+15%_Iron Mines throughput', 'green_+10%_Lead Mines throughput' }
}

p['Black Country'] = {
 icon = 'resources_ore',
 effect = { 'green_+15%_Coal Mines throughput', 'green_+5%_Iron Mines throughput' }
}

p['Black Forest'] = {
 icon = 'resources_lumber',
 effect = { 'green_+10%_Logging Industry throughput' }
}

p['Bone Valley'] = {
 icon = 'resources_ore',
 effect = { 'green_+10%_Sulfur Mines throughput' }
}

p['Borneo Rainforest'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+25%', ef.hw }, { 'red', '−10%', ef.sConEf }, { 'red', '−10%', ef.infra } }
}
p['Burmese Teak'] = p['Borneo Rainforest']

p['Canadian Prairie'] = {
 icon = 'great_plains',
 effect = { 'green_+20%_Agriculture throughput', { 'red', '−10%', ef.infra } }
}

p['Canales Patagónicos'] = {
 icon = 'fjords',
 effect = { { 'green', '+15%', ef.hw }, 'green_+5_Port max level', 'green_+15_Naval Base max level' }
}

p['Cap-Vert'] = {
 icon = 'natural_harbors',
 effect = { 'green_+5_Port max level', 'green_+15_Naval Base max level' }
}

p['Cauvery Delta'] = {
 icon = 'river',
 effect = p['Central Valley'].effect
}

p['Chincha Islands'] = {
 icon = 'bat',
 effect = { 'green_+20%_Sulfur Mines throughput' }
}

p['Christianiafjorden'] = {
 icon = 'fjords',
 effect = { { 'green', '+15%', ef.sy }, { 'green', '+15%', ef.msy }, 'green_+5_Port max level', 'green_+10_Naval Base max level' }
}
p['Odensefjorden'] = {
 icon = 'fjords',
 effect = { { 'green', '+15%', ef.sy }, { 'green', '+15%', ef.msy }, 'green_+5_Port max level', 'green_+15_Naval Base max level' }
}
p['Hardangerfjorden'] = {
 icon = 'fjords',
 effect = { { 'green', '+15%', ef.sy }, { 'green', '+15%', ef.msy }, 'green_+5_Port max level', 'green_+15_Naval Base max level', { 'green', '+20%', ef.el } }
}
p['Trondhjemsfjorden'] = p['Hardangerfjorden']

p['Congolian Rainforest'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+25%', ef.hw }, { 'red', '−20%', ef.sConEf }, { 'red', '−20%', ef.infra } }
}

p['Copper Coast'] = {
 icon = 'resources_ore',
 effect = { 'green_+10%_Lead Mines throughput', 'green_+10%_Iron Mines throughput' }
}

p['Cordillera de la Costa'] = {
 icon = 'fjords',
 effect = { 'green_+5_Port max level', 'green_+15_Naval Base max level' }
}

p['Developed Amazon Rainforest'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+25%', ef.hw }, { 'red', '−20%', ef.sConEf }, { 'red', '−20%', ef.infra }, 'green_+10%_Migration attraction' }
}

p['Digboi Oil Fields'] = {
 icon = 'tropical_climate',
 effect = { 'green_+10%_Oil Extractors throughput' }
}
p['Yenangyaung Oil Fields'] = p['Digboi Oil Fields']

p['Eastern Steppe'] = {
 icon = 'poor_soils',
 effect = { 'green_+10%_Ranches throughput', 'red_−10%_Agriculture throughput', 'red_−10%_Plantations throughput' }
}
p['Sahel'] = p['Eastern Steppe']

p['Exploited Amazon Rainforest'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+25%', ef.hw }, 'green_+10%_Agriculture throughput', { 'red', '−10%', ef.sConEf }, { 'red', '−10%', ef.infra }, 'green_+20%_Migration attraction' }
}

p['Floridian Wetlands'] = {
 icon = 'swamp',
 effect = p['Alps Mountain Range'].effect
}

p['Galle Harbor'] = {
 icon = 'natural_harbors',
 effect = { { 'green', '+10%', ef.sy }, { 'green', '+10%', ef.msy }, 'green_+5_Port max level', 'green_+10_Naval Base max level' }
}
p['Sebastopol Bay'] = p['Galle Harbor']

p['Ganges River'] = {
 icon = 'river',
 effect = { 'green_+15%_Agriculture throughput', 'green_+15%_Plantations throughput', { 'green', '+20', ef.infra }, { 'green', '+5%', ef.mapi } }
}

p['Golden Vale'] = {
 icon = 'good_soils',
 effect = { 'green_+10%_Agriculture throughput' }
}

p['Gran Chaco'] = {
 icon = 'poor_soils',
 effect = { 'red_−10%_Logging Industry throughput', 'red_−20%_Agriculture throughput', 'green_+30%_Ranches throughput' }
}

p['Great Plains'] = {
 icon = 'great_plains',
 effect = { 'green_+20%_Agriculture throughput', 'green_+20%_Plantations throughput', { 'red', '−10%', ef.infra } }
}

p['Guadalquivir River'] = {
 icon = 'river',
 effect = { { 'green', '+10', ef.infra } }
}
p['Yenisei River'] = p['Guadalquivir River']

p['Himalayas Mountain Range'] = {
 icon = 'mountain',
 effect = { { 'red', '−25%', ef.sConEf }, { 'red', '−25%', ef.infra } }
}

p['Honam Plain'] = {
 icon = 'good_soils',
 effect = { { 'green', '+5', ef.infra }, 'green_+10%_Agriculture throughput' }
}

p['Himalayan Foothills'] = {
 icon = 'good_soils',
 effect = { 'green_+25%_Tea Plantation throughput' }
}

p['Hyrcanian Forests'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+20%', ef.hw }, 'green_+10%_Logging Industry throughput' }
}

p['Indochinese Forests'] = {
 icon = 'resources_lumber',
 effect = { 'green_+10%_Logging Industry throughput', { 'red', '−10%', ef.sConEf }, { 'red', '−10%', ef.infra } }
}

p['Isle of Syros'] = {
 icon = 'natural_harbors',
 effect = { { 'green', '+20%', ef.sy }, 'green_+4_Naval Base max level', 'green_+3_Port max level' }
}

p['Kanto Plain'] = {
 icon = 'good_soils',
 effect = { { 'green', '+15', ef.infra }, 'green_+10%_Agriculture throughput' }
}

p['Krka Falls'] = {
 icon = 'waterfall',
 effect = { { 'green', '+15%', ef.el } }
}

p['Kotlin Island'] = {
 icon = 'natural harbors',
 effect = { { 'green', '+20%', ef.msy }, 'green_+5_Port max level', 'green_+20_Naval Base max level' }
}

p['Lake Maracaibo'] = {
 icon = 'resources_fish',
 effect = { 'green_+20%_Oil Extractors throughput', { 'green', '+15', ef.infra } }
}

p['London Docklands'] = {
 icon = 'natural_harbors',
 effect = { { 'green', '+15%', ef.sy }, { 'green', '+15%', ef.msy }, 'green_+5_Port max level', 'green_+15_Naval Base max level' }
}

p['Malaria'] = {
 icon = 'malaria',
 effect = { 'red_−90%_Colony growth speed in non-homeland states', 'red_+15%_Mortality in non-homeland states' }
}

p['Mascarene Plateau'] = {
 icon = 'resources_fish',
 effect = { 'green_+10%_Fishing Industry throughput' }
}

p['Mata Atlântica'] = {
 icon = 'tropical_climate',
 effect = { 'green_+15%_Sugar Plantation throughput' }
}

p['Mount Lebanon'] = {
 icon = 'mountain',
 effect = { { 'red', '−5%', ef.sConEf }, { 'red', '−5%', ef.infra }, 'green_+15%_Silk Plantations throughput' }
}

p['Murray–Darling Basin'] = {
 icon = 'river',
 effect = { 'green_+10%_Ranches throughput', 'green_+10%_Agriculture throughput', 'green_+10%_Plantations throughput' }
}

p['Nara Basin'] = {
 icon = 'good_soils',
 effect = { { 'green', '+10', ef.infra }, 'green_+10%_Rice Farms throughput' }
}

p['New Caledonian Nickel'] = {
 icon = 'resources_ore',
 effect = { 'green_+10%_Lead Mines throughput' }
}

p['Niagara Falls'] = {
 icon = 'waterfall',
 effect = { { 'green', '+20%', ef.el } }
}

p['Nile River'] = {
 icon = 'river',
 effect = { 'green_+20%_Agriculture throughput', 'green_+20%_Plantations throughput', { 'green', '+20', ef.infra } }
}

p['Northern California Coastal Forests'] = {
 icon = 'resources_lumber',
 effect = { 'green_+20%_Logging Industry throughput', { 'red', '−10%', ef.sConEf } }
}

p['Northern Canadian Terrain'] = {
 icon = 'cold_climate',
 effect = { 'red_−20%_Agriculture throughput', { 'red', '−20%', ef.sConEf }, { 'red', '−20%', ef.infra }, 'red_−50%_Migration attraction' }
}

p['Pampas'] = {
 icon = 'resources_grazing',
 effect = { 'green_+20%_Ranches throughput', 'green_+15%_Agriculture throughput', 'green_+15%_Plantations throughput' }
}

p['Pannonian Plain'] = {
 icon = 'good_soils',
 effect = { 'green_+10%_Agriculture throughput', 'green_+10%_Ranches throughput' }
}

p['Pantanal'] = {
 icon = 'good_soils',
 effect = { 'green_+15%_Agriculture throughput', 'green_+15%_Plantations throughput', { 'red', '−10%', ef.infra } }
}

p['Raniganj Coalfield'] = {
 icon = 'resources_ore',
 effect = { 'green_+15%_Coal Mines throughput' }
}

p['Recôncavo'] = {
 icon = 'natural_harbors',
 effect = { 'green_+15%_Tobacco Plantation throughput' }
}

p['Russian Taiga Forests'] = {
 icon = 'resources_lumber',
 effect = { 'green_+20%_Logging Industry throughput' }
}
p['Scandinavian Forests'] = p['Russian Taiga Forests']

p['Sandalwood Forestry'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+25%', ef.hw } }
}

p['Scanian Soils'] = {
 icon = 'good_soils',
 effect = { 'green_+15%_Agriculture throughput' }
}

p['Scottish Highlands'] = {
 icon = 'mountain',
 effect = { { 'red', '−10%', ef.sConEf }, { 'red', '−10%', ef.infra }, 'red_−10%_Agriculture throughput', 'green_+10%_Ranches throughput' }
}

p['Sertão'] = {
 icon = 'dry_climate',
 effect = { 'green_+10%_Ranches throughput', { 'red', '−5', ef.infra } }
}

p['Severe Malaria'] = {
 icon = 'severe_malaria',
 effect = { 'red_−95%_Colony growth speed in non-homeland states', 'red_+25%_Mortality in non-homeland states' }
}

p['Sicilian Sulfur Deposits'] = {
 icon = 'resources_ore',
 effect = { 'green_+20%_Sulfur Mines throughput' }
}

p['Sierra Nevada'] = {
 icon = 'mountain',
 effect = { { 'red', '−10%', ef.infra } }
}
p['Wasatch Range'] = p['Sierra Nevada']

p['Tasmanian Rainforest'] = {
 icon = 'resources_lumber',
 effect = { { 'green', '+20%', ef.hw }, { 'red', '−5', ef.infra } }
}

p['Terra Roxa'] = {
 icon = 'good_soils',
 effect = { 'green_+10%_Coffee Plantation throughput' }
}
p['Western Ghats'] = p['Terra Roxa']

p['Tihamah'] = {
 icon = 'poor_soils',
 effect = { 'red_−10%_Agriculture throughput', 'red_−10%_Plantations throughput', 'red_−3_Port max level', 'red_−15_Naval Base max level' }
}

p['Western Steppe'] = {
 icon = 'great_plains',
 effect = { 'green_+10%_Ranches throughput' }
}

return p