"use strict" // TODO: execute enemy heirs during supply phase // TODO: reuse supply and goes-home states for pretender and king // TODO: tweak block layout and positioning exports.scenarios = [ "Wars of the Roses", "Kingmaker", "Richard III", ] exports.roles = [ "York", "Lancaster" ] const { CARDS, BLOCKS, AREAS, BORDERS } = require('./data') delete AREAS.LPool delete AREAS.YPool delete AREAS.LMinor delete AREAS.YMinor const LANCASTER = "Lancaster" const YORK = "York" const REBEL = "Rebel" const ENEMY = { Lancaster: "York", York: "Lancaster" } const OBSERVER = "Observer" const BOTH = "Both" const POOL = "Pool" const MINOR = "Minor" // serif cirled numbers const DIE_HIT = [ 0, '\u2776', '\u2777', '\u2778', '\u2779', '\u277A', '\u277B' ] const DIE_MISS = [ 0, '\u2460', '\u2461', '\u2462', '\u2463', '\u2464', '\u2465' ] const ATTACK_MARK = "*" const RESERVE_MARK = "" // List for fast iteration const BLOCKLIST = Object.keys(BLOCKS) const AREALIST = Object.keys(AREAS) let states = {} let game = null function random(n) { return Math.floor(((game.seed = game.seed * 48271 % 0x7fffffff) / 0x7fffffff) * n) } function logbr() { if (game.log.length > 0 && game.log[game.log.length-1] !== "") game.log.push("") } function log_battle(s) { game.log.push(game.active[0] + ": " + s) } function logp(s) { game.log.push(game.active + " " + s) } function log(s) { game.log.push(s) } function log_move_start(from) { game.turn_buf = [ from ] } function log_move_continue(to, mark) { if (mark) game.turn_buf.push(to + mark) else game.turn_buf.push(to) } function log_move_end() { if (game.turn_buf) { game.turn_log.push(game.turn_buf) delete game.turn_buf } } function print_turn_log_no_count(text) { function print_move(last) { return "\n" + last.join(" \u2192 ") } if (game.turn_log.length > 0) { game.turn_log.sort() for (let entry of game.turn_log) text += print_move(entry) } else { text += "\nnothing." } log(text) delete game.turn_log } function print_turn_log(text) { function print_move(last) { return "\n" + n + " " + last.join(" \u2192 ") } game.turn_log.sort() let last = game.turn_log[0] let n = 0 for (let entry of game.turn_log) { if (entry.toString() !== last.toString()) { text += print_move(last) n = 0 } ++n last = entry } if (n > 0) text += print_move(last) else text += "\nnothing." log(text) delete game.turn_log } function is_inactive_player(current) { return current === OBSERVER || (game.active !== current && game.active !== BOTH) } function remove_from_array(array, item) { let i = array.indexOf(item) if (i >= 0) array.splice(i, 1) } function deep_copy(original) { if (Array.isArray(original)) { let n = original.length let copy = new Array(n) for (let i = 0; i < n; ++i) { let v = original[i] if (typeof v === "object" && v !== null) copy[i] = deep_copy(v) else copy[i] = v } return copy } else { let copy = {} for (let i in original) { let v = original[i] if (typeof v === "object" && v !== null) copy[i] = deep_copy(v) else copy[i] = v } return copy } } function push_undo() { let copy = {} for (let k in game) { let v = game[k] if (k === "undo") continue else if (k === "log") v = v.length else if (typeof v === "object" && v !== null) v = deep_copy(v) copy[k] = v } game.undo.push(copy) } function pop_undo() { let save_log = game.log let save_undo = game.undo game = save_undo.pop() save_log.length = game.log game.log = save_log game.undo = save_undo } function clear_undo() { game.undo = [] } function gen_action_undo(view) { if (!view.actions) view.actions = {} if (game.undo && game.undo.length > 0) view.actions.undo = 1 else view.actions.undo = 0 } function gen_action(view, action, argument) { if (!view.actions) view.actions = {} if (argument !== undefined) { if (!(action in view.actions)) { view.actions[action] = [ argument ] } else { if (!view.actions[action].includes(argument)) view.actions[action].push(argument) } } else { view.actions[action] = 1 } } function roll_d6() { return random(6) + 1 } function shuffle_deck() { let deck = [] for (let c = 1; c <= 25; ++c) deck.push(c) return deck } function deal_cards(deck, n) { let hand = [] for (let i = 0; i < n; ++i) { let k = random(deck.length) hand.push(deck[k]) deck.splice(k, 1) } return hand } function count_ap(hand) { let count = 0 for (let c of hand) count += CARDS[c].actions return count } function is_pretender_heir(who) { return (block_owner(who) === block_owner(game.pretender) && block_type(who) === 'heir') } function is_royal_heir(who) { return (block_owner(who) === block_owner(game.king) && block_type(who) === 'heir') } function is_dead(who) { if (who in BLOCKS) return !game.location[who] return !game.location[who+"/L"] && !game.location[who+"/Y"] } function is_shield_area_for(where, who, combat) { let haystack = AREAS[where].shields let needle = BLOCKS[who].shield // Nevilles going to exile in Calais if (where === "Calais") { if (who === "Warwick/L" || who === "Kent/L" || who === "Salisbury/L") return false if (count_blocks_exclude_mercenaries("Calais") < 4) { if (who === "Kent/Y") return is_area_friendly_to("East Yorks", LANCASTER) if (who === "Salisbury/Y") return is_area_friendly_to("North Yorks", LANCASTER) } } // Exeter and Clarence as enemy nobles if (who === "Exeter/Y") return where === "Cornwall" if (who === "Clarence/L") return (where === "South Yorks" || where === "Rutland" || where === "Hereford") // Everyone can always use their own shield if (haystack && haystack.includes(needle)) return true // Nevilles can use each other's shields if their owner is dead if (is_neville(who)) { if (is_dead("Warwick") && haystack.includes("Warwick")) return true if (is_dead("Kent") && haystack.includes("Kent")) return true if (is_dead("Salisbury") && haystack.includes("Salisbury")) return true } // York heirs can use any York shield if (is_heir(who) && block_owner(who) === YORK) { if (haystack.includes("York")) return !combat || find_senior_heir_in_area(YORK, where) === who } // Lancaster heirs can use each other's specific shields if their owner is dead if (is_heir(who) && block_owner(who) === LANCASTER) { let available = false if (haystack.includes("Lancaster")) available = true if (is_dead("Exeter") && haystack.includes("Exeter")) available = true if (is_dead("Somerset") && haystack.includes("Somerset")) available = true if (is_dead("Richmond") && haystack.includes("Richmond")) available = true if (available) return !combat || find_senior_heir_in_area(LANCASTER, where) === who } return false } function is_at_home(who) { let where = game.location[who] if (!where || where === MINOR || where === POOL) return true if (is_pretender_heir(who)) return is_exile_area(where) if (is_royal_heir(who)) return is_shield_area_for(where, who, false) || is_crown_area(where) if (block_type(who) === 'nobles') return is_shield_area_for(where, who, false) if (block_type(who) === 'church') return has_cathedral(where) === block_home(who) return true } function is_in_exile(who) { return is_exile_area(game.location[who]) } function is_home_for(where, who) { if (is_pretender_heir(who)) return is_shield_area_for(where, who, false) if (is_royal_heir(who)) return is_crown_area(where) || is_shield_area_for(where, who, false) if (block_type(who) === 'nobles') return is_shield_area_for(where, who, false) if (block_type(who) === 'church') return block_home(who) === has_cathedral(where) return false } function is_available_home_for(where, who) { if (who === "Clarence/L") return is_home_for(where, who) && is_vacant_area(where) return is_home_for(where, who) && is_friendly_or_vacant_area(where) } function count_available_homes(who) { let count = 0 for (let where of AREALIST) if (is_available_home_for(where, who)) ++count return count } function available_home(who) { for (let where of AREALIST) if (is_available_home_for(where, who)) return where } function go_home_if_possible(who) { if (!is_in_exile(who)) { let n = count_available_homes(who) if (n === 0) { game.turn_log.push([block_name(who), "Pool"]) disband(who) } else if (n === 1) { let home = available_home(who) if (game.location[who] !== home) { game.location[who] = home game.turn_log.push([block_name(who), game.location[who]]) // TODO: "Home"? } } else { return true } } return false } function is_on_map_not_in_exile_or_man(who) { let where = game.location[who] return where && where !== MINOR && where !== POOL && where !== "Isle of Man" && !is_exile_area(where) } function is_land_area(where) { return where && where !== MINOR && where !== POOL && !is_sea_area(where) } function is_area_friendly_to(where, owner) { let save_active = game.active game.active = owner let result = is_friendly_area(where) game.active = save_active return result } function is_london_friendly_to(owner) { return is_area_friendly_to("Middlesex", owner) } function count_lancaster_nobles_and_heirs() { let count = 0 for (let b of BLOCKLIST) if (block_owner(b) === LANCASTER && (block_type(b) === 'nobles' || block_type(b) === 'church' || block_type(b) === 'heir')) if (is_on_map_not_in_exile_or_man(b)) ++count if (is_london_friendly_to(LANCASTER)) ++count return count } function count_york_nobles_and_heirs() { let count = 0 for (let b of BLOCKLIST) if (block_owner(b) === YORK && (block_type(b) === 'nobles' || block_type(b) === 'church' || block_type(b) === 'heir')) if (is_on_map_not_in_exile_or_man(b)) ++count if (is_london_friendly_to(YORK)) ++count return count } function block_name(who) { return BLOCKS[who].name } function block_type(who) { return BLOCKS[who].type } function block_home(who) { return BLOCKS[who].home } function block_owner(who) { if (who === REBEL) { if (game.pretender) return block_owner(game.pretender) else if (game.king) return ENEMY[block_owner(game.king)] else return YORK // whatever... they're both dead } return BLOCKS[who].owner } function block_initiative(who) { if (block_type(who) === 'bombard') return game.battle_round <= 1 ? 'A' : 'D' return BLOCKS[who].combat[0] } function block_printed_fire_power(who) { return BLOCKS[who].combat[1] | 0 } function block_fire_power(who, where) { let combat = block_printed_fire_power(who) if (is_defender(who)) { if (is_heir(who) && is_shield_area_for(where, who, true)) ++combat if (is_crown_area(where) && is_senior_royal_heir_in(who, where)) ++combat if (is_noble(who) && is_shield_area_for(where, who, true)) ++combat if (is_church(who) && block_home(who) === has_cathedral(where)) ++combat if (is_levy(who) && block_home(who) === has_city(where)) ++combat if (who === "Welsh Mercenary" && is_wales(where)) ++combat } return combat } function is_mercenary(who) { return BLOCKS[who].type === 'mercenaries' } function is_heir(who) { return BLOCKS[who].type === 'heir' } function is_noble(who) { return BLOCKS[who].type === 'nobles' } function is_church(who) { return BLOCKS[who].type === 'church' } function is_levy(who) { return BLOCKS[who].type === 'levies' } function is_rose_noble(who) { return BLOCKS[who].type === 'nobles' && !BLOCKS[who].loyalty } function is_neville(who) { let name = block_name(who) return name === "Warwick" || name === "Kent" || name === "Salisbury" } function block_loyalty(source, target) { let source_name = source ? block_name(source) : "Event" if (source_name === "Warwick") { let target_name = block_name(target) if (target_name === "Kent" || target_name === "Salisbury") return 1 if (target_name === "Northumberland" || target_name === "Westmoreland") return 0 } return BLOCKS[target].loyalty | 0 } function can_defect(source, target) { // Clarence and Exeter can't defect if they are the king or pretender if (target === game.king || target === game.pretender) return false return block_loyalty(source, target) > 0 && !game.defected[target] } function can_attempt_treason_event() { if (game.treason === game.attacker[game.where]) { for (let b of BLOCKLIST) if (is_defender(b) && can_defect(null, b)) return true } else { for (let b of BLOCKLIST) if (is_attacker(b) && can_defect(null, b)) return true } return false } function treachery_tag(who) { if (who === game.king) return 'King' if (who === game.pretender) return 'Pretender' if (who === "Warwick/L" || who === "Warwick/Y") return 'Warwick' return game.active } function can_attempt_treachery(who) { let once = treachery_tag(who) if (game.battle_list.includes(who) && !game.treachery[once]) { for (let b of BLOCKLIST) { if (game.active === game.attacker[game.where]) { if (is_defender(b) && can_defect(who, b)) return true } else { if (is_attacker(b) && can_defect(who, b)) return true } } } return false } function block_max_steps(who) { return BLOCKS[who].steps } function can_activate(who) { return block_owner(who) === game.active && !game.moved[who] && !game.dead[who] } function is_area_on_map(location) { return location && location !== MINOR && location !== POOL } function is_block_on_map(b) { return is_area_on_map(game.location[b]) } function is_block_alive(b) { return is_area_on_map(game.location[b]) && !game.dead[b] } function border_id(a, b) { return (a < b) ? a + "/" + b : b + "/" + a } function border_was_last_used_by_enemy(from, to) { return game.last_used[border_id(from, to)] === ENEMY[game.active] } function border_was_last_used_by_active(from, to) { return game.last_used[border_id(from, to)] === game.active } function border_type(a, b) { return BORDERS[border_id(a,b)] } function border_limit(a, b) { return game.border_limit[border_id(a,b)] || 0 } function reset_border_limits() { game.border_limit = {} } function count_friendly(where) { let p = game.active let count = 0 for (let b of BLOCKLIST) if (game.location[b] === where && block_owner(b) === p && !game.dead[b]) ++count return count } function count_enemy(where) { let p = ENEMY[game.active] let count = 0 for (let b of BLOCKLIST) if (game.location[b] === where && block_owner(b) === p && !game.dead[b]) ++count return count } function count_enemy_excluding_reserves(where) { let p = ENEMY[game.active] let count = 0 for (let b of BLOCKLIST) if (game.location[b] === where && block_owner(b) === p) if (!game.reserves.includes(b)) ++count return count } function is_friendly_area(where) { return is_land_area(where) && count_friendly(where) > 0 && count_enemy(where) === 0 } function is_enemy_area(where) { return is_land_area(where) && count_friendly(where) === 0 && count_enemy(where) > 0 } function is_vacant_area(where) { return is_land_area(where) && count_friendly(where) === 0 && count_enemy(where) === 0 } function is_contested_area(where) { return is_land_area(where) && count_friendly(where) > 0 && count_enemy(where) > 0 } function is_friendly_or_vacant_area(where) { return is_friendly_area(where) || is_vacant_area(where) } function has_city(where) { return AREAS[where].city } function has_cathedral(where) { return AREAS[where].cathedral } function is_crown_area(where) { return AREAS[where].crown } function is_major_port(where) { return AREAS[where].major_port } function is_sea_area(where) { return where === 'Irish Sea' || where === 'North Sea' || where === 'English Channel' } function is_wales(where) { return where === "Caernarvon" || where === "Pembroke" || where === "Powys" || where === "Glamorgan" } function is_lancaster_exile_area(where) { return where === "France" || where === "Scotland" } function is_york_exile_area(where) { return where === "Calais" || where === "Ireland" } function is_exile_area(where) { return is_lancaster_exile_area(where) || is_york_exile_area(where) } function is_friendly_exile_area(where) { return (game.active === LANCASTER) ? is_lancaster_exile_area(where) : is_york_exile_area(where) } function is_enemy_exile_area(where) { return (game.active === YORK) ? is_lancaster_exile_area(where) : is_york_exile_area(where) } function is_pretender_exile_area(where) { return (block_owner(game.pretender) === LANCASTER) ? is_lancaster_exile_area(where) : is_york_exile_area(where) } function can_recruit_to(who, to) { if (who === "Welsh Mercenary") return is_wales(to) && is_friendly_or_vacant_area(to) switch (block_type(who)) { case 'heir': // Not in rulebook, but they can be disbanded to the pool during exile limit check... // Use same rules as entering a minor noble. if (block_owner(who) === block_owner(game.king)) return is_crown_area(to) && is_friendly_or_vacant_area(to) else return is_pretender_exile_area(to) case 'nobles': return is_shield_area_for(to, who, false) && is_friendly_or_vacant_area(to) case 'church': return block_home(who) === has_cathedral(to) && is_friendly_or_vacant_area(to) case 'levies': return block_home(who) === has_city(to) && is_friendly_or_vacant_area(to) case 'bombard': return has_city(to) && is_friendly_area(to) case 'rebel': return !is_exile_area(to) && is_vacant_area(to) } return false } function can_recruit(who) { // Move one group events: if (game.active === game.force_march) return false if (game.active === game.surprise) return false if (game.active === game.treason) return false // Must use AP for sea moves: if (game.active === game.piracy) return false if (can_activate(who) && game.location[who] === POOL) for (let to of AREALIST) if (can_recruit_to(who, to)) return true return false } function have_contested_areas() { for (let where of AREALIST) if (is_area_on_map(where) && is_contested_area(where)) return true return false } function count_pinning(where) { return count_enemy_excluding_reserves(where) } function count_pinned(where) { let count = 0 for (let b of BLOCKLIST) if (game.location[b] === where && block_owner(b) === game.active) if (!game.reserves.includes(b)) ++count return count } function is_pinned(who, from) { if (game.active === game.p2) { if (count_pinned(from) <= count_pinning(from)) return true } return false } function can_block_sea_move_to(who, from, to) { if (is_enemy_exile_area(to)) return false if (game.active === game.force_march) return false if (who === REBEL || who === "Scots Mercenary" || who === "Welsh Mercenary") return false if (block_type(who) === 'bombard' || block_type(who) === 'levies') return false if (border_type(from, to) === 'sea') return true return false } function can_block_sea_move(who) { if (can_activate(who)) { let from = game.location[who] if (from) { if (is_pinned(who, from)) return false for (let to of AREAS[from].exits) if (can_block_sea_move_to(who, from, to)) return true } } return false } function can_block_use_border(who, from, to) { if (game.active === game.surprise) { switch (border_type(from, to)) { case 'major': return border_limit(from, to) < 5 case 'river': return border_limit(from, to) < 4 case 'minor': return border_limit(from, to) < 3 case 'sea': return false } } else { switch (border_type(from, to)) { case 'major': return border_limit(from, to) < 4 case 'river': return border_limit(from, to) < 3 case 'minor': return border_limit(from, to) < 2 case 'sea': return false } } } function count_borders_crossed(to) { let count = 0 for (let from of AREAS[to].exits) if (border_was_last_used_by_active(from, to)) ++count return count } function can_block_land_move_to(who, from, to) { if (is_enemy_exile_area(to)) return false if (game.active === game.piracy) return false if (can_block_use_border(who, from, to)) { // limit number of borders used to attack/reinforce let contested = is_contested_area(to) if (contested && !border_was_last_used_by_active(from, to)) { // p1 or p2 attacking if (game.attacker[to] === game.active) { if (count_borders_crossed(to) >= 3) return false } if (game.active === game.p2) { // p2 reinforcing battle started by p1 if (game.attacker[to] === game.p1) { if (count_borders_crossed(to) >= 2) return false } } } if (count_pinning(from) > 0) if (border_was_last_used_by_enemy(from, to)) return false return true } return false } function can_block_land_move(who) { if (can_activate(who)) { let from = game.location[who] if (from) { if (is_pinned(who, from)) return false for (let to of AREAS[from].exits) if (can_block_land_move_to(who, from, to)) return true } } return false } function can_block_continue(who, from, to) { if (is_contested_area(to)) return false if (border_type(from, to) === 'minor') return false if (game.active === game.force_march) { if (game.distance >= 3) return false } else { if (game.distance >= 2) return false } if (to === game.last_from) return false return true } function can_block_retreat_to(who, to) { if (is_friendly_area(to) || is_vacant_area(to)) { let from = game.location[who] if (can_block_use_border(who, from, to)) { if (border_was_last_used_by_enemy(from, to)) return false return true } } return false } function can_block_regroup_to(who, to) { if (is_friendly_area(to) || is_vacant_area(to)) { let from = game.location[who] if (can_block_use_border(who, from, to)) return true } return false } function can_block_regroup(who) { if (block_owner(who) === game.active) { let from = game.location[who] for (let to of AREAS[from].exits) if (can_block_regroup_to(who, to)) return true } return false } function can_block_muster_via(who, from, next, muster) { if (can_block_land_move_to(who, from, next) && is_friendly_or_vacant_area(next)) { if (next === muster) return true if (border_type(from, next) !== 'minor') { if (AREAS[next].exits.includes(muster)) if (can_block_land_move_to(who, next, muster)) return true } } return false } function can_block_muster(who, muster) { let from = game.location[who] if (from === muster) return false if (can_activate(who) && is_block_on_map(who)) { if (is_pinned(who, from)) return false for (let next of AREAS[from].exits) if (can_block_muster_via(who, from, next, muster)) return true } return false } function can_muster_to(muster) { for (let b of BLOCKLIST) if (can_block_muster(b, muster)) return true return false } function is_battle_reserve(who) { return game.reserves.includes(who) } function is_attacker(who) { if (game.location[who] === game.where && block_owner(who) === game.attacker[game.where] && !game.dead[who]) return !game.reserves.includes(who) return false } function is_defender(who) { if (game.location[who] === game.where && block_owner(who) !== game.attacker[game.where] && !game.dead[who]) return !game.reserves.includes(who) return false } function swap_blocks(a) { let b = BLOCKS[a].enemy game.location[b] = game.location[a] game.steps[b] = game.steps[a] game.location[a] = null game.steps[a] = block_max_steps(a) return b } function disband(who) { game.location[who] = POOL game.steps[who] = block_max_steps(who) } function check_instant_victory() { // Check Clarence/Y and Exeter/L specifically (they're not heirs if converted) if (is_dead("York") && is_dead("March") && is_dead("Rutland") && is_dead("Clarence/Y") && is_dead("Gloucester")) { log("All York heirs were eliminated!") game.victory = "Lancaster won by eliminating all enemy heirs!" game.result = LANCASTER } if (is_dead("Henry VI") && is_dead("Prince Edward") && is_dead("Exeter/L") && is_dead("Somerset") && is_dead("Richmond")) { log("All Lancaster heirs were eliminated!") game.victory = "York won by eliminating all enemy heirs!" game.result = YORK } } function eliminate_block(who) { log(block_name(who) + " was eliminated.") game.flash += " " + block_name(who) + " was eliminated." if (who === "Exeter/Y") { game.location[who] = null ++game.killed_heirs[LANCASTER] return check_instant_victory() } if (who === "Clarence/L") { game.location[who] = null ++game.killed_heirs[YORK] return check_instant_victory() } if (is_heir(who)) { game.location[who] = null ++game.killed_heirs[block_owner(who)] if (who === game.pretender) game.pretender = find_senior_heir(block_owner(game.pretender)) // A new King is only crowned in the supply phase. return check_instant_victory() } if (is_rose_noble(who) || is_neville(who)) { game.location[who] = null return } if (is_mercenary(who)) { switch (who) { case "Welsh Mercenary": game.location[who] = POOL; break case "Irish Mercenary": game.location[who] = "Ireland"; break case "Burgundian Mercenary": game.location[who] = "Calais"; break case "Calais Mercenary": game.location[who] = "Calais"; break case "Scots Mercenary": game.location[who] = "Scotland"; break case "French Mercenary": game.location[who] = "France"; break } game.steps[who] = block_max_steps(who) game.dead[who] = true return } game.location[who] = POOL game.steps[who] = block_max_steps(who) game.dead[who] = true } function reduce_block(who) { if (game.steps[who] === 1) { eliminate_block(who) } else { --game.steps[who] } } function count_attackers() { let count = 0 for (let b of BLOCKLIST) if (is_attacker(b)) ++count return count } function count_defenders() { let count = 0 for (let b of BLOCKLIST) if (is_defender(b)) ++count return count } function count_blocks_exclude_mercenaries(where) { let count = 0 for (let b of BLOCKLIST) if (!(game.reduced && game.reduced[b]) && game.location[b] === where && !is_mercenary(b)) ++count return count } function count_blocks(where) { let count = 0 for (let b of BLOCKLIST) if (!(game.reduced && game.reduced[b]) && game.location[b] === where) ++count return count } function add_blocks_exclude_mercenaries(list, where) { for (let b of BLOCKLIST) if (!(game.reduced && game.reduced[b]) && game.location[b] === where && !is_mercenary(b)) list.push(b) } function add_blocks(list, where) { for (let b of BLOCKLIST) if (!(game.reduced && game.reduced[b]) && game.location[b] === where) list.push(b) } function check_supply_penalty() { game.supply = [] for (let where of AREALIST) { if (is_friendly_area(where)) { if (where === "Calais" || where === "France") { if (count_blocks_exclude_mercenaries(where) > 4) add_blocks_exclude_mercenaries(game.supply, where) } else if (where === "Ireland" || where === "Scotland") { if (count_blocks_exclude_mercenaries(where) > 2) add_blocks_exclude_mercenaries(game.supply, where) } else if (has_city(where)) { if (count_blocks(where) > 5) add_blocks(game.supply, where) } else { if (count_blocks(where) > 4) add_blocks(game.supply, where) } } } return game.supply.length > 0 } function check_exile_limits() { game.exiles = [] for (let where of AREALIST) { if (is_friendly_area(where)) { if (where === "Calais" || where === "France") { if (count_blocks_exclude_mercenaries(where) > 4) add_blocks_exclude_mercenaries(game.exiles, where) } else if (where === "Ireland" || where === "Scotland") { if (count_blocks_exclude_mercenaries(where) > 2) add_blocks_exclude_mercenaries(game.exiles, where) } } } if (game.exiles.length > 0) return true delete game.exiles return false } // SETUP function find_block(owner, name) { if (name in BLOCKS) return name name = name + "/" + owner[0] if (name in BLOCKS) return name throw new Error("Block not found: " + name) } function deploy(who, where) { if (where === "Enemy") return if (!(where in AREAS)) throw new Error("Area not found: " + where) game.location[who] = where game.steps[who] = BLOCKS[who].steps } function deploy_lancaster(name, where) { deploy(find_block(LANCASTER, name), where) } function deploy_york(name, where) { deploy(find_block(YORK, name), where) } function reset_blocks() { for (let b of BLOCKLIST) { game.location[b] = null game.steps[b] = block_max_steps(b) } } function setup_game() { reset_blocks() game.campaign = 1 game.end_campaign = 3 game.pretender = "York" game.king = "Henry VI" deploy_lancaster("Henry VI", "Middlesex") deploy_lancaster("Somerset", "Dorset") deploy_lancaster("Exeter", "Cornwall") deploy_lancaster("Devon", "Cornwall") deploy_lancaster("Pembroke", "Pembroke") deploy_lancaster("Wiltshire", "Wilts") deploy_lancaster("Oxford", "Essex") deploy_lancaster("Beaumont", "Lincoln") deploy_lancaster("Clifford", "North Yorks") deploy_lancaster("French Mercenary", "France") deploy_lancaster("Scots Mercenary", "Scotland") deploy_lancaster("Buckingham", "Pool") deploy_lancaster("Northumberland", "Pool") deploy_lancaster("Shrewsbury", "Pool") deploy_lancaster("Westmoreland", "Pool") deploy_lancaster("Rivers", "Pool") deploy_lancaster("Stanley", "Pool") deploy_lancaster("Bristol (levy)", "Pool") deploy_lancaster("Coventry (levy)", "Pool") deploy_lancaster("Newcastle (levy)", "Pool") deploy_lancaster("York (levy)", "Pool") deploy_lancaster("York (church)", "Pool") deploy_lancaster("Bombard", "Pool") deploy_lancaster("Welsh Mercenary", "Pool") deploy_lancaster("Prince Edward", "Minor") deploy_lancaster("Richmond", "Minor") deploy_lancaster("Canterbury (church)", "Enemy") deploy_lancaster("Clarence", "Enemy") deploy_lancaster("Warwick", "Enemy") deploy_lancaster("Salisbury", "Enemy") deploy_lancaster("Kent", "Enemy") deploy_york("York", "Ireland") deploy_york("Rutland", "Ireland") deploy_york("Irish Mercenary", "Ireland") deploy_york("March", "Calais") deploy_york("Warwick", "Calais") deploy_york("Salisbury", "Calais") deploy_york("Kent", "Calais") deploy_york("Calais Mercenary", "Calais") deploy_york("Burgundian Mercenary", "Calais") deploy_york("Norfolk", "Pool") deploy_york("Suffolk", "Pool") deploy_york("Arundel", "Pool") deploy_york("Essex", "Pool") deploy_york("Worcester", "Pool") deploy_york("Hastings", "Pool") deploy_york("Herbert", "Pool") deploy_york("Canterbury (church)", "Pool") deploy_york("London (levy)", "Pool") deploy_york("Norwich (levy)", "Pool") deploy_york("Salisbury (levy)", "Pool") deploy_york("Bombard", "Pool") deploy_york("Rebel", "Pool") deploy_york("Clarence", "Minor") deploy_york("Gloucester", "Minor") deploy_york("Exeter", "Enemy") deploy_york("Buckingham", "Enemy") deploy_york("Northumberland", "Enemy") deploy_york("Westmoreland", "Enemy") deploy_york("Shrewsbury", "Enemy") deploy_york("Rivers", "Enemy") deploy_york("Stanley", "Enemy") deploy_york("York (church)", "Enemy") } function setup_kingmaker() { reset_blocks() game.campaign = 2 game.end_campaign = 2 game.pretender = "Henry VI" game.king = "March" deploy_york("March", "Middlesex") deploy_york("Gloucester", "South Yorks") deploy_york("Buckingham", "Warwick") deploy_york("Norfolk", "East Anglia") deploy_york("Suffolk", "East Anglia") deploy_york("Arundel", "Sussex") deploy_york("Essex", "Essex") deploy_york("Hastings", "Leicester") deploy_york("Rivers", "Leicester") deploy_york("Stanley", "Lancaster") deploy_york("Irish Mercenary", "Ireland") deploy_york("Calais Mercenary", "Calais") deploy_york("Burgundian Mercenary", "Calais") deploy_york("Northumberland", "Pool") deploy_york("Westmoreland", "Pool") deploy_york("Canterbury (church)", "Pool") deploy_york("Bombard", "Pool") deploy_york("London (levy)", "Pool") deploy_york("Norwich (levy)", "Pool") deploy_york("Salisbury (levy)", "Pool") deploy_york("Warwick", "Enemy") deploy_york("Clarence", "Enemy") deploy_york("Shrewsbury", "Enemy") deploy_york("York (church)", "Enemy") deploy_york("Exeter", "Enemy") deploy_lancaster("Henry VI", "Middlesex") deploy_lancaster("Prince Edward", "France") deploy_lancaster("Exeter", "France") deploy_lancaster("Warwick", "France") deploy_lancaster("Clarence", "France") deploy_lancaster("Oxford", "France") deploy_lancaster("French Mercenary", "France") deploy_lancaster("Scots Mercenary", "Scotland") deploy_lancaster("Pembroke", "Pool") deploy_lancaster("Shrewsbury", "Pool") deploy_lancaster("York (church)", "Pool") deploy_lancaster("Welsh Mercenary", "Pool") deploy_lancaster("Bombard", "Pool") deploy_lancaster("Bristol (levy)", "Pool") deploy_lancaster("Coventry (levy)", "Pool") deploy_lancaster("Newcastle (levy)", "Pool") deploy_lancaster("York (levy)", "Pool") deploy_lancaster("Rebel", "Pool") deploy_lancaster("Richmond", "Minor") deploy_lancaster("Buckingham", "Enemy") deploy_lancaster("Northumberland", "Enemy") deploy_lancaster("Rivers", "Enemy") deploy_lancaster("Westmoreland", "Enemy") deploy_lancaster("Stanley", "Enemy") deploy_lancaster("Canterbury (church)", "Enemy") // Prisoner! game.dead["Henry VI"] = true } function setup_richard_iii() { reset_blocks() game.campaign = 3 game.end_campaign = 3 game.pretender = "Richmond" game.king = "Gloucester" deploy_york("Gloucester", "Middlesex") deploy_york("Norfolk", "East Anglia") deploy_york("Suffolk", "East Anglia") deploy_york("Arundel", "Sussex") deploy_york("Essex", "Essex") deploy_york("Northumberland", "Northumbria") deploy_york("Stanley", "Lancaster") deploy_york("Irish Mercenary", "Ireland") deploy_york("Calais Mercenary", "Calais") deploy_york("Burgundian Mercenary", "Calais") deploy_york("Westmoreland", "Pool") deploy_york("Canterbury (church)", "Pool") deploy_york("York (church)", "Pool") deploy_york("Bombard", "Pool") deploy_york("London (levy)", "Pool") deploy_york("Norwich (levy)", "Pool") deploy_york("Salisbury (levy)", "Pool") deploy_york("Buckingham", "Enemy") deploy_york("Shrewsbury", "Enemy") deploy_york("Rivers", "Enemy") deploy_lancaster("Richmond", "France") deploy_lancaster("Oxford", "France") deploy_lancaster("Pembroke", "France") deploy_lancaster("French Mercenary", "France") deploy_lancaster("Scots Mercenary", "Scotland") deploy_lancaster("Buckingham", "Glamorgan") deploy_lancaster("Rivers", "Leicester") deploy_lancaster("Shrewsbury", "Pool") deploy_lancaster("Welsh Mercenary", "Pool") deploy_lancaster("Bombard", "Pool") deploy_lancaster("Bristol (levy)", "Pool") deploy_lancaster("Coventry (levy)", "Pool") deploy_lancaster("Newcastle (levy)", "Pool") deploy_lancaster("York (levy)", "Pool") deploy_lancaster("Rebel", "Pool") deploy_lancaster("Northumberland", "Enemy") deploy_lancaster("Westmoreland", "Enemy") deploy_lancaster("Stanley", "Enemy") deploy_lancaster("Canterbury (church)", "Enemy") deploy_lancaster("York (church)", "Enemy") } // Kingmaker scenario special rule function free_henry_vi() { if (game.dead["Henry VI"]) { if ((game.active === LANCASTER && is_friendly_area("Middlesex")) || (game.active === YORK && is_enemy_area("Middlesex"))) { log("Henry VI rescued!") delete game.dead["Henry VI"] } } } // GAME TURN function start_campaign() { logbr() log("Start Campaign " + game.campaign + ".") // TODO: Use board game mulligan rules instead of automatically redealing? do { let deck = shuffle_deck() game.l_hand = deal_cards(deck, 7) game.y_hand = deal_cards(deck, 7) } while (count_ap(game.l_hand) <= 13 || count_ap(game.y_hand) <= 13) start_game_turn() } function start_game_turn() { game.turn = 8 - game.l_hand.length logbr() log("Start Turn " + game.turn + " of campaign " + game.campaign + ".") // Reset movement and attack tracking state reset_border_limits() game.last_used = {} game.attacker = {} game.reserves = [] game.moved = {} goto_card_phase() } function end_game_turn() { delete game.force_march delete game.piracy delete game.is_pirate delete game.surprise delete game.treason if (game.l_hand.length > 0) start_game_turn() else goto_political_turn() } // CARD PHASE function goto_card_phase() { game.l_card = 0 game.y_card = 0 game.show_cards = false game.state = 'play_card' game.active = BOTH } function resume_play_card() { if (game.l_card > 0 && game.y_card > 0) reveal_cards() else if (game.l_card > 0) game.active = YORK else if (game.y_card > 0) game.active = LANCASTER else game.active = BOTH } states.play_card = { prompt: function (view, current) { if (current === OBSERVER) return view.prompt = "Waiting for players to play a card." if (current === LANCASTER) { if (game.l_card) { view.prompt = "Waiting for York to play a card." gen_action(view, 'undo') } else { view.prompt = "Play a card." for (let c of game.l_hand) gen_action(view, 'play', c) } } if (current === YORK) { if (game.y_card) { view.prompt = "Waiting for Lancaster to play a card." gen_action(view, 'undo') } else { view.prompt = "Play a card." for (let c of game.y_hand) gen_action(view, 'play', c) } } }, play: function (card, current) { if (current === LANCASTER) { remove_from_array(game.l_hand, card) game.l_card = card } if (current === YORK) { remove_from_array(game.y_hand, card) game.y_card = card } resume_play_card() }, undo: function (_, current) { if (current === LANCASTER) { game.l_hand.push(game.l_card) game.l_card = 0 } if (current === YORK) { game.y_hand.push(game.y_card) game.y_card = 0 } resume_play_card() } } function reveal_cards() { logbr() log("Lancaster played " + CARDS[game.l_card].name + ".") log("York played " + CARDS[game.y_card].name + ".") game.show_cards = true let pretender = block_owner(game.pretender) let lc = CARDS[game.l_card] let yc = CARDS[game.y_card] let lp = (lc.event ? 10 : 0) + lc.actions * 2 + (pretender === LANCASTER ? 1 : 0) let yp = (yc.event ? 10 : 0) + yc.actions * 2 + (pretender === YORK ? 1 : 0) if (lp > yp) { game.p1 = LANCASTER game.p2 = YORK } else { game.p1 = YORK game.p2 = LANCASTER } game.active = game.p1 start_player_turn() } function start_player_turn() { logbr() log("Start " + game.active + " turn.") reset_border_limits() let lc = CARDS[game.l_card] let yc = CARDS[game.y_card] if (game.active === LANCASTER && lc.event) goto_event_card(lc.event) else if (game.active === YORK && yc.event) goto_event_card(yc.event) else if (game.active === LANCASTER) goto_action_phase(lc.actions) else if (game.active === YORK) goto_action_phase(yc.actions) } function end_player_turn() { game.moves = 0 game.activated = null game.move_port = null game.main_border = null // Remove "Surprise" road limit bonus for retreats and regroups. delete game.surprise if (game.active === game.p2) { goto_battle_phase() } else { game.active = game.p2 start_player_turn() } } // EVENTS function goto_event_card(event) { switch (event) { case 'force_march': game.force_march = game.active goto_action_phase(1) break case 'muster': goto_muster_event() break case 'piracy': game.piracy = game.active game.is_pirate = {} goto_action_phase(2) break case 'plague': game.state = 'plague_event' break case 'surprise': game.surprise = game.active goto_action_phase(1) break case 'treason': game.treason = game.active goto_action_phase(1) break } } states.plague_event = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Plague: Waiting for " + game.active + " to choose a city." view.prompt = "Plague: Choose an enemy city area." gen_action(view, 'pass') for (let where of AREALIST) if (is_enemy_area(where) && has_city(where)) gen_action(view, 'area', where) }, area: function (where) { log("Plague ravaged " + has_city(where) + "!") game.where = where game.plague = [] for (let b of BLOCKLIST) if (game.location[b] === where) game.plague.push(b) game.active = ENEMY[game.active] game.state = 'apply_plague' }, pass: function () { end_player_turn() } } states.apply_plague = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Plague: Waiting for " + game.active + " to reduce blocks in " + has_city(game.where) + "." view.prompt = "Plague: Reduce blocks in " + has_city(game.where) + "." for (let b of game.plague) gen_action(view, 'block', b) }, block: function (b) { reduce_block(b) remove_from_array(game.plague, b) if (game.plague.length === 0) { delete game.plague game.active = ENEMY[game.active] end_player_turn() } }, } function goto_muster_event() { game.state = 'muster_event' game.turn_log = [] clear_undo() } states.muster_event = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Muster: Waiting for " + game.active + " to muster." view.prompt = "Muster: Choose one friendly or vacant muster area." gen_action_undo(view) gen_action(view, 'end_action_phase') for (let where of AREALIST) { if (is_friendly_or_vacant_area(where)) if (can_muster_to(where)) gen_action(view, 'area', where) } }, area: function (where) { push_undo() game.where = where game.state = 'muster_who' }, end_action_phase: function () { clear_undo() print_turn_log(game.active + " mustered:") end_player_turn() }, undo: pop_undo, } states.muster_who = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Muster: Waiting for " + game.active + " to muster." view.prompt = "Muster: Move blocks to the designated muster area." gen_action_undo(view) gen_action(view, 'end_action_phase') for (let b of BLOCKLIST) if (can_block_muster(b, game.where)) gen_action(view, 'block', b) }, block: function (who) { push_undo() game.who = who game.state = 'muster_move_1' }, end_action_phase: function () { game.where = null clear_undo() print_turn_log(game.active + " mustered:") end_player_turn() }, undo: pop_undo, } states.muster_move_1 = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Muster: Waiting for " + game.active + " to muster." view.prompt = "Muster: Move " + block_name(game.who) + " to the designated muster area." gen_action_undo(view) gen_action(view, 'block', game.who) let from = game.location[game.who] for (let to of AREAS[from].exits) { if (can_block_muster_via(game.who, from, to, game.where)) gen_action(view, 'area', to) } }, area: function (to) { let from = game.location[game.who] log_move_start(from) log_move_continue(to) move_block(game.who, from, to) if (to === game.where) { log_move_end() game.moved[game.who] = true game.who = null game.state = 'muster_who' } else { game.state = 'muster_move_2' } }, block: pop_undo, undo: pop_undo, } states.muster_move_2 = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Muster: Waiting for " + game.active + " to muster." view.prompt = "Muster: Move " + block_name(game.who) + " to the designated muster area." gen_action_undo(view) gen_action(view, 'area', game.where) }, area: function (to) { log_move_continue(to) log_move_end() move_block(game.who, game.location[game.who], to) game.moved[game.who] = true game.who = null game.state = 'muster_who' }, undo: pop_undo, } // ACTION PHASE function use_border(from, to) { game.border_limit[border_id(from, to)] = border_limit(from, to) + 1 } function move_block(who, from, to) { game.location[who] = to use_border(from, to) game.distance ++ if (is_contested_area(to)) { game.last_used[border_id(from, to)] = game.active if (!game.attacker[to]) { game.attacker[to] = game.active game.main_border[to] = from } else { if (game.attacker[to] !== game.active || game.main_border[to] !== from) { game.reserves.push(who) return RESERVE_MARK } } return ATTACK_MARK } return "" } function goto_action_phase(moves) { game.state = 'action_phase' game.moves = moves game.activated = [] game.move_port = {} game.main_border = {} game.turn_log = [] game.recruit_log = [] clear_undo() } states.action_phase = { prompt: function (view, current) { if (is_inactive_player(current)) { if (game.active === game.piracy) return view.prompt = "Piracy: Waiting for " + game.active + "." if (game.active === game.force_march) return view.prompt = "Force March: Waiting for " + game.active + "." if (game.active === game.surprise) return view.prompt = "Surprise: Waiting for " + game.active + "." if (game.active === game.treason) return view.prompt = "Treason: Waiting for " + game.active + "." else return view.prompt = "Action Phase: Waiting for " + game.active + "." } if (game.active === game.piracy) { view.prompt = "Piracy: Choose an army to sea move. Attacking is allowed. " + game.moves + "AP left." } else if (game.active === game.force_march) { view.prompt = "Force March: Move one group. Blocks can move up to 3 areas and may attack." } else if (game.active === game.surprise) { view.prompt = "Surprise: Move one group. Border limit is +1 to cross all borders." } else if (game.active === game.treason) { view.prompt = "Treason: Move one group." } else { view.prompt = "Action Phase: Choose an army to move or recruit. " + game.moves + "AP left." } gen_action_undo(view) gen_action(view, 'end_action_phase') for (let b of BLOCKLIST) { let from = game.location[b] if (can_recruit(b)) { if (game.moves > 0) gen_action(view, 'block', b) } if (can_block_land_move(b)) { if (game.moves === 0) { if (game.activated.includes(from)) gen_action(view, 'block', b) } else { gen_action(view, 'block', b) } } if (can_block_sea_move(b)) { if (game.moves === 0) { if (game.move_port[game.location[b]]) gen_action(view, 'block', b) } else { gen_action(view, 'block', b) } } } }, block: function (who) { push_undo() game.who = who game.origin = game.location[who] if (game.origin === POOL) { game.state = 'recruit_where' } else { game.distance = 0 game.last_from = null game.state = 'move_to' } }, end_action_phase: function () { if (game.moves > 0 && game.turn_log.length === 0 && game.recruit_log.length === 0) logp("did nothing.") if (game.turn_log.length > 0) print_turn_log(game.active + " moved:") game.turn_log = game.recruit_log if (game.turn_log.length > 0) print_turn_log(game.active + " recruited:") game.turn_log = null game.recruit_log = null clear_undo() game.moves = 0 end_player_turn() }, undo: pop_undo, } states.recruit_where = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Action Phase: Waiting for " + game.active + "." view.prompt = "Recruit " + block_name(game.who) + " where?" gen_action_undo(view) gen_action(view, 'block', game.who) for (let to of AREALIST) if (can_recruit_to(game.who, to)) gen_action(view, 'area', to) }, area: function (to) { game.recruit_log.push([to]) --game.moves game.location[game.who] = to game.moved[game.who] = true end_action() }, block: pop_undo, undo: pop_undo, } states.move_to = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Action Phase: Waiting for " + game.active + "." view.prompt = "Move " + block_name(game.who) + "." gen_action_undo(view) gen_action(view, 'block', game.who) let from = game.location[game.who] if (game.distance > 0) gen_action(view, 'area', from) for (let to of AREAS[from].exits) { if (to !== game.last_from && can_block_land_move_to(game.who, from, to)) gen_action(view, 'area', to) else if (game.distance === 0 && can_block_sea_move_to(game.who, from, to)) { let has_destination_port = false if (game.moves === 0) { for (let port of AREAS[to].exits) if (game.move_port[game.origin] === port) has_destination_port = true } else { if (game.active === game.piracy) has_destination_port = true else for (let port of AREAS[to].exits) if (port !== game.origin && is_friendly_or_vacant_area(port)) has_destination_port = true } if (has_destination_port) gen_action(view, 'area', to) } } }, block: function () { if (game.distance === 0) pop_undo() else end_move() }, area: function (to) { let from = game.location[game.who] if (to === from) { end_move() return } if (game.distance === 0) log_move_start(from) game.last_from = from if (is_sea_area(to)) { log_move_continue(to) game.location[game.who] = to game.state = 'sea_move_to' } else { let mark = move_block(game.who, from, to) log_move_continue(to, mark) if (!can_block_continue(game.who, from, to)) end_move() } }, undo: pop_undo, } states.sea_move_to = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Action Phase: Waiting for " + game.active + "." if (game.active === game.piracy) { view.prompt = "Piracy: Sea Move " + block_name(game.who) + " to a coastal area." } else { view.prompt = "Sea Move " + block_name(game.who) + " to a friendly or vacant coastal area." } gen_action_undo(view) for (let to of AREAS[game.location[game.who]].exits) { if (to === game.last_from) continue if (is_enemy_exile_area(to)) continue if (is_friendly_or_vacant_area(to)) { if (game.moves === 0) { if (game.move_port[game.origin] === to) gen_action(view, 'area', to) } else { gen_action(view, 'area', to) } } else if (game.active === game.piracy && game.moves > 0) { // Can attack with piracy, but no port-to-port bonus. gen_action(view, 'area', to) } } }, area: function (to) { game.location[game.who] = to game.moved[game.who] = true if (game.active === game.piracy && is_contested_area(to)) { // Can attack with piracy, but no port-to-port bonus. log_move_continue(to, ATTACK_MARK) game.is_pirate[game.who] = true if (!game.attacker[to]) game.attacker[to] = game.active logp("sea moved.") --game.moves } else { // Can sea move two blocks between same major ports for 1 AP. log_move_continue(to) if (game.move_port[game.origin] === to) { delete game.move_port[game.origin] } else { logp("sea moved.") --game.moves if (is_major_port(game.origin) && is_major_port(to)) game.move_port[game.origin] = to } } log_move_end() end_action() }, undo: pop_undo, } function end_move() { if (game.distance > 0) { log_move_end() if (!game.activated.includes(game.origin)) { logp("activated " + game.origin + ".") game.activated.push(game.origin) game.moves -- } game.moved[game.who] = true } game.last_from = null end_action() } function end_action() { free_henry_vi() game.who = null game.distance = 0 game.origin = null game.state = 'action_phase' } // BATTLE PHASE function goto_battle_phase() { if (have_contested_areas()) { game.active = game.p1 game.state = 'battle_phase' } else { goto_supply_phase() } } states.battle_phase = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to choose a battle." view.prompt = "Choose the next battle to fight!" for (let where of AREALIST) if (is_area_on_map(where) && is_contested_area(where)) gen_action(view, 'area', where) }, area: function (where) { start_battle(where) }, } function start_battle(where) { game.flash = "" logbr() log("Battle in " + where + ".") game.where = where game.battle_round = 0 game.defected = {} game.treachery = {} if (game.treason && can_attempt_treason_event()) { game.active = game.treason game.state = 'treason_event' } else { game.state = 'battle_round' start_battle_round() } } function resume_battle() { if (game.result) return goto_game_over() game.who = null game.state = 'battle_round' pump_battle_round() } function end_battle() { if (game.turn_log && game.turn_log.length > 0) print_turn_log("Retreated from " + game.where + ":") free_henry_vi() game.flash = "" game.battle_round = 0 reset_border_limits() game.moved = {} game.defected = {} game.treachery = {} goto_regroup() } states.treason_event = { show_battle: true, prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Treason: Waiting for " + game.active + " to choose a target." view.prompt = "Treason: Choose a target or pass." gen_action(view, 'pass') for (let b of BLOCKLIST) { if (game.active === game.attacker[game.where]) { if (is_defender(b) && can_defect(null, b)) { gen_action(view, 'battle_treachery', b) gen_action(view, 'block', b) } } else { if (is_attacker(b) && can_defect(null, b)) { gen_action(view, 'battle_treachery', b) gen_action(view, 'block', b) } } } }, battle_treachery: function (target) { delete game.treason attempt_treachery(null, target) game.state = 'battle_round' start_battle_round() }, block: function (target) { delete game.treason attempt_treachery(null, target) game.state = 'battle_round' start_battle_round() }, pass: function () { game.state = 'battle_round' start_battle_round() } } function bring_on_reserves(owner, moved) { for (let b of BLOCKLIST) { if (block_owner(b) === owner && game.location[b] === game.where) { remove_from_array(game.reserves, b) game.moved[b] = moved } } } function start_battle_round() { if (++game.battle_round <= 4) { if (game.turn_log && game.turn_log.length > 0) print_turn_log("Retreated from " + game.where + ":") game.turn_log = [] log("~ Battle Round " + game.battle_round + " ~") reset_border_limits() game.moved = {} if (game.battle_round > 1) { bring_on_reserves(LANCASTER, false) bring_on_reserves(YORK, false) } pump_battle_round() } else { end_battle() } } function pump_battle_round() { if (is_friendly_area(game.where) || is_enemy_area(game.where)) { end_battle() return } if (count_attackers() === 0 || count_defenders() === 0) { // Deploy reserves immediately if all blocks on one side are eliminated. if (count_attackers() === 0) { log("Attacking main force was eliminated.") bring_on_reserves(game.attacker[game.where], true) } else if (count_defenders() === 0) { log("Defending main force was eliminated.") bring_on_reserves(ENEMY[game.attacker[game.where]], true) if (game.battle_round === 1) { log("Battlefield control changed.") game.attacker[game.where] = ENEMY[game.attacker[game.where]] } } } function filter_battle_blocks(ci, is_candidate) { let output = null for (let b of BLOCKLIST) { if (is_candidate(b) && !game.moved[b] && !game.dead[b]) { if (block_initiative(b) === ci) { if (!output) output = [] output.push(b) } } } return output } function battle_step(active, initiative, candidate) { game.battle_list = filter_battle_blocks(initiative, candidate) if (game.battle_list) { game.active = active return true } return false } let attacker = game.attacker[game.where] let defender = ENEMY[attacker] if (battle_step(defender, 'A', is_defender)) return if (battle_step(attacker, 'A', is_attacker)) return if (battle_step(defender, 'B', is_defender)) return if (battle_step(attacker, 'B', is_attacker)) return if (battle_step(defender, 'C', is_defender)) return if (battle_step(attacker, 'C', is_attacker)) return if (battle_step(defender, 'D', is_defender)) return if (battle_step(attacker, 'D', is_attacker)) return start_battle_round() } function pass_with_block(b) { game.flash = block_name(b) + " passed." log_battle(game.flash) game.moved[b] = true resume_battle() } function can_retreat_with_block(who) { if (game.location[who] === game.where) { if (game.battle_round > 1) { if (game.active === game.piracy && game.is_pirate[who]) { return true } else { for (let to of AREAS[game.where].exits) if (can_block_retreat_to(who, to)) return true } } } return false } function must_retreat_with_block(who) { if (game.location[who] === game.where) if (game.battle_round === 4) return (block_owner(who) === game.attacker[game.where]) return false } function retreat_with_block(who) { if (can_retreat_with_block(who)) { game.who = who game.state = 'retreat_in_battle' } else { eliminate_block(who) resume_battle() } } function roll_attack(active, b, verb) { game.hits = 0 let fire = block_fire_power(b, game.where) let printed_fire = block_printed_fire_power(b) let rolls = [] let steps = game.steps[b] let name = block_name(b) + " " + BLOCKS[b].combat if (fire > printed_fire) name += "+" + (fire - printed_fire) for (let i = 0; i < steps; ++i) { let die = roll_d6() if (die <= fire) { rolls.push(DIE_HIT[die]) ++game.hits } else { rolls.push(DIE_MISS[die]) } } game.flash = name + " " + verb + " " + rolls.join(" ") + " " if (game.hits === 0) game.flash += "and missed." else if (game.hits === 1) game.flash += "and scored 1 hit." else game.flash += "and scored " + game.hits + " hits." log(active[0] + ": " + name + " " + verb + " " + rolls.join("") + ".") } function fire_with_block(b) { game.moved[b] = true roll_attack(game.active, b, "fired") if (game.hits > 0) { game.active = ENEMY[game.active] goto_battle_hits() } else { resume_battle() } } function attempt_treachery(source, target) { if (source) { let once = treachery_tag(source) game.treachery[once] = true game.moved[source] = true } let n = block_loyalty(source, target) let rolls = [] let result = true for (let i = 0; i < n; ++i) { let die = roll_d6() if ((die & 1) === 1) { rolls.push(DIE_MISS[die]) result = false } else { rolls.push(DIE_HIT[die]) } } if (source) game.flash = block_name(source) + " treachery " + rolls.join(" ") else game.flash = "Treason event " + rolls.join(" ") if (result) { game.flash += " converted " + block_name(target) + "!" target = swap_blocks(target) game.defected[target] = true game.reserves.push(target) } else { game.flash += " failed to convert " + block_name(target) + "." } log_battle(game.flash) } function charge_with_block(heir, target) { let n game.moved[heir] = true roll_attack(game.active, heir, "charged " + block_name(target)) n = Math.min(game.hits, game.steps[target]) if (n === game.steps[target]) { eliminate_block(target) } else { while (n-- > 0) reduce_block(target) let charge_flash = game.flash roll_attack(ENEMY[game.active], target, "counter-attacked") n = Math.min(game.hits, game.steps[heir]) while (n-- > 0) reduce_block(heir) game.flash = charge_flash + " " + game.flash } resume_battle() } function can_block_fire(who) { if (is_attacker(who)) return game.battle_round < 4 if (is_defender(who)) return true return false } function find_minor_heir(owner) { let candidate = null for (let b of BLOCKLIST) { if (block_owner(b) === owner && block_type(b) === 'heir' && game.location[b] === MINOR) if (!candidate || BLOCKS[b].heir < BLOCKS[candidate].heir) candidate = b } return candidate } function find_senior_heir(owner) { let candidate = null for (let b of BLOCKLIST) if (block_owner(b) === owner && block_type(b) === 'heir' && !is_dead(b)) if (!candidate || BLOCKS[b].heir < BLOCKS[candidate].heir) candidate = b return candidate } function find_next_king(owner) { let candidate = null for (let b of BLOCKLIST) if (block_owner(b) === owner && block_type(b) === 'heir' && game.location[b]) if (!candidate || BLOCKS[b].heir < BLOCKS[candidate].heir) candidate = b return candidate } function find_senior_heir_in_area(owner, where) { let candidate = null for (let b of BLOCKLIST) { if (block_owner(b) === owner && block_type(b) === 'heir' && game.location[b] === where) { if (is_battle_reserve(b)) continue if (!candidate || BLOCKS[b].heir < BLOCKS[candidate].heir) candidate = b } } return candidate } function is_senior_royal_heir_in(who, where) { return find_senior_heir_in_area(block_owner(game.king), where) === who } function can_heir_charge() { let heir = find_senior_heir_in_area(game.active, game.where) if (heir && !game.moved[heir]) { if (is_attacker(heir)) return game.battle_round < 4 ? heir : null if (is_defender(heir)) return heir } return null } states.battle_round = { show_battle: true, prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to choose a combat action." view.prompt = "Battle: Choose a combat action with an army." let can_fire = false let can_retreat = false let must_retreat = false let can_pass = false if (game.active === game.attacker[game.where]) { if (game.battle_round < 4) can_fire = true if (game.battle_round > 1) can_retreat = true if (game.battle_round < 4) can_pass = true if (game.battle_round === 4) must_retreat = true } else { can_fire = true if (game.battle_round > 1) can_retreat = true can_pass = true } for (let b of game.battle_list) { if (can_fire) gen_action(view, 'battle_fire', b) if (must_retreat || (can_retreat && can_retreat_with_block(b))) gen_action(view, 'battle_retreat', b) if (can_pass) gen_action(view, 'battle_pass', b) gen_action(view, 'block', b) } let heir = can_heir_charge() if (heir && game.battle_list.includes(heir)) { gen_action(view, 'battle_charge', heir) } if (can_attempt_treachery(game.king)) gen_action(view, 'battle_treachery', game.king) if (can_attempt_treachery(game.pretender)) gen_action(view, 'battle_treachery', game.pretender) if (can_attempt_treachery("Warwick/L")) gen_action(view, 'battle_treachery', "Warwick/L") if (can_attempt_treachery("Warwick/Y")) gen_action(view, 'battle_treachery', "Warwick/Y") }, battle_fire: function (who) { fire_with_block(who) }, battle_retreat: function (who) { retreat_with_block(who) }, battle_pass: function (who) { pass_with_block(who) }, battle_charge: function (who) { game.who = who game.state = 'battle_charge' }, battle_treachery: function (who) { game.who = who game.state = 'battle_treachery' }, block: function (who) { if (can_block_fire(who)) fire_with_block(who) else if (can_retreat_with_block(who)) retreat_with_block(who) else if (must_retreat_with_block(who)) eliminate_block(who) else pass_with_block(who) }, } states.battle_charge = { show_battle: true, prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Heir Charge: Waiting for " + game.active + " to choose a target." view.prompt = "Heir Charge: Choose a target." gen_action(view, 'undo') for (let b of BLOCKLIST) { if (game.active === game.attacker[game.where]) { if (is_defender(b)) { gen_action(view, 'battle_charge', b) gen_action(view, 'block', b) } } else { if (is_attacker(b)) { gen_action(view, 'battle_charge', b) gen_action(view, 'block', b) } } } }, battle_charge: function (target) { charge_with_block(game.who, target) }, block: function (target) { charge_with_block(game.who, target) }, undo: function () { resume_battle() } } states.battle_treachery = { show_battle: true, prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Treachery: Waiting for " + game.active + " to choose a target." view.prompt = "Treachery: Choose a target." gen_action(view, 'undo') for (let b of BLOCKLIST) { if (game.active === game.attacker[game.where]) { if (is_defender(b) && can_defect(game.who, b)) { gen_action(view, 'battle_treachery', b) gen_action(view, 'block', b) } } else { if (is_attacker(b) && can_defect(game.who, b)) { gen_action(view, 'battle_treachery', b) gen_action(view, 'block', b) } } } }, battle_treachery: function (target) { attempt_treachery(game.who, target) resume_battle() }, block: function (target) { attempt_treachery(game.who, target) resume_battle() }, undo: function () { resume_battle() } } function goto_battle_hits() { game.battle_list = list_victims(game.active) if (game.battle_list.length === 0) resume_battle() else game.state = 'battle_hits' } function apply_hit(who) { let n = Math.min(game.hits, game.steps[who]) if (n === 1) game.flash = block_name(who) + " took " + n + " hit." else game.flash = block_name(who) + " took " + n + " hits." log_battle(game.flash) while (n-- > 0) { reduce_block(who) game.hits-- } game.battle_list = list_victims(game.active) if (game.battle_list.length > 0) { if (game.hits === 1) game.flash += " 1 hit left." else if (game.hits > 1) game.flash += " " + game.hits + " hits left." } if (game.hits === 0) resume_battle() else goto_battle_hits() } function list_victims(p) { let is_candidate = (p === game.attacker[game.where]) ? is_attacker : is_defender let max = 0 for (let b of BLOCKLIST) if (is_candidate(b) && game.steps[b] > max) max = game.steps[b] let list = [] for (let b of BLOCKLIST) if (is_candidate(b) && game.steps[b] === max) list.push(b) return list } states.battle_hits = { show_battle: true, prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to assign hits." view.prompt = "Assign " + game.hits + (game.hits !== 1 ? " hits" : " hit") + " to your armies." for (let b of game.battle_list) { gen_action(view, 'battle_hit', b) gen_action(view, 'block', b) } }, battle_hit: function (who) { apply_hit(who) }, block: function (who) { apply_hit(who) }, } states.retreat_in_battle = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to retreat." gen_action(view, 'undo') gen_action(view, 'block', game.who) if (game.active === game.piracy && game.is_pirate[game.who]) { view.prompt = "Retreat: Move the army to a friendly or vacant areas in the same sea zone." for (let to of AREAS[game.where].exits) if (is_sea_area(to)) gen_action(view, 'area', to) } else { view.prompt = "Retreat: Move the army to a friendly or vacant area." for (let to of AREAS[game.where].exits) if (can_block_retreat_to(game.who, to)) gen_action(view, 'area', to) } }, area: function (to) { if (is_sea_area(to)) { game.location[game.who] = to game.state = 'sea_retreat_to' } else { game.flash = block_name(game.who) + " retreated." log_battle(game.flash) game.turn_log.push([game.active, to]) use_border(game.where, to) game.location[game.who] = to resume_battle() } }, eliminate: function () { game.flash = "" eliminate_block(game.who) resume_battle() }, block: function () { resume_battle() }, undo: function () { resume_battle() } } states.sea_retreat_to = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to retreat." view.prompt = "Retreat: Move the army to a friendly or vacant area in the same sea zone." // TODO: only eliminate if no retreat is possible gen_action(view, 'eliminate') let from = game.location[game.who] for (let to of AREAS[from].exits) if (is_friendly_or_vacant_area(to)) gen_action(view, 'area', to) }, area: function (to) { let sea = game.location[game.who] game.turn_log.push([game.active, sea, to]) game.flash = block_name(game.who) + " retreated." log_battle(game.flash) game.location[game.who] = to resume_battle() }, eliminate: function () { game.flash = "" eliminate_block(game.who) resume_battle() }, undo: function () { game.location[game.who] = game.where resume_battle() } } function goto_regroup() { game.active = game.attacker[game.where] if (is_enemy_area(game.where)) game.active = ENEMY[game.active] log(game.active + " won the battle in " + game.where + "!") game.state = 'regroup' game.turn_log = [] clear_undo() } states.regroup = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to regroup." view.prompt = "Regroup: Choose an army to move." gen_action_undo(view) gen_action(view, 'end_regroup') for (let b of BLOCKLIST) { if (game.location[b] === game.where) { if (game.active === game.piracy) { if (game.is_pirate[b]) gen_action(view, 'block', b) } else { if (can_block_regroup(b)) gen_action(view, 'block', b) } } } }, block: function (who) { push_undo() game.who = who game.state = 'regroup_to' }, end_regroup: function () { game.where = null clear_undo() print_turn_log(game.active + " regrouped:") goto_battle_phase() }, undo: pop_undo, } states.regroup_to = { prompt: function (view, current) { if (game.active === game.piracy && game.is_pirate[game.who]) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to regroup." view.prompt = "Regroup: Move the army to a friendly or vacant area in the same sea zone." gen_action_undo(view) gen_action(view, 'block', game.who) for (let to of AREAS[game.where].exits) if (is_sea_area(to)) gen_action(view, 'area', to) } else { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to regroup." view.prompt = "Regroup: Move the army to a friendly or vacant area." gen_action_undo(view) gen_action(view, 'block', game.who) for (let to of AREAS[game.where].exits) if (can_block_regroup_to(game.who, to)) gen_action(view, 'area', to) } }, area: function (to) { if (is_sea_area(to)) { log_move_start(game.where) log_move_continue(to) game.location[game.who] = to game.state = 'sea_regroup_to' } else { game.turn_log.push([game.where, to]) move_block(game.who, game.where, to) game.who = null game.state = 'regroup' } }, block: pop_undo, undo: pop_undo, } states.sea_regroup_to = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to regroup." view.prompt = "Regroup: Move the army to a friendly or vacant area in the same sea zone." gen_action_undo(view) let from = game.location[game.who] for (let to of AREAS[from].exits) if (is_friendly_or_vacant_area(to)) gen_action(view, 'area', to) }, area: function (to) { log_move_continue(to) log_move_end() game.location[game.who] = to game.who = null game.state = 'regroup' }, undo: pop_undo, } // SUPPLY PHASE function goto_supply_phase() { game.moved = {} if (!game.location[game.king]) { game.king = find_next_king(block_owner(game.king)) log("The King is dead; long live the king!") if (game.location[game.king] === MINOR) log("The new King is a minor.") else log("The new King is in " + game.location[game.king] + ".") } goto_execute_clarence() } function goto_execute_clarence() { if (is_block_alive("Clarence/L")) { game.active = LANCASTER game.state = 'execute_clarence' game.who = "Clarence/L" } else { goto_execute_exeter() } } states.execute_clarence = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to execute Clarence." view.prompt = "Supply Phase: Execute enemy heir Clarence?" gen_action(view, 'execute_clarence') gen_action(view, 'pass') }, execute_clarence: function () { logp("executed Clarence.") eliminate_block("Clarence/L") game.who = null if (game.result) return goto_game_over() goto_execute_exeter() }, pass: function () { game.who = null goto_execute_exeter() } } function goto_execute_exeter() { if (is_block_alive("Exeter/Y")) { game.active = YORK game.state = 'execute_exeter' game.who = "Exeter/Y" } else { goto_enter_pretender_heir() } } states.execute_exeter = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to execute Exeter." view.prompt = "Supply Phase: Execute enemy heir Exeter?" gen_action(view, 'execute_exeter') gen_action(view, 'pass') }, execute_exeter: function () { logp("executed Exeter.") eliminate_block("Exeter/Y") game.who = null if (game.result) return goto_game_over() goto_enter_pretender_heir() }, pass: function () { game.who = null goto_enter_pretender_heir() } } // PRETENDER SUPPLY PHASE function goto_enter_pretender_heir() { game.active = block_owner(game.pretender) let n = game.killed_heirs[game.active] if (n > 0 && (game.who = find_minor_heir(game.active))) game.state = 'enter_pretender_heir' else goto_supply_limits_pretender() } states.enter_pretender_heir = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to enter pretender heirs." view.prompt = "Death of an Heir: Enter " + block_name(game.who) + " in an exile area." for (let where of AREALIST) if (is_pretender_exile_area(where)) gen_action(view, 'area', where) }, block: function () { game.who = null }, area: function (to) { logbr() log(block_name(game.who) + " came of age in " + to + ".") --game.killed_heirs[game.active] game.location[game.who] = to game.who = null goto_enter_pretender_heir() }, } function goto_supply_limits_pretender() { game.reduced = {} game.active = block_owner(game.pretender) if (check_supply_penalty()) { game.state = 'supply_limits_pretender' game.turn_log = [] clear_undo() } else { delete game.supply delete game.reduced goto_enter_royal_heir() } } states.supply_limits_pretender = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to check supply limits." view.prompt = "Supply Phase: Reduce blocks in over-stacked areas." gen_action_undo(view) if (game.supply.length === 0) gen_action(view, 'end_supply_phase') for (let b of game.supply) gen_action(view, 'block', b) }, block: function (who) { push_undo() game.turn_log.push([game.location[who]]) game.reduced[who] = true reduce_block(who) check_supply_penalty() }, end_supply_phase: function () { delete game.supply delete game.reduced clear_undo() print_turn_log(game.active + " reduced:") if (game.result) return goto_game_over() goto_enter_royal_heir() }, undo: pop_undo, } // KING SUPPLY PHASE function goto_enter_royal_heir() { game.active = block_owner(game.king) let n = game.killed_heirs[game.active] if (n > 0 && (game.who = find_minor_heir(game.active))) game.state = 'enter_royal_heir' else goto_supply_limits_king() } states.enter_royal_heir = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to enter royal heirs." view.prompt = "Death of an Heir: Enter " + block_name(game.who) + " in a Crown area." let can_enter = false for (let where of AREALIST) { if (is_crown_area(where) && is_friendly_or_vacant_area(where)) { gen_action(view, 'area', where) can_enter = true } } if (!can_enter) gen_action(view, 'pass') }, block: function () { game.who = null }, area: function (to) { logbr() log(block_name(game.who) + " came of age in " + to + ".") --game.killed_heirs[game.active] game.location[game.who] = to game.who = null goto_enter_royal_heir() }, pass: function () { game.who = null goto_supply_limits_king() } } function goto_supply_limits_king() { game.reduced = {} game.active = block_owner(game.king) if (check_supply_penalty()) { game.state = 'supply_limits_king' game.turn_log = [] clear_undo() } else { delete game.supply delete game.reduced end_game_turn() } } states.supply_limits_king = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to check supply limits." view.prompt = "Supply Phase: Reduce blocks in over-stacked areas." gen_action_undo(view) if (game.supply.length === 0) gen_action(view, 'end_supply_phase') for (let b of game.supply) gen_action(view, 'block', b) }, block: function (who) { push_undo() game.turn_log.push([game.location[who]]) game.reduced[who] = true reduce_block(who) check_supply_penalty() }, end_supply_phase: function () { delete game.supply delete game.reduced clear_undo() print_turn_log(game.active + " reduced:") if (game.result) return goto_game_over() end_game_turn() }, undo: pop_undo, } // POLITICAL TURN function goto_political_turn() { logbr() log("Start Political Turn.") logbr() game.turn_log = [] // Levies disband for (let b of BLOCKLIST) { if (!is_land_area(game.location[b])) continue switch (block_type(b)) { case 'bombard': case 'levies': case 'rebel': game.turn_log.push([game.location[b]]) disband(b) break case 'mercenaries': switch (b) { case "Welsh Mercenary": game.turn_log.push([game.location[b]]) disband(b) break case "Irish Mercenary": if (game.location[b] !== "Ireland") { game.turn_log.push([game.location[b], "Ireland"]) game.location[b] = "Ireland" } break case "Burgundian Mercenary": case "Calais Mercenary": if (game.location[b] !== "Calais") { game.turn_log.push([game.location[b], "Calais"]) game.location[b] = "Calais" } break case "Scots Mercenary": if (game.location[b] !== "Scotland") { game.turn_log.push([game.location[b], "Scotland"]) game.location[b] = "Scotland" } break case "French Mercenary": if (game.location[b] !== "France") { game.turn_log.push([game.location[b], "France"]) game.location[b] = "France" } break } break } } print_turn_log("Levies disbanded:") // Usurpation let l_count = count_lancaster_nobles_and_heirs() let y_count = count_york_nobles_and_heirs() logbr() log("Lancaster controlled " + l_count + " nobles.") log("York controlled " + y_count + " nobles.") if (l_count > y_count && block_owner(game.king) === YORK) { game.king = find_senior_heir(LANCASTER) game.pretender = find_senior_heir(YORK) log(game.king + " usurped the throne!") } else if (y_count > l_count && block_owner(game.king) === LANCASTER) { game.king = find_senior_heir(YORK) game.pretender = find_senior_heir(LANCASTER) log(game.king + " usurped the throne!") } else { log(game.king + " remained king.") } // Game ends after last Usurpation check if (game.campaign === game.end_campaign) return goto_game_over() logbr() goto_pretender_goes_home() } // PRETENDER GOES HOME function goto_pretender_goes_home() { game.active = block_owner(game.pretender) game.state = 'pretender_goes_home' game.turn_log = [] let choices = false for (let b of BLOCKLIST) if (block_owner(b) === game.active && is_block_on_map(b)) if (go_home_if_possible(b)) choices = true if (!choices) { print_turn_log_no_count("Pretender went home:") goto_exile_limits_pretender() } else { clear_undo() } } states.pretender_goes_home = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for the Pretender to go to exile." gen_action_undo(view) let done = true for (let b of BLOCKLIST) { if (block_owner(b) === game.active && is_block_on_map(b) && !game.moved[b]) { if (!is_in_exile(b)) { if (is_heir(b)) { done = false gen_action(view, 'block', b) } else if (!is_at_home(b)) { done = false let n = count_available_homes(b) if (n > 1) gen_action(view, 'block', b) } } } } if (done) { view.prompt = "Pretender Goes Home: You may move nobles to another home." for (let b of BLOCKLIST) { if (block_owner(b) === game.active && is_block_on_map(b) && !game.moved[b]) { if (!is_in_exile(b)) { if (is_at_home(b)) { let n = count_available_homes(b) if (n > 1) gen_action(view, 'block', b) } } } } gen_action(view, 'end_political_turn') } else { view.prompt = "Pretender Goes Home: Move the pretender and his heirs to exile, and nobles to home." } }, block: function (who) { push_undo() game.who = who game.state = 'pretender_goes_home_to' }, end_political_turn: function () { clear_undo() print_turn_log_no_count("Pretender went home:") goto_exile_limits_pretender() }, undo: pop_undo, } states.pretender_goes_home_to = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for the Pretender to go to exile." if (is_heir(game.who)) view.prompt = "Pretender Goes Home: Move " + block_name(game.who) + " to exile." else view.prompt = "Pretender Goes Home: Move " + block_name(game.who) + " to home." gen_action(view, 'block', game.who) for (let where of AREALIST) { if (where !== game.location[game.who]) { if (is_heir(game.who)) { if (is_friendly_exile_area(where)) gen_action(view, 'area', where) } else if (is_available_home_for(where, game.who)) { gen_action(view, 'area', where) } } } }, area: function (to) { if (is_exile_area(to)) game.turn_log.push([block_name(game.who), to]) // TODO: "Exile"? else game.turn_log.push([block_name(game.who), to]) // TODO: "Home"? game.moved[game.who] = true game.location[game.who] = to game.who = null game.state = 'pretender_goes_home' }, block: pop_undo, undo: pop_undo, } function goto_exile_limits_pretender() { game.moved = {} game.active = block_owner(game.pretender) if (check_exile_limits()) { game.state = 'exile_limits_pretender' clear_undo() } else { goto_king_goes_home() } } states.exile_limits_pretender = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to check exile limits." view.prompt = "Campaign Reset: Disband one block in each over-stacked exile area." gen_action_undo(view) if (game.exiles.length === 0) gen_action(view, 'end_exile_limits') for (let b of game.exiles) gen_action(view, 'block', b) }, block: function (who) { push_undo() let where = game.location[who] logp("disbanded in " + where + ".") game.exiles = game.exiles.filter(b => game.location[b] !== where) disband(who) }, end_exile_limits: function () { goto_king_goes_home() }, undo: pop_undo, } // KING GOES HOME function goto_king_goes_home() { game.active = block_owner(game.king) game.state = 'king_goes_home' game.turn_log = [] let choices = false for (let b of BLOCKLIST) if (block_owner(b) === game.active && is_block_on_map(b)) if (go_home_if_possible(b)) choices = true if (!choices) { print_turn_log_no_count("King went home:") goto_exile_limits_king() } else { clear_undo() } } states.king_goes_home = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for the King to go home." gen_action_undo(view) let done = true for (let b of BLOCKLIST) { if (block_owner(b) === game.active && is_block_on_map(b) && !game.moved[b]) { if (!is_in_exile(b)) { if (!is_at_home(b)) { done = false let n = count_available_homes(b) if (n > 1) gen_action(view, 'block', b) } } } } if (done) { view.prompt = "King Goes Home: You may move nobles and heirs to another home." for (let b of BLOCKLIST) { if (block_owner(b) === game.active && is_block_on_map(b) && !game.moved[b]) { if (!is_in_exile(b)) { if (is_at_home(b)) { let n = count_available_homes(b) if (n > 1) gen_action(view, 'block', b) } } } } gen_action(view, 'end_political_turn') } else { view.prompt = "King Goes Home: Move the King, the royal heirs, and nobles to home." } }, block: function (who) { push_undo() game.who = who game.state = 'king_goes_home_to' }, end_political_turn: function () { clear_undo() print_turn_log_no_count("King went home:") goto_exile_limits_king() }, undo: pop_undo, } states.king_goes_home_to = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for the King to go home." view.prompt = "King Goes Home: Move " + block_name(game.who) + " to home." gen_action(view, 'block', game.who) for (let where of AREALIST) if (where !== game.location[game.who]) if (is_available_home_for(where, game.who)) gen_action(view, 'area', where) }, area: function (to) { game.turn_log.push([block_name(game.who), to]) // TODO: "Home"? game.moved[game.who] = true game.location[game.who] = to game.who = null game.state = 'king_goes_home' }, block: pop_undo, undo: pop_undo, } function goto_exile_limits_king() { game.moved = {} game.active = block_owner(game.king) if (check_exile_limits()) { game.state = 'exile_limits_king' clear_undo() } else { end_political_turn() } } states.exile_limits_king = { prompt: function (view, current) { if (is_inactive_player(current)) return view.prompt = "Waiting for " + game.active + " to check exile limits." view.prompt = "Campaign Reset: Disband one block in each over-stacked exile area." gen_action_undo(view) if (game.exiles.length === 0) gen_action(view, 'end_exile_limits') for (let b of game.exiles) gen_action(view, 'block', b) }, block: function (who) { push_undo() let where = game.location[who] logp("disbanded in " + where + ".") game.exiles = game.exiles.filter(b => game.location[b] !== where) disband(who) }, end_exile_limits: function () { end_political_turn() }, undo: pop_undo, } function end_political_turn() { // Campaign reset game.dead = {} for (let b of BLOCKLIST) game.steps[b] = block_max_steps(b) ++game.campaign start_campaign() } // GAME OVER function goto_game_over() { game.active = "None" game.state = 'game_over' if (!game.result) { game.result = block_owner(game.king) game.victory = game.result + " won!" } logbr() log(game.victory) } states.game_over = { prompt: function (view) { view.prompt = game.victory } } function make_battle_view() { let battle = { round: game.battle_round, LF: [], LR: [], YF: [], YR: [], flash: game.flash } battle.title = game.attacker[game.where] + " attacks " + game.where battle.title += " \u2014 round " + game.battle_round + " of 4" function fill_cell(cell, owner, fn) { for (let b of BLOCKLIST) if (game.location[b] === game.where & block_owner(b) === owner && !game.dead[b] && fn(b)) cell.push(b) } fill_cell(battle.LR, LANCASTER, b => is_battle_reserve(b)) fill_cell(battle.LF, LANCASTER, b => !is_battle_reserve(b)) fill_cell(battle.YR, YORK, b => is_battle_reserve(b)) fill_cell(battle.YF, YORK, b => !is_battle_reserve(b)) return battle } exports.setup = function (seed, scenario, options) { game = { seed: seed, log: [], undo: [], attacker: {}, border_limit: {}, last_used: {}, location: {}, main_border: {}, moved: {}, dead: {}, moves: 0, prompt: null, reserves: [], show_cards: false, steps: {}, who: null, where: null, killed_heirs: { Lancaster: 0, York: 0 }, } if (scenario === "Wars of the Roses") setup_game() else if (scenario === "Kingmaker") setup_kingmaker() else if (scenario === "Richard III") setup_richard_iii() else throw new Error("Unknown scenario:", scenario) log("Scenario: " + scenario) start_campaign() return game } exports.action = function (state, current, action, arg) { game = state let S = states[game.state] if (action in S) S[action](arg, current) else throw new Error("Invalid action: " + action) return game } exports.resign = function (state, current) { game = state if (game.state !== 'game_over') { logbr() log(current + " resigned.") game.active = "None" game.state = 'game_over' game.victory = current + " resigned." game.result = ENEMY[current] } return game } function observer_hand() { let hand = [] hand.length = Math.max(game.l_hand.length, game.y_hand.length) hand.fill(0) return hand } exports.is_checkpoint = (a, b) => a.turn !== b.turn exports.view = function(state, current) { game = state let view = { log: game.log, campaign: game.campaign + " of " + game.end_campaign, active: game.active, king: game.king, pretender: game.pretender, l_card: (game.show_cards || current === LANCASTER) ? game.l_card : 0, y_card: (game.show_cards || current === YORK) ? game.y_card : 0, hand: (current === LANCASTER) ? game.l_hand : (current === YORK) ? game.y_hand : observer_hand(), who: (game.active === current) ? game.who : null, where: game.where, location: game.location, steps: game.steps, moved: game.moved, battle: null, prompt: null, actions: null, } states[game.state].prompt(view, current) if (states[game.state].show_battle) view.battle = make_battle_view() return view }