Index: ps/trunk/binaries/data/mods/public/gui/credits/texts/programming.json
===================================================================
--- ps/trunk/binaries/data/mods/public/gui/credits/texts/programming.json (revision 24356)
+++ ps/trunk/binaries/data/mods/public/gui/credits/texts/programming.json (revision 24357)
@@ -1,276 +1,277 @@
{
"Title": "Programming",
"Content": [
{
"Title": "Programming managers",
"List": [
{ "nick": "Acumen", "name": "Stuart Walpole" },
{ "nick": "Dak Lozar", "name": "Dave Loeser" },
{ "nick": "h20", "name": "Daniel Wilhelm" },
{ "nick": "Janwas", "name": "Jan Wassenberg" },
{ "nick": "Raj", "name": "Raj Sharma" }
]
},
{
"Subtitle": "Special thanks to",
"List": [
{ "nick": "leper", "name": "Georg Kilzer" },
{ "nick": "Ykkrosh", "name": "Philip Taylor" }
]
},
{
"List": [
{ "nick": "01d55" },
{ "nick": "aBothe", "name": "Alexander Bothe" },
{ "nick": "Acumen", "name": "Stuart Walpole" },
{ "nick": "adrian", "name": "Adrian Boguszewszki" },
{ "name": "Adrian Fatol" },
{ "nick": "AI-Amsterdam" },
{ "nick": "Alan", "name": "Alan Kemp" },
{ "nick": "Alex", "name": "Alexander Yakobovich" },
{ "nick": "alpha123", "name": "Peter P. Cannici" },
{ "nick": "Ampaex", "name": "Antonio Vazquez" },
{ "name": "André Puel" },
{ "nick": "andy5995", "name": "Andy Alt" },
{ "nick": "Angen" },
{ "nick": "Arfrever", "name": "Arfrever Frehtes Taifersar Arahesis" },
{ "nick": "ArnH", "name": "Arno Hemelhof" },
{ "nick": "Aurium", "name": "Aurélio Heckert" },
{ "nick": "badmadblacksad", "name": "Martin F" },
{ "nick": "badosu", "name": "Amadeus Folego" },
{ "nick": "bb", "name": "Bouke Jansen" },
{ "nick": "Ben", "name": "Ben Vinegar" },
{ "nick": "Bird" },
{ "nick": "Blue", "name": "Richard Welsh" },
{ "nick": "bmwiedemann" },
{ "nick": "boeseRaupe", "name": "Michael Kluge" },
{ "nick": "bog_dan_ro", "name": "BogDan Vatra" },
{ "nick": "Bonk", "name": "Christopher Ebbert" },
{ "nick": "Boudica" },
{ "nick": "Caius", "name": "Lars Kemmann" },
{ "nick": "Calefaction", "name": "Matt Holmes" },
{ "nick": "Calvinh", "name": "Carl-Johan Höiby" },
{ "nick": "causative", "name": "Bart Parkis" },
{ "name": "Cédric Houbart" },
{ "nick": "Chakakhan", "name": "Kenny Long" },
{ "nick": "Clockwork-Muse", "name": "Stephen A. Imhoff" },
{ "nick": "Cracker78", "name": "Chad Heim" },
{ "nick": "Crynux", "name": "Stephen J. Fewer" },
{ "nick": "cwprogger" },
{ "nick": "cygal", "name": "Quentin Pradet" },
{ "nick": "Dak Lozar", "name": "Dave Loeser" },
{ "nick": "dalerank", "name": "Sergey Kushnirenko" },
{ "nick": "dan", "name": "Dan Strandberg" },
{ "nick": "DanCar", "name": "Daniel Cardenas" },
{ "nick": "danger89", "name": "Melroy van den Berg" },
{ "name": "Daniel Trevitz" },
{ "nick": "Dariost", "name": "Dario Ostuni" },
{ "nick": "Dave", "name": "David Protasowski" },
{ "nick": "dax", "name": "Dacian Fiordean" },
{ "nick": "deebee", "name": "Deepak Anthony" },
{ "nick": "Deiz" },
{ "nick": "Dietger", "name": "Dietger van Antwerpen" },
{ "nick": "DigitalSeraphim", "name": "Nick Owens" },
{ "nick": "dp304" },
{ "nick": "dpiquet", "name": "Damien Piquet" },
{ "nick": "dumbo" },
{ "nick": "Dunedan", "name": "Daniel Roschka" },
{ "nick": "dvangennip", "name": "Doménique" },
{ "nick": "Echelon9", "name": "Rhys Kidd" },
{ "nick": "echotangoecho" },
{ "nick": "eihrul", "name": "Lee Salzman" },
{ "nick": "elexis", "name": "Alexander Heinsius" },
{ "nick": "EmjeR", "name": "Matthijs de Rijk" },
{ "nick": "EMontana" },
{ "nick": "ericb" },
{ "nick": "evanssthomas", "name": "Evans Thomas" },
{ "nick": "Evulant", "name": "Alexander S." },
{ "nick": "fabio", "name": "Fabio Pedretti" },
{ "nick": "falsevision", "name": "Mahdi Khodadadifard" },
{ "nick": "fatherbushido", "name": "Nicolas Tisserand" },
{ "nick": "fcxSanya", "name": "Alexander Olkhovskiy" },
{ "nick": "FeXoR", "name": "Florian Finke" },
{ "nick": "Fire Giant", "name": "Malte Schwarzkopf" },
{ "name": "Fork AD" },
{ "nick": "fpre", "name": "Frederick Stallmeyer" },
{ "nick": "Freagarach" },
{ "nick": "freenity", "name": "Anton Galitch" },
{ "nick": "Gallaecio", "name": "Adrián Chaves" },
{ "nick": "gbish (aka Iny)", "name": "Grant Bishop" },
{ "nick": "Gee", "name": "Gustav Larsson" },
{ "nick": "Gentz", "name": "Hal Gentz" },
{ "nick": "gerbilOFdoom" },
{ "nick": "godlikeldh" },
{ "nick": "greybeard", "name": "Joe Cocovich" },
{ "nick": "grillaz" },
{ "nick": "Grugnas", "name": "Giuseppe Tranchese" },
{ "nick": "gudo" },
{ "nick": "Guuts", "name": "Matthew Guttag" },
{ "nick": "h20", "name": "Daniel Wilhelm" },
{ "nick": "Hannibal_Barca", "name": "Clive Juhász S." },
{ "nick": "Haommin" },
{ "nick": "happyconcepts", "name": "Ben Bird" },
{ "nick": "historic_bruno", "name": "Ben Brian" },
{ "nick": "idanwin" },
{ "nick": "Imarok", "name": "J. S." },
{ "nick": "Inari" },
{ "nick": "infyquest", "name": "Vijay Kiran Kamuju" },
{ "nick": "irishninja", "name": "Brian Broll" },
{ "nick": "IronNerd", "name": "Matthew McMullan" },
{ "nick": "Itms", "name": "Nicolas Auvray" },
{ "nick": "Jaison", "name": "Marco tom Suden" },
{ "nick": "jammus", "name": "James Scott" },
{ "nick": "Janwas", "name": "Jan Wassenberg" },
{ "nick": "javiergodas", "name": "Javier Godas Vieitez" },
{ "nick": "Jgwman" },
{ "nick": "JonBaer", "name": "Jon Baer" },
{ "nick": "Josh", "name": "Joshua J. Bakita" },
{ "nick": "joskar", "name": "Johnny Oskarsson" },
{ "nick": "jP_wanN", "name": "Jonas Platte" },
{ "nick": "Jubalbarca", "name": "James Baillie" },
{ "nick": "JubJub", "name": "Sebastian Vetter" },
{ "nick": "jurgemaister" },
{ "nick": "kabzerek", "name": "Grzegorz Kabza" },
{ "nick": "Kai", "name": "Kai Chen" },
{ "name": "Kareem Ergawy" },
{ "nick": "kevmo", "name": "Kevin Caffrey" },
{ "nick": "kezz", "name": "Graeme Kerry" },
{ "nick": "kingadami", "name": "Adam Winsor" },
{ "nick": "kingbasil", "name": "Giannis Fafalios" },
{ "nick": "Krinkle", "name": "Timo Tijhof" },
{ "nick": "lafferjm", "name": "Justin Lafferty" },
{ "nick": "LeanderH", "name": "Leander Hemelhof" },
{ "nick": "leper", "name": "Georg Kilzer" },
{ "nick": "Link Mauve", "name": "Emmanuel Gil Peyrot" },
{ "nick": "LittleDev" },
{ "nick": "livingaftermidnight", "name": "Will Dull" },
{ "nick": "Louhike" },
{ "nick": "lsdh" },
{ "nick": "Ludovic", "name": "Ludovic Rousseau" },
{ "nick": "luiko", "name": "Luis Carlos Garcia Barajas" },
{ "nick": "m0l0t0ph", "name": "Christoph Gielisch" },
{ "nick": "madmax", "name": "Abhijit Nandy" },
{ "nick": "madpilot", "name": "Guido Falsi" },
+ { "nick": "mammadori", "name": "Marco Amadori" },
{ "nick": "markcho" },
{ "nick": "MarkT", "name": "Mark Thompson" },
{ "nick": "Markus" },
{ "nick": "Mate-86", "name": "Mate Kovacs" },
{ "nick": "Matei", "name": "Matei Zaharia" },
{ "nick": "MattDoerksen", "name": "Matt Doerksen" },
{ "nick": "mattlott", "name": "Matt Lott" },
{ "nick": "maveric", "name": "Anton Protko" },
{ "nick": "Micnasty", "name": "Travis Gorkin" },
{ "name": "Mikołaj \"Bajter\" Korcz" },
{ "nick": "mimo" },
{ "nick": "mk12", "name": "Mitchell Kember" },
{ "nick": "mmayfield45", "name": "Michael Mayfield" },
{ "nick": "mmoanis", "name": "Mohamed Moanis" },
{ "nick": "Molotov", "name": "Dario Alvarez" },
{ "nick": "mpmoreti", "name": "Marcos Paulo Moreti" },
{ "nick": "mreiland", "name": "Michael Reiland" },
{ "nick": "myconid" },
{ "nick": "nani", "name": "S. N." },
{ "nick": "nd3c3nt", "name": "Gavin Fowler" },
{ "nick": "nephele" },
{ "nick": "Nescio" },
{ "nick": "niektb", "name": "Niek ten Brinke" },
{ "nick": "njm" },
{ "nick": "NoMonkey", "name": "John Mena" },
{ "nick": "norsnor" },
{ "nick": "notpete", "name": "Rich Cross" },
{ "nick": "nwtour" },
{ "nick": "odoaker", "name": "Ágoston Sipos" },
{ "nick": "Offensive ePeen", "name": "Jared Ryan Bills" },
{ "nick": "Ols", "name": "Oliver Whiteman" },
{ "nick": "olsner", "name": "Simon Brenner" },
{ "nick": "OptimusShepard", "name": "Pirmin Stanglmeier" },
{ "nick": "otero" },
{ "nick": "Palaxin", "name": "David A. Freitag" },
{ "name": "Paul Withers" },
{ "nick": "paulobezerr", "name": "Paulo George Gomes Bezerra" },
{ "nick": "pcpa", "name": "Paulo Andrade" },
{ "nick": "Pendingchaos" },
{ "nick": "PeteVasi", "name": "Pete Vasiliauskas" },
{ "nick": "pilino1234" },
{ "nick": "PingvinBetyar", "name": "Schronk Tamás" },
{ "nick": "plugwash", "name": "Peter Michael Green" },
{ "nick": "Polakrity" },
{ "nick": "Poya", "name": "Poya Manouchehri" },
{ "nick": "prefect", "name": "Nicolai Hähnle" },
{ "nick": "Prodigal Son" },
{ "nick": "pstumpf", "name": "Pascal Stumpf" },
{ "nick": "pyrolink", "name": "Andrew Decker" },
{ "nick": "quantumstate", "name": "Jonathan Waller" },
{ "nick": "QuickShot", "name": "Walter Krawec" },
{ "nick": "quonter" },
{ "nick": "qwertz" },
{ "nick": "Radagast" },
{ "nick": "Raj", "name": "Raj Sharma" },
{ "nick": "ramtzok1", "name": "Ram" },
{ "nick": "rapidelectron", "name": "Christian Weihsbach" },
{ "nick": "RedFox", "name": "Jorma Rebane" },
{ "nick": "RefinedCode" },
{ "nick": "Riemer" },
{ "name": "Rolf Sievers" },
{ "nick": "s0600204", "name": "Matthew Norwood" },
{ "nick": "sacha_vrand", "name": "Sacha Vrand" },
{ "nick": "SafaAlfulaij" },
{ "name": "Samuel Guarnieri" },
{ "nick": "Sandarac" },
{ "nick": "sanderd17", "name": "Sander Deryckere" },
{ "nick": "sathyam", "name": "Sathyam Vellal" },
{ "nick": "sbirmi", "name": "Sharad Birmiwal" },
{ "nick": "sbte", "name": "Sven Baars" },
{ "nick": "scroogie", "name": "André Gemünd" },
{ "nick": "scythetwirler", "name": "Casey X." },
{ "nick": "serveurix" },
{ "nick": "Shane", "name": "Shane Grant" },
{ "nick": "shh" },
{ "nick": "Silk", "name": "Josh Godsiff" },
{ "nick": "silure" },
{ "nick": "Simikolon", "name": "Yannick & Simon" },
{ "nick": "smiley", "name": "M. L." },
{ "nick": "Spahbod", "name": "Omid Davoodi" },
{ "nick": "Stan", "name": "Stanislas Dolcini" },
{ "nick": "Stefan" },
{ "nick": "StefanBruens", "name": "Stefan Brüns" },
{ "nick": "stilz", "name": "Sławomir Zborowski" },
{ "nick": "stwf", "name": "Steven Fuchs" },
{ "nick": "svott", "name": "Sven Ott" },
{ "nick": "t4nk004" },
{ "nick": "tau" },
{ "nick": "tbm", "name": "Martin Michlmayr" },
{ "nick": "Teiresias" },
{ "nick": "temple" },
{ "nick": "texane" },
{ "nick": "thamlett", "name": "Timothy Hamlett" },
{ "nick": "thedrunkyak", "name": "Dan Fuhr" },
{ "nick": "Tobbi" },
{ "nick": "TrinityDeath", "name": "Jethro Lu" },
{ "nick": "triumvir", "name": "Corin Schedler" },
{ "nick": "trompetin17", "name": "Juan Guillermo" },
{ "nick": "user1", "name": "A. C." },
{ "nick": "usey11" },
{ "nick": "vincent_c", "name": "Vincent Cheng" },
{ "nick": "vinhig", "name": "Vincent Higginson" },
{ "nick": "vladislavbelov", "name": "Vladislav Belov" },
{ "nick": "voroskoi" },
{ "nick": "vts", "name": "Jeroen DR" },
{ "nick": "wacko", "name": "Andrew Spiering" },
{ "nick": "WhiteTreePaladin", "name": "Brian Ashley" },
{ "nick": "wraitii", "name": "Lancelot de Ferrière le Vayer" },
{ "nick": "Xentelian", "name": "Mark Strawson" },
{ "nick": "Xienen", "name": "Dayle Flowers" },
{ "nick": "xtizer", "name": "Matt Green" },
{ "nick": "yashi", "name": "Yasushi Shoji" },
{ "nick": "Ykkrosh", "name": "Philip Taylor" },
{ "nick": "Yves" },
{ "nick": "Zeusthor", "name": "Jeffrey Tavares" },
{ "nick": "zoot" },
{ "nick": "zsol", "name": "Zsolt Dollenstein" },
{ "nick": "ztamas", "name": "Tamas Zolnai" },
{ "nick": "Zyi", "name": "Charles De Meulenaer" }
]
}
]
}
Index: ps/trunk/binaries/data/mods/public/gui/session/styles.xml
===================================================================
--- ps/trunk/binaries/data/mods/public/gui/session/styles.xml (revision 24356)
+++ ps/trunk/binaries/data/mods/public/gui/session/styles.xml (revision 24357)
@@ -1,257 +1,265 @@
+
+
Index: ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterManager.js
===================================================================
--- ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterManager.js (revision 24356)
+++ ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterManager.js (revision 24357)
@@ -1,132 +1,133 @@
/**
* This class manages the counters in the top panel.
* For allies who researched team vision and observers,
* it displays the resources in a tooltip in a player chosen order.
*/
class CounterManager
{
constructor(playerViewControl)
{
this.allyPlayerStates = {};
this.counters = [];
this.resourceCounts = Engine.GetGUIObjectByName("resourceCounts");
// TODO: filter resources depending on JSON file
for (let resCode of g_ResourceData.GetCodes())
this.addCounter(resCode, CounterResource);
this.addCounter("population", CounterPopulation);
this.init();
registerSimulationUpdateHandler(this.rebuild.bind(this));
playerViewControl.registerViewedPlayerChangeHandler(this.rebuild.bind(this));
}
addCounter(resCode, type)
{
let panelCount = this.resourceCounts.children.length;
if (this.counters.length + 1 > panelCount)
throw "There are " + (this.counters.length + 1) + " resource counters to display, but only " + panelCount + " panel items!";
let id = "[" + this.counters.length + "]";
this.counters.push(
new type(
resCode,
Engine.GetGUIObjectByName("resource" + id),
Engine.GetGUIObjectByName("resource" + id + "_icon"),
- Engine.GetGUIObjectByName("resource" + id + "_count")));
+ Engine.GetGUIObjectByName("resource" + id + "_count"),
+ Engine.GetGUIObjectByName("resource" + id + "_stats")));
}
init()
{
horizontallySpaceObjects("resourceCounts", this.counters.length);
hideRemaining("resourceCounts", this.counters.length);
for (let counter of this.counters)
{
counter.icon.sprite = "stretched:session/icons/resources/" + counter.resCode + ".png";
counter.panel.onPress = this.onPress.bind(this);
}
}
onPress()
{
Engine.ConfigDB_CreateAndWriteValueToFile(
"user",
"gui.session.respoptooltipsort",
String((+Engine.ConfigDB_GetValue("user", "gui.session.respoptooltipsort") + 2) % 3 - 1),
"config/user.cfg");
this.rebuild();
}
rebuild()
{
let hidden = g_ViewedPlayer <= 0;
this.resourceCounts.hidden = hidden;
if (hidden)
return;
let viewedPlayerState = g_SimState.players[g_ViewedPlayer];
this.allyPlayerStates = {};
for (let player in g_SimState.players)
if (player != 0 &&
player != g_ViewedPlayer &&
g_Players[player].state != "defeated" &&
(g_IsObserver ||
viewedPlayerState.hasSharedLos &&
g_Players[player].isMutualAlly[g_ViewedPlayer]))
this.allyPlayerStates[player] = g_SimState.players[player];
this.selectedOrder = +Engine.ConfigDB_GetValue("user", "gui.session.respoptooltipsort");
this.orderTooltip = this.getOrderTooltip();
for (let counter of this.counters)
{
let hidden = g_ViewedPlayer <= 0;
counter.panel.hidden = hidden;
if (!hidden)
counter.rebuild(viewedPlayerState, this.getAllyStatTooltip.bind(this));
}
}
getOrderTooltip()
{
if (!Object.keys(this.allyPlayerStates).length)
return "";
return "\n" + sprintf(translate("%(order)s: %(hotkey)s to change order."), {
"hotkey": setStringTags("\\[Click]", g_HotkeyTags),
"order":
this.selectedOrder == 0 ?
translate("Unordered") :
this.selectedOrder == 1 ?
translate("Descending") :
translate("Ascending")
})
}
getAllyStatTooltip(getTooltipData)
{
let tooltipData = [];
for (let playerID in this.allyPlayerStates)
{
let playername = colorizePlayernameHelper("■", playerID) + " " + g_Players[playerID].name;
tooltipData.push(getTooltipData(this.allyPlayerStates[playerID], playername));
}
if (this.selectedOrder)
tooltipData.sort((a, b) => this.selectedOrder * (b.orderValue - a.orderValue));
return this.orderTooltip +
tooltipData.reduce((result, data) =>
result + "\n" + sprintf(translate(this.AllyStatTooltip), data), "");
}
}
CounterManager.ResourceTitleTags = { "font": "sans-bold-16" };
CounterManager.prototype.AllyStatTooltip = markForTranslation("%(playername)s: %(statValue)s");
Index: ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterPopulation.js
===================================================================
--- ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterPopulation.js (revision 24356)
+++ ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterPopulation.js (revision 24357)
@@ -1,68 +1,75 @@
/**
* This class manages the population counter in the top panel.
* It flashes the counter if the training of any owned entity is blocked.
*/
class CounterPopulation
{
- constructor(resCode, panel, icon, count)
+ constructor(resCode, panel, icon, count, stats)
{
this.resCode = resCode;
this.panel = panel;
this.icon = icon;
this.count = count;
this.count.onTick = this.onTick.bind(this);
this.isTrainingBlocked = false;
this.color = this.DefaultPopulationColor;
+ this.stats = stats;
}
rebuild(playerState, getAllyStatTooltip)
{
this.count.caption = sprintf(translate(this.CounterCaption), playerState);
+ let total = 0;
+ for (let resCode of g_ResourceData.GetCodes())
+ total += playerState.resourceGatherers[resCode];
+ // Do not show zeroes.
+ this.stats.caption = total || "";
this.isTrainingBlocked = playerState.trainingBlocked;
this.panel.tooltip =
setStringTags(translate(this.PopulationTooltip), CounterManager.ResourceTitleTags) + "\n" +
sprintf(translate(this.MaximumPopulationTooltip), { "popCap": playerState.popMax }) +
- getAllyStatTooltip(this.getTooltipData.bind(this));
+ getAllyStatTooltip(this.getTooltipData.bind(this)) + "\n" +
+ (total > 0 ? sprintf(translate("Current gatherers: %(amount)s"), { "amount" : total }) : "");
}
getTooltipData(playerState, playername)
{
return {
"playername": playername,
"statValue": sprintf(translate(this.AllyPopulationTooltip), playerState),
"orderValue": playerState.popCount
};
}
onTick()
{
if (this.panel.hidden)
return;
let newColor = this.isTrainingBlocked && Date.now() % 1000 < 500 ?
this.PopulationAlertColor :
this.DefaultPopulationColor;
if (newColor == this.color)
return;
this.color = newColor;
this.count.textcolor = newColor;
}
}
CounterPopulation.prototype.CounterCaption = markForTranslation("%(popCount)s/%(popLimit)s");
CounterPopulation.prototype.PopulationTooltip = markForTranslation("Population (current / limit)");
CounterPopulation.prototype.MaximumPopulationTooltip = markForTranslation("Maximum population: %(popCap)s");
CounterPopulation.prototype.AllyPopulationTooltip = markForTranslation("%(popCount)s/%(popLimit)s/%(popMax)s");
/**
* Colors to flash when pop limit reached.
*/
CounterPopulation.prototype.DefaultPopulationColor = "white";
CounterPopulation.prototype.PopulationAlertColor = "orange";
Index: ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterResource.js
===================================================================
--- ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterResource.js (revision 24356)
+++ ps/trunk/binaries/data/mods/public/gui/session/top_panel/CounterResource.js (revision 24357)
@@ -1,37 +1,43 @@
/**
* This class manages the counter in the top panel for one resource type.
*/
class CounterResource
{
- constructor(resCode, panel, icon, count)
+ constructor(resCode, panel, icon, count, stats)
{
this.resCode = resCode;
this.panel = panel;
this.icon = icon;
this.count = count;
+ this.stats = stats;
}
rebuild(playerState, getAllyStatTooltip)
{
this.count.caption = Math.floor(playerState.resourceCounts[this.resCode]);
+ // Do not show zeroes.
+ let gatherers = playerState.resourceGatherers[this.resCode];
+ this.stats.caption = gatherers || "";
+
// TODO: Set the tooltip only if hovered?
let description = g_ResourceData.GetResource(this.resCode).description;
if (description)
description = "\n" + translate(description);
this.panel.tooltip =
setStringTags(resourceNameFirstWord(this.resCode), CounterManager.ResourceTitleTags) +
description +
- getAllyStatTooltip(this.getTooltipData.bind(this));
+ getAllyStatTooltip(this.getTooltipData.bind(this)) + "\n" +
+ (gatherers > 0 ? sprintf(translate("Gatherers: %(amount)s"), { "amount" : gatherers }) : "");
}
getTooltipData(playerState, playername)
{
return {
"playername": playername,
"statValue": Math.round(playerState.resourceCounts[this.resCode]),
"orderValue": Math.round(playerState.resourceCounts[this.resCode])
};
}
}
Index: ps/trunk/binaries/data/mods/public/gui/session/top_panel/Counters.xml
===================================================================
--- ps/trunk/binaries/data/mods/public/gui/session/top_panel/Counters.xml (revision 24356)
+++ ps/trunk/binaries/data/mods/public/gui/session/top_panel/Counters.xml (revision 24357)
@@ -1,11 +1,12 @@
Index: ps/trunk/binaries/data/mods/public/simulation/components/GuiInterface.js
===================================================================
--- ps/trunk/binaries/data/mods/public/simulation/components/GuiInterface.js (revision 24356)
+++ ps/trunk/binaries/data/mods/public/simulation/components/GuiInterface.js (revision 24357)
@@ -1,2063 +1,2064 @@
function GuiInterface() {}
GuiInterface.prototype.Schema =
"";
GuiInterface.prototype.Serialize = function()
{
// This component isn't network-synchronized for the biggest part,
// so most of the attributes shouldn't be serialized.
// Return an object with a small selection of deterministic data.
return {
"timeNotifications": this.timeNotifications,
"timeNotificationID": this.timeNotificationID
};
};
GuiInterface.prototype.Deserialize = function(data)
{
this.Init();
this.timeNotifications = data.timeNotifications;
this.timeNotificationID = data.timeNotificationID;
};
GuiInterface.prototype.Init = function()
{
this.placementEntity = undefined; // = undefined or [templateName, entityID]
this.placementWallEntities = undefined;
this.placementWallLastAngle = 0;
this.notifications = [];
this.renamedEntities = [];
this.miragedEntities = [];
this.timeNotificationID = 1;
this.timeNotifications = [];
this.entsRallyPointsDisplayed = [];
this.entsWithAuraAndStatusBars = new Set();
this.enabledVisualRangeOverlayTypes = {};
this.templateModified = {};
this.selectionDirty = {};
this.obstructionSnap = new ObstructionSnap();
};
/*
* All of the functions defined below are called via Engine.GuiInterfaceCall(name, arg)
* from GUI scripts, and executed here with arguments (player, arg).
*
* CAUTION: The input to the functions in this module is not network-synchronised, so it
* mustn't affect the simulation state (i.e. the data that is serialised and can affect
* the behaviour of the rest of the simulation) else it'll cause out-of-sync errors.
*/
/**
* Returns global information about the current game state.
* This is used by the GUI and also by AI scripts.
*/
GuiInterface.prototype.GetSimulationState = function()
{
let ret = {
"players": []
};
let cmpPlayerManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_PlayerManager);
let numPlayers = cmpPlayerManager.GetNumPlayers();
for (let i = 0; i < numPlayers; ++i)
{
let cmpPlayer = QueryPlayerIDInterface(i);
let cmpPlayerEntityLimits = QueryPlayerIDInterface(i, IID_EntityLimits);
// Work out which phase we are in.
let phase = "";
let cmpTechnologyManager = QueryPlayerIDInterface(i, IID_TechnologyManager);
if (cmpTechnologyManager)
{
if (cmpTechnologyManager.IsTechnologyResearched("phase_city"))
phase = "city";
else if (cmpTechnologyManager.IsTechnologyResearched("phase_town"))
phase = "town";
else if (cmpTechnologyManager.IsTechnologyResearched("phase_village"))
phase = "village";
}
let allies = [];
let mutualAllies = [];
let neutrals = [];
let enemies = [];
for (let j = 0; j < numPlayers; ++j)
{
allies[j] = cmpPlayer.IsAlly(j);
mutualAllies[j] = cmpPlayer.IsMutualAlly(j);
neutrals[j] = cmpPlayer.IsNeutral(j);
enemies[j] = cmpPlayer.IsEnemy(j);
}
ret.players.push({
"name": cmpPlayer.GetName(),
"civ": cmpPlayer.GetCiv(),
"color": cmpPlayer.GetColor(),
"controlsAll": cmpPlayer.CanControlAllUnits(),
"popCount": cmpPlayer.GetPopulationCount(),
"popLimit": cmpPlayer.GetPopulationLimit(),
"popMax": cmpPlayer.GetMaxPopulation(),
"panelEntities": cmpPlayer.GetPanelEntities(),
"resourceCounts": cmpPlayer.GetResourceCounts(),
+ "resourceGatherers": cmpPlayer.GetResourceGatherers(),
"trainingBlocked": cmpPlayer.IsTrainingBlocked(),
"state": cmpPlayer.GetState(),
"team": cmpPlayer.GetTeam(),
"teamsLocked": cmpPlayer.GetLockTeams(),
"cheatsEnabled": cmpPlayer.GetCheatsEnabled(),
"disabledTemplates": cmpPlayer.GetDisabledTemplates(),
"disabledTechnologies": cmpPlayer.GetDisabledTechnologies(),
"hasSharedDropsites": cmpPlayer.HasSharedDropsites(),
"hasSharedLos": cmpPlayer.HasSharedLos(),
"spyCostMultiplier": cmpPlayer.GetSpyCostMultiplier(),
"phase": phase,
"isAlly": allies,
"isMutualAlly": mutualAllies,
"isNeutral": neutrals,
"isEnemy": enemies,
"entityLimits": cmpPlayerEntityLimits ? cmpPlayerEntityLimits.GetLimits() : null,
"entityCounts": cmpPlayerEntityLimits ? cmpPlayerEntityLimits.GetCounts() : null,
"entityLimitChangers": cmpPlayerEntityLimits ? cmpPlayerEntityLimits.GetLimitChangers() : null,
"researchQueued": cmpTechnologyManager ? cmpTechnologyManager.GetQueuedResearch() : null,
"researchStarted": cmpTechnologyManager ? cmpTechnologyManager.GetStartedTechs() : null,
"researchedTechs": cmpTechnologyManager ? cmpTechnologyManager.GetResearchedTechs() : null,
"classCounts": cmpTechnologyManager ? cmpTechnologyManager.GetClassCounts() : null,
"typeCountsByClass": cmpTechnologyManager ? cmpTechnologyManager.GetTypeCountsByClass() : null,
"canBarter": cmpPlayer.CanBarter(),
"barterPrices": Engine.QueryInterface(SYSTEM_ENTITY, IID_Barter).GetPrices(cmpPlayer)
});
}
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (cmpRangeManager)
ret.circularMap = cmpRangeManager.GetLosCircular();
let cmpTerrain = Engine.QueryInterface(SYSTEM_ENTITY, IID_Terrain);
if (cmpTerrain)
ret.mapSize = cmpTerrain.GetMapSize();
let cmpTimer = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer);
ret.timeElapsed = cmpTimer.GetTime();
let cmpCeasefireManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_CeasefireManager);
if (cmpCeasefireManager)
{
ret.ceasefireActive = cmpCeasefireManager.IsCeasefireActive();
ret.ceasefireTimeRemaining = ret.ceasefireActive ? cmpCeasefireManager.GetCeasefireStartedTime() + cmpCeasefireManager.GetCeasefireTime() - ret.timeElapsed : 0;
}
let cmpCinemaManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_CinemaManager);
if (cmpCinemaManager)
ret.cinemaPlaying = cmpCinemaManager.IsPlaying();
let cmpEndGameManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_EndGameManager);
ret.victoryConditions = cmpEndGameManager.GetVictoryConditions();
ret.alliedVictory = cmpEndGameManager.GetAlliedVictory();
ret.maxWorldPopulation = cmpPlayerManager.GetMaxWorldPopulation();
for (let i = 0; i < numPlayers; ++i)
{
let cmpPlayerStatisticsTracker = QueryPlayerIDInterface(i, IID_StatisticsTracker);
if (cmpPlayerStatisticsTracker)
ret.players[i].statistics = cmpPlayerStatisticsTracker.GetBasicStatistics();
}
return ret;
};
/**
* Returns global information about the current game state, plus statistics.
* This is used by the GUI at the end of a game, in the summary screen.
* Note: Amongst statistics, the team exploration map percentage is computed from
* scratch, so the extended simulation state should not be requested too often.
*/
GuiInterface.prototype.GetExtendedSimulationState = function()
{
let ret = this.GetSimulationState();
let numPlayers = Engine.QueryInterface(SYSTEM_ENTITY, IID_PlayerManager).GetNumPlayers();
for (let i = 0; i < numPlayers; ++i)
{
let cmpPlayerStatisticsTracker = QueryPlayerIDInterface(i, IID_StatisticsTracker);
if (cmpPlayerStatisticsTracker)
ret.players[i].sequences = cmpPlayerStatisticsTracker.GetSequences();
}
return ret;
};
/**
* Returns the gamesettings that were chosen at the time the match started.
*/
GuiInterface.prototype.GetInitAttributes = function()
{
return InitAttributes;
};
/**
* This data will be stored in the replay metadata file after a match has been finished recording.
*/
GuiInterface.prototype.GetReplayMetadata = function()
{
let extendedSimState = this.GetExtendedSimulationState();
return {
"timeElapsed": extendedSimState.timeElapsed,
"playerStates": extendedSimState.players,
"mapSettings": InitAttributes.settings
};
};
GuiInterface.prototype.GetRenamedEntities = function(player)
{
if (this.miragedEntities[player])
return this.renamedEntities.concat(this.miragedEntities[player]);
return this.renamedEntities;
};
GuiInterface.prototype.ClearRenamedEntities = function()
{
this.renamedEntities = [];
this.miragedEntities = [];
};
GuiInterface.prototype.AddMiragedEntity = function(player, entity, mirage)
{
if (!this.miragedEntities[player])
this.miragedEntities[player] = [];
this.miragedEntities[player].push({ "entity": entity, "newentity": mirage });
};
/**
* Get common entity info, often used in the gui.
*/
GuiInterface.prototype.GetEntityState = function(player, ent)
{
let cmpTemplateManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_TemplateManager);
// All units must have a template; if not then it's a nonexistent entity id.
let template = cmpTemplateManager.GetCurrentTemplateName(ent);
if (!template)
return null;
let ret = {
"id": ent,
"player": INVALID_PLAYER,
"template": template
};
let cmpMirage = Engine.QueryInterface(ent, IID_Mirage);
if (cmpMirage)
ret.mirage = true;
let cmpIdentity = Engine.QueryInterface(ent, IID_Identity);
if (cmpIdentity)
ret.identity = {
"rank": cmpIdentity.GetRank(),
"classes": cmpIdentity.GetClassesList(),
"selectionGroupName": cmpIdentity.GetSelectionGroupName(),
"canDelete": !cmpIdentity.IsUndeletable(),
"hasSomeFormation": cmpIdentity.HasSomeFormation(),
"formations": cmpIdentity.GetFormationsList(),
"controllable": cmpIdentity.IsControllable()
};
let cmpPosition = Engine.QueryInterface(ent, IID_Position);
if (cmpPosition && cmpPosition.IsInWorld())
ret.position = cmpPosition.GetPosition();
let cmpHealth = QueryMiragedInterface(ent, IID_Health);
if (cmpHealth)
{
ret.hitpoints = cmpHealth.GetHitpoints();
ret.maxHitpoints = cmpHealth.GetMaxHitpoints();
ret.needsRepair = cmpHealth.IsRepairable() && cmpHealth.IsInjured();
ret.needsHeal = !cmpHealth.IsUnhealable();
}
let cmpCapturable = QueryMiragedInterface(ent, IID_Capturable);
if (cmpCapturable)
{
ret.capturePoints = cmpCapturable.GetCapturePoints();
ret.maxCapturePoints = cmpCapturable.GetMaxCapturePoints();
}
let cmpBuilder = Engine.QueryInterface(ent, IID_Builder);
if (cmpBuilder)
ret.builder = true;
let cmpMarket = QueryMiragedInterface(ent, IID_Market);
if (cmpMarket)
ret.market = {
"land": cmpMarket.HasType("land"),
"naval": cmpMarket.HasType("naval")
};
let cmpPack = Engine.QueryInterface(ent, IID_Pack);
if (cmpPack)
ret.pack = {
"packed": cmpPack.IsPacked(),
"progress": cmpPack.GetProgress()
};
let cmpUpgrade = Engine.QueryInterface(ent, IID_Upgrade);
if (cmpUpgrade)
ret.upgrade = {
"upgrades": cmpUpgrade.GetUpgrades(),
"progress": cmpUpgrade.GetProgress(),
"template": cmpUpgrade.GetUpgradingTo(),
"isUpgrading": cmpUpgrade.IsUpgrading()
};
let cmpStatusEffects = Engine.QueryInterface(ent, IID_StatusEffectsReceiver);
if (cmpStatusEffects)
ret.statusEffects = cmpStatusEffects.GetActiveStatuses();
let cmpProductionQueue = Engine.QueryInterface(ent, IID_ProductionQueue);
if (cmpProductionQueue)
ret.production = {
"entities": cmpProductionQueue.GetEntitiesList(),
"technologies": cmpProductionQueue.GetTechnologiesList(),
"techCostMultiplier": cmpProductionQueue.GetTechCostMultiplier(),
"queue": cmpProductionQueue.GetQueue()
};
let cmpTrader = Engine.QueryInterface(ent, IID_Trader);
if (cmpTrader)
ret.trader = {
"goods": cmpTrader.GetGoods()
};
let cmpFoundation = QueryMiragedInterface(ent, IID_Foundation);
if (cmpFoundation)
ret.foundation = {
"numBuilders": cmpFoundation.GetNumBuilders(),
"buildTime": cmpFoundation.GetBuildTime()
};
let cmpRepairable = QueryMiragedInterface(ent, IID_Repairable);
if (cmpRepairable)
ret.repairable = {
"numBuilders": cmpRepairable.GetNumBuilders(),
"buildTime": cmpRepairable.GetBuildTime()
};
let cmpOwnership = Engine.QueryInterface(ent, IID_Ownership);
if (cmpOwnership)
ret.player = cmpOwnership.GetOwner();
let cmpRallyPoint = Engine.QueryInterface(ent, IID_RallyPoint);
if (cmpRallyPoint)
ret.rallyPoint = { "position": cmpRallyPoint.GetPositions()[0] }; // undefined or {x,z} object
let cmpGarrisonHolder = Engine.QueryInterface(ent, IID_GarrisonHolder);
if (cmpGarrisonHolder)
ret.garrisonHolder = {
"entities": cmpGarrisonHolder.GetEntities(),
"buffHeal": cmpGarrisonHolder.GetHealRate(),
"allowedClasses": cmpGarrisonHolder.GetAllowedClasses(),
"capacity": cmpGarrisonHolder.GetCapacity(),
"garrisonedEntitiesCount": cmpGarrisonHolder.GetGarrisonedEntitiesCount()
};
let cmpTurretHolder = Engine.QueryInterface(ent, IID_TurretHolder);
if (cmpTurretHolder)
ret.turretHolder = {
"turretPoints": cmpTurretHolder.GetTurretPoints()
};
ret.canGarrison = !!Engine.QueryInterface(ent, IID_Garrisonable);
let cmpUnitAI = Engine.QueryInterface(ent, IID_UnitAI);
if (cmpUnitAI)
ret.unitAI = {
"state": cmpUnitAI.GetCurrentState(),
"orders": cmpUnitAI.GetOrders(),
"hasWorkOrders": cmpUnitAI.HasWorkOrders(),
"canGuard": cmpUnitAI.CanGuard(),
"isGuarding": cmpUnitAI.IsGuardOf(),
"canPatrol": cmpUnitAI.CanPatrol(),
"selectableStances": cmpUnitAI.GetSelectableStances(),
"isIdle": cmpUnitAI.IsIdle()
};
let cmpGuard = Engine.QueryInterface(ent, IID_Guard);
if (cmpGuard)
ret.guard = {
"entities": cmpGuard.GetEntities()
};
let cmpResourceGatherer = Engine.QueryInterface(ent, IID_ResourceGatherer);
if (cmpResourceGatherer)
{
ret.resourceCarrying = cmpResourceGatherer.GetCarryingStatus();
ret.resourceGatherRates = cmpResourceGatherer.GetGatherRates();
}
let cmpGate = Engine.QueryInterface(ent, IID_Gate);
if (cmpGate)
ret.gate = {
"locked": cmpGate.IsLocked()
};
let cmpAlertRaiser = Engine.QueryInterface(ent, IID_AlertRaiser);
if (cmpAlertRaiser)
ret.alertRaiser = true;
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
ret.visibility = cmpRangeManager.GetLosVisibility(ent, player);
let cmpAttack = Engine.QueryInterface(ent, IID_Attack);
if (cmpAttack)
{
let types = cmpAttack.GetAttackTypes();
if (types.length)
ret.attack = {};
for (let type of types)
{
ret.attack[type] = {};
Object.assign(ret.attack[type], cmpAttack.GetAttackEffectsData(type));
ret.attack[type].attackName = cmpAttack.GetAttackName(type);
ret.attack[type].splash = cmpAttack.GetSplashData(type);
if (ret.attack[type].splash)
Object.assign(ret.attack[type].splash, cmpAttack.GetAttackEffectsData(type, true));
let range = cmpAttack.GetRange(type);
ret.attack[type].minRange = range.min;
ret.attack[type].maxRange = range.max;
let timers = cmpAttack.GetTimers(type);
ret.attack[type].prepareTime = timers.prepare;
ret.attack[type].repeatTime = timers.repeat;
if (type != "Ranged")
{
// Not a ranged attack, set some defaults.
ret.attack[type].elevationBonus = 0;
ret.attack[type].elevationAdaptedRange = ret.attack.maxRange;
continue;
}
ret.attack[type].elevationBonus = range.elevationBonus;
if (cmpPosition && cmpPosition.IsInWorld())
// For units, take the range in front of it, no spread, so angle = 0,
// else, take the average elevation around it: angle = 2 * pi.
ret.attack[type].elevationAdaptedRange = cmpRangeManager.GetElevationAdaptedRange(cmpPosition.GetPosition(), cmpPosition.GetRotation(), range.max, range.elevationBonus, cmpUnitAI ? 0 : 2 * Math.PI);
else
// Not in world, set a default?
ret.attack[type].elevationAdaptedRange = ret.attack.maxRange;
}
}
let cmpResistance = Engine.QueryInterface(ent, IID_Resistance);
if (cmpResistance)
ret.resistance = cmpResistance.GetResistanceOfForm(cmpFoundation ? "Foundation" : "Entity");
let cmpBuildingAI = Engine.QueryInterface(ent, IID_BuildingAI);
if (cmpBuildingAI)
ret.buildingAI = {
"defaultArrowCount": cmpBuildingAI.GetDefaultArrowCount(),
"maxArrowCount": cmpBuildingAI.GetMaxArrowCount(),
"garrisonArrowMultiplier": cmpBuildingAI.GetGarrisonArrowMultiplier(),
"garrisonArrowClasses": cmpBuildingAI.GetGarrisonArrowClasses(),
"arrowCount": cmpBuildingAI.GetArrowCount()
};
if (cmpPosition && cmpPosition.GetTurretParent() != INVALID_ENTITY)
ret.turretParent = cmpPosition.GetTurretParent();
let cmpResourceSupply = QueryMiragedInterface(ent, IID_ResourceSupply);
if (cmpResourceSupply)
ret.resourceSupply = {
"isInfinite": cmpResourceSupply.IsInfinite(),
"max": cmpResourceSupply.GetMaxAmount(),
"amount": cmpResourceSupply.GetCurrentAmount(),
"type": cmpResourceSupply.GetType(),
"killBeforeGather": cmpResourceSupply.GetKillBeforeGather(),
"maxGatherers": cmpResourceSupply.GetMaxGatherers(),
"numGatherers": cmpResourceSupply.GetNumGatherers()
};
let cmpResourceDropsite = Engine.QueryInterface(ent, IID_ResourceDropsite);
if (cmpResourceDropsite)
ret.resourceDropsite = {
"types": cmpResourceDropsite.GetTypes(),
"sharable": cmpResourceDropsite.IsSharable(),
"shared": cmpResourceDropsite.IsShared()
};
let cmpPromotion = Engine.QueryInterface(ent, IID_Promotion);
if (cmpPromotion)
ret.promotion = {
"curr": cmpPromotion.GetCurrentXp(),
"req": cmpPromotion.GetRequiredXp()
};
if (!cmpFoundation && cmpIdentity && cmpIdentity.HasClass("Barter"))
ret.isBarterMarket = true;
let cmpHeal = Engine.QueryInterface(ent, IID_Heal);
if (cmpHeal)
ret.heal = {
"health": cmpHeal.GetHealth(),
"range": cmpHeal.GetRange().max,
"interval": cmpHeal.GetInterval(),
"unhealableClasses": cmpHeal.GetUnhealableClasses(),
"healableClasses": cmpHeal.GetHealableClasses()
};
let cmpLoot = Engine.QueryInterface(ent, IID_Loot);
if (cmpLoot)
{
ret.loot = cmpLoot.GetResources();
ret.loot.xp = cmpLoot.GetXp();
}
let cmpResourceTrickle = Engine.QueryInterface(ent, IID_ResourceTrickle);
if (cmpResourceTrickle)
ret.resourceTrickle = {
"interval": cmpResourceTrickle.GetInterval(),
"rates": cmpResourceTrickle.GetRates()
};
let cmpUnitMotion = Engine.QueryInterface(ent, IID_UnitMotion);
if (cmpUnitMotion)
ret.speed = {
"walk": cmpUnitMotion.GetWalkSpeed(),
"run": cmpUnitMotion.GetWalkSpeed() * cmpUnitMotion.GetRunMultiplier()
};
return ret;
};
GuiInterface.prototype.GetMultipleEntityStates = function(player, ents)
{
return ents.map(ent => ({ "entId": ent, "state": this.GetEntityState(player, ent) }));
};
GuiInterface.prototype.GetAverageRangeForBuildings = function(player, cmd)
{
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
let cmpTerrain = Engine.QueryInterface(SYSTEM_ENTITY, IID_Terrain);
let rot = { "x": 0, "y": 0, "z": 0 };
let pos = {
"x": cmd.x,
"y": cmpTerrain.GetGroundLevel(cmd.x, cmd.z),
"z": cmd.z
};
let elevationBonus = cmd.elevationBonus || 0;
let range = cmd.range;
return cmpRangeManager.GetElevationAdaptedRange(pos, rot, range, elevationBonus, 2 * Math.PI);
};
GuiInterface.prototype.GetTemplateData = function(player, data)
{
let templateName = data.templateName;
let owner = data.player !== undefined ? data.player : player;
let cmpTemplateManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_TemplateManager);
let template = cmpTemplateManager.GetTemplate(templateName);
if (!template)
return null;
let aurasTemplate = {};
if (!template.Auras)
return GetTemplateDataHelper(template, owner, aurasTemplate);
let auraNames = template.Auras._string.split(/\s+/);
for (let name of auraNames)
aurasTemplate[name] = AuraTemplates.Get(name);
return GetTemplateDataHelper(template, owner, aurasTemplate);
};
GuiInterface.prototype.IsTechnologyResearched = function(player, data)
{
if (!data.tech)
return true;
let cmpTechnologyManager = QueryPlayerIDInterface(data.player !== undefined ? data.player : player, IID_TechnologyManager);
if (!cmpTechnologyManager)
return false;
return cmpTechnologyManager.IsTechnologyResearched(data.tech);
};
/**
* Checks whether the requirements for this technology have been met.
*/
GuiInterface.prototype.CheckTechnologyRequirements = function(player, data)
{
let cmpTechnologyManager = QueryPlayerIDInterface(data.player !== undefined ? data.player : player, IID_TechnologyManager);
if (!cmpTechnologyManager)
return false;
return cmpTechnologyManager.CanResearch(data.tech);
};
/**
* Returns technologies that are being actively researched, along with
* which entity is researching them and how far along the research is.
*/
GuiInterface.prototype.GetStartedResearch = function(player)
{
let cmpTechnologyManager = QueryPlayerIDInterface(player, IID_TechnologyManager);
if (!cmpTechnologyManager)
return {};
let ret = {};
for (let tech of cmpTechnologyManager.GetStartedTechs())
{
ret[tech] = { "researcher": cmpTechnologyManager.GetResearcher(tech) };
let cmpProductionQueue = Engine.QueryInterface(ret[tech].researcher, IID_ProductionQueue);
if (cmpProductionQueue)
{
ret[tech].progress = cmpProductionQueue.GetQueue()[0].progress;
ret[tech].timeRemaining = cmpProductionQueue.GetQueue()[0].timeRemaining;
}
else
{
ret[tech].progress = 0;
ret[tech].timeRemaining = 0;
}
}
return ret;
};
/**
* Returns the battle state of the player.
*/
GuiInterface.prototype.GetBattleState = function(player)
{
let cmpBattleDetection = QueryPlayerIDInterface(player, IID_BattleDetection);
if (!cmpBattleDetection)
return false;
return cmpBattleDetection.GetState();
};
/**
* Returns a list of ongoing attacks against the player.
*/
GuiInterface.prototype.GetIncomingAttacks = function(player)
{
let cmpAttackDetection = QueryPlayerIDInterface(player, IID_AttackDetection);
if (!cmpAttackDetection)
return [];
return cmpAttackDetection.GetIncomingAttacks();
};
/**
* Used to show a red square over GUI elements you can't yet afford.
*/
GuiInterface.prototype.GetNeededResources = function(player, data)
{
let cmpPlayer = QueryPlayerIDInterface(data.player !== undefined ? data.player : player);
return cmpPlayer ? cmpPlayer.GetNeededResources(data.cost) : {};
};
/**
* State of the templateData (player dependent): true when some template values have been modified
* and need to be reloaded by the gui.
*/
GuiInterface.prototype.OnTemplateModification = function(msg)
{
this.templateModified[msg.player] = true;
this.selectionDirty[msg.player] = true;
};
GuiInterface.prototype.IsTemplateModified = function(player)
{
return this.templateModified[player] || false;
};
GuiInterface.prototype.ResetTemplateModified = function()
{
this.templateModified = {};
};
/**
* Some changes may require an update to the selection panel,
* which is cached for efficiency. Inform the GUI it needs reloading.
*/
GuiInterface.prototype.OnDisabledTemplatesChanged = function(msg)
{
this.selectionDirty[msg.player] = true;
};
GuiInterface.prototype.OnDisabledTechnologiesChanged = function(msg)
{
this.selectionDirty[msg.player] = true;
};
GuiInterface.prototype.SetSelectionDirty = function(player)
{
this.selectionDirty[player] = true;
};
GuiInterface.prototype.IsSelectionDirty = function(player)
{
return this.selectionDirty[player] || false;
};
GuiInterface.prototype.ResetSelectionDirty = function()
{
this.selectionDirty = {};
};
/**
* Add a timed notification.
* Warning: timed notifacations are serialised
* (to also display them on saved games or after a rejoin)
* so they should allways be added and deleted in a deterministic way.
*/
GuiInterface.prototype.AddTimeNotification = function(notification, duration = 10000)
{
let cmpTimer = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer);
notification.endTime = duration + cmpTimer.GetTime();
notification.id = ++this.timeNotificationID;
// Let all players and observers receive the notification by default.
if (!notification.players)
{
notification.players = Engine.QueryInterface(SYSTEM_ENTITY, IID_PlayerManager).GetAllPlayers();
notification.players[0] = -1;
}
this.timeNotifications.push(notification);
this.timeNotifications.sort((n1, n2) => n2.endTime - n1.endTime);
cmpTimer.SetTimeout(this.entity, IID_GuiInterface, "DeleteTimeNotification", duration, this.timeNotificationID);
return this.timeNotificationID;
};
GuiInterface.prototype.DeleteTimeNotification = function(notificationID)
{
this.timeNotifications = this.timeNotifications.filter(n => n.id != notificationID);
};
GuiInterface.prototype.GetTimeNotifications = function(player)
{
let time = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer).GetTime();
// Filter on players and time, since the delete timer might be executed with a delay.
return this.timeNotifications.filter(n => n.players.indexOf(player) != -1 && n.endTime > time);
};
GuiInterface.prototype.PushNotification = function(notification)
{
if (!notification.type || notification.type == "text")
this.AddTimeNotification(notification);
else
this.notifications.push(notification);
};
GuiInterface.prototype.GetNotifications = function()
{
let n = this.notifications;
this.notifications = [];
return n;
};
GuiInterface.prototype.GetAvailableFormations = function(player, wantedPlayer)
{
let cmpPlayer = QueryPlayerIDInterface(wantedPlayer);
if (!cmpPlayer)
return [];
return cmpPlayer.GetFormations();
};
GuiInterface.prototype.GetFormationRequirements = function(player, data)
{
return GetFormationRequirements(data.formationTemplate);
};
GuiInterface.prototype.CanMoveEntsIntoFormation = function(player, data)
{
return CanMoveEntsIntoFormation(data.ents, data.formationTemplate);
};
GuiInterface.prototype.GetFormationInfoFromTemplate = function(player, data)
{
let cmpTemplateManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_TemplateManager);
let template = cmpTemplateManager.GetTemplate(data.templateName);
if (!template || !template.Formation)
return {};
return {
"name": template.Formation.FormationName,
"tooltip": template.Formation.DisabledTooltip || "",
"icon": template.Formation.Icon
};
};
GuiInterface.prototype.IsFormationSelected = function(player, data)
{
return data.ents.some(ent => {
let cmpUnitAI = Engine.QueryInterface(ent, IID_UnitAI);
return cmpUnitAI && cmpUnitAI.GetFormationTemplate() == data.formationTemplate;
});
};
GuiInterface.prototype.IsStanceSelected = function(player, data)
{
for (let ent of data.ents)
{
let cmpUnitAI = Engine.QueryInterface(ent, IID_UnitAI);
if (cmpUnitAI && cmpUnitAI.GetStanceName() == data.stance)
return true;
}
return false;
};
GuiInterface.prototype.GetAllBuildableEntities = function(player, cmd)
{
let buildableEnts = [];
for (let ent of cmd.entities)
{
let cmpBuilder = Engine.QueryInterface(ent, IID_Builder);
if (!cmpBuilder)
continue;
for (let building of cmpBuilder.GetEntitiesList())
if (buildableEnts.indexOf(building) == -1)
buildableEnts.push(building);
}
return buildableEnts;
};
GuiInterface.prototype.UpdateDisplayedPlayerColors = function(player, data)
{
let updateEntityColor = (iids, entities) => {
for (let ent of entities)
for (let iid of iids)
{
let cmp = Engine.QueryInterface(ent, iid);
if (cmp)
cmp.UpdateColor();
}
};
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
let numPlayers = Engine.QueryInterface(SYSTEM_ENTITY, IID_PlayerManager).GetNumPlayers();
for (let i = 1; i < numPlayers; ++i)
{
let cmpPlayer = QueryPlayerIDInterface(i, IID_Player);
if (!cmpPlayer)
continue;
cmpPlayer.SetDisplayDiplomacyColor(data.displayDiplomacyColors);
if (data.displayDiplomacyColors)
cmpPlayer.SetDiplomacyColor(data.displayedPlayerColors[i]);
updateEntityColor(data.showAllStatusBars && (i == player || player == -1) ?
[IID_Minimap, IID_RangeOverlayRenderer, IID_RallyPointRenderer, IID_StatusBars] :
[IID_Minimap, IID_RangeOverlayRenderer, IID_RallyPointRenderer],
cmpRangeManager.GetEntitiesByPlayer(i));
}
updateEntityColor([IID_Selectable, IID_StatusBars], data.selected);
Engine.QueryInterface(SYSTEM_ENTITY, IID_TerritoryManager).UpdateColors();
};
GuiInterface.prototype.SetSelectionHighlight = function(player, cmd)
{
// Cache of owner -> color map
let playerColors = {};
for (let ent of cmd.entities)
{
let cmpSelectable = Engine.QueryInterface(ent, IID_Selectable);
if (!cmpSelectable)
continue;
// Find the entity's owner's color.
let owner = INVALID_PLAYER;
let cmpOwnership = Engine.QueryInterface(ent, IID_Ownership);
if (cmpOwnership)
owner = cmpOwnership.GetOwner();
let color = playerColors[owner];
if (!color)
{
color = { "r": 1, "g": 1, "b": 1 };
let cmpPlayer = QueryPlayerIDInterface(owner);
if (cmpPlayer)
color = cmpPlayer.GetDisplayedColor();
playerColors[owner] = color;
}
cmpSelectable.SetSelectionHighlight({ "r": color.r, "g": color.g, "b": color.b, "a": cmd.alpha }, cmd.selected);
let cmpRangeOverlayManager = Engine.QueryInterface(ent, IID_RangeOverlayManager);
if (!cmpRangeOverlayManager || player != owner && player != INVALID_PLAYER)
continue;
cmpRangeOverlayManager.SetEnabled(cmd.selected, this.enabledVisualRangeOverlayTypes, false);
}
};
GuiInterface.prototype.EnableVisualRangeOverlayType = function(player, data)
{
this.enabledVisualRangeOverlayTypes[data.type] = data.enabled;
};
GuiInterface.prototype.GetEntitiesWithStatusBars = function()
{
return Array.from(this.entsWithAuraAndStatusBars);
};
GuiInterface.prototype.SetStatusBars = function(player, cmd)
{
let affectedEnts = new Set();
for (let ent of cmd.entities)
{
let cmpStatusBars = Engine.QueryInterface(ent, IID_StatusBars);
if (!cmpStatusBars)
continue;
cmpStatusBars.SetEnabled(cmd.enabled, cmd.showRank, cmd.showExperience);
let cmpAuras = Engine.QueryInterface(ent, IID_Auras);
if (!cmpAuras)
continue;
for (let name of cmpAuras.GetAuraNames())
{
if (!cmpAuras.GetOverlayIcon(name))
continue;
for (let e of cmpAuras.GetAffectedEntities(name))
affectedEnts.add(e);
if (cmd.enabled)
this.entsWithAuraAndStatusBars.add(ent);
else
this.entsWithAuraAndStatusBars.delete(ent);
}
}
for (let ent of affectedEnts)
{
let cmpStatusBars = Engine.QueryInterface(ent, IID_StatusBars);
if (cmpStatusBars)
cmpStatusBars.RegenerateSprites();
}
};
GuiInterface.prototype.SetRangeOverlays = function(player, cmd)
{
for (let ent of cmd.entities)
{
let cmpRangeOverlayManager = Engine.QueryInterface(ent, IID_RangeOverlayManager);
if (cmpRangeOverlayManager)
cmpRangeOverlayManager.SetEnabled(cmd.enabled, this.enabledVisualRangeOverlayTypes, true);
}
};
GuiInterface.prototype.GetPlayerEntities = function(player)
{
return Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager).GetEntitiesByPlayer(player);
};
GuiInterface.prototype.GetNonGaiaEntities = function()
{
return Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager).GetNonGaiaEntities();
};
/**
* Displays the rally points of a given list of entities (carried in cmd.entities).
*
* The 'cmd' object may carry its own x/z coordinate pair indicating the location where the rally point should
* be rendered, in order to support instantaneously rendering a rally point marker at a specified location
* instead of incurring a delay while PostNetworkCommand processes the set-rallypoint command (see input.js).
* If cmd doesn't carry a custom location, then the position to render the marker at will be read from the
* RallyPoint component.
*/
GuiInterface.prototype.DisplayRallyPoint = function(player, cmd)
{
let cmpPlayer = QueryPlayerIDInterface(player);
// If there are some rally points already displayed, first hide them.
for (let ent of this.entsRallyPointsDisplayed)
{
let cmpRallyPointRenderer = Engine.QueryInterface(ent, IID_RallyPointRenderer);
if (cmpRallyPointRenderer)
cmpRallyPointRenderer.SetDisplayed(false);
}
this.entsRallyPointsDisplayed = [];
// Show the rally points for the passed entities.
for (let ent of cmd.entities)
{
let cmpRallyPointRenderer = Engine.QueryInterface(ent, IID_RallyPointRenderer);
if (!cmpRallyPointRenderer)
continue;
// Entity must have a rally point component to display a rally point marker
// (regardless of whether cmd specifies a custom location).
let cmpRallyPoint = Engine.QueryInterface(ent, IID_RallyPoint);
if (!cmpRallyPoint)
continue;
// Verify the owner.
let cmpOwnership = Engine.QueryInterface(ent, IID_Ownership);
if (!(cmpPlayer && cmpPlayer.CanControlAllUnits()))
if (!cmpOwnership || cmpOwnership.GetOwner() != player)
continue;
// If the command was passed an explicit position, use that and
// override the real rally point position; otherwise use the real position.
let pos;
if (cmd.x && cmd.z)
pos = cmd;
else
// May return undefined if no rally point is set.
pos = cmpRallyPoint.GetPositions()[0];
if (pos)
{
// Only update the position if we changed it (cmd.queued is set).
// Note that Add-/SetPosition take a CFixedVector2D which has X/Y components, not X/Z.
if ("queued" in cmd)
{
if (cmd.queued == true)
cmpRallyPointRenderer.AddPosition(new Vector2D(pos.x, pos.z));
else
cmpRallyPointRenderer.SetPosition(new Vector2D(pos.x, pos.z));
}
else if (!cmpRallyPointRenderer.IsSet())
// Rebuild the renderer when not set (when reading saved game or in case of building update).
for (let posi of cmpRallyPoint.GetPositions())
cmpRallyPointRenderer.AddPosition(new Vector2D(posi.x, posi.z));
cmpRallyPointRenderer.SetDisplayed(true);
// Remember which entities have their rally points displayed so we can hide them again.
this.entsRallyPointsDisplayed.push(ent);
}
}
};
GuiInterface.prototype.AddTargetMarker = function(player, cmd)
{
let ent = Engine.AddLocalEntity(cmd.template);
if (!ent)
return;
let cmpPosition = Engine.QueryInterface(ent, IID_Position);
cmpPosition.JumpTo(cmd.x, cmd.z);
};
/**
* Display the building placement preview.
* cmd.template is the name of the entity template, or "" to disable the preview.
* cmd.x, cmd.z, cmd.angle give the location.
*
* Returns result object from CheckPlacement:
* {
* "success": true iff the placement is valid, else false
* "message": message to display in UI for invalid placement, else ""
* "parameters": parameters to use in the message
* "translateMessage": localisation info
* "translateParameters": localisation info
* "pluralMessage": we might return a plural translation instead (optional)
* "pluralCount": localisation info (optional)
* }
*/
GuiInterface.prototype.SetBuildingPlacementPreview = function(player, cmd)
{
let result = {
"success": false,
"message": "",
"parameters": {},
"translateMessage": false,
"translateParameters": []
};
if (!this.placementEntity || this.placementEntity[0] != cmd.template)
{
if (this.placementEntity)
Engine.DestroyEntity(this.placementEntity[1]);
if (cmd.template == "")
this.placementEntity = undefined;
else
this.placementEntity = [cmd.template, Engine.AddLocalEntity("preview|" + cmd.template)];
}
if (this.placementEntity)
{
let ent = this.placementEntity[1];
let pos = Engine.QueryInterface(ent, IID_Position);
if (pos)
{
pos.JumpTo(cmd.x, cmd.z);
pos.SetYRotation(cmd.angle);
}
let cmpOwnership = Engine.QueryInterface(ent, IID_Ownership);
cmpOwnership.SetOwner(player);
let cmpBuildRestrictions = Engine.QueryInterface(ent, IID_BuildRestrictions);
if (!cmpBuildRestrictions)
error("cmpBuildRestrictions not defined");
else
result = cmpBuildRestrictions.CheckPlacement();
let cmpRangeOverlayManager = Engine.QueryInterface(ent, IID_RangeOverlayManager);
if (cmpRangeOverlayManager)
cmpRangeOverlayManager.SetEnabled(true, this.enabledVisualRangeOverlayTypes);
// Set it to a red shade if this is an invalid location.
let cmpVisual = Engine.QueryInterface(ent, IID_Visual);
if (cmpVisual)
{
if (cmd.actorSeed !== undefined)
cmpVisual.SetActorSeed(cmd.actorSeed);
if (!result.success)
cmpVisual.SetShadingColor(1.4, 0.4, 0.4, 1);
else
cmpVisual.SetShadingColor(1, 1, 1, 1);
}
}
return result;
};
/**
* Previews the placement of a wall between cmd.start and cmd.end, or just the starting piece of a wall if cmd.end is not
* specified. Returns an object with information about the list of entities that need to be newly constructed to complete
* at least a part of the wall, or false if there are entities required to build at least part of the wall but none of
* them can be validly constructed.
*
* It's important to distinguish between three lists of entities that are at play here, because they may be subsets of one
* another depending on things like snapping and whether some of the entities inside them can be validly positioned.
* We have:
* - The list of entities that previews the wall. This list is usually equal to the entities required to construct the
* entire wall. However, if there is snapping to an incomplete tower (i.e. a foundation), it includes extra entities
* to preview the completed tower on top of its foundation.
*
* - The list of entities that need to be newly constructed to build the entire wall. This list is regardless of whether
* any of them can be validly positioned. The emphasishere here is on 'newly'; this list does not include any existing
* towers at either side of the wall that we snapped to. Or, more generally; it does not include any _entities_ that we
* snapped to; we might still snap to e.g. terrain, in which case the towers on either end will still need to be newly
* constructed.
*
* - The list of entities that need to be newly constructed to build at least a part of the wall. This list is the same
* as the one above, except that it is truncated at the first entity that cannot be validly positioned. This happens
* e.g. if the player tries to build a wall straight through an obstruction. Note that any entities that can be validly
* constructed but come after said first invalid entity are also truncated away.
*
* With this in mind, this method will return false if the second list is not empty, but the third one is. That is, if there
* were entities that are needed to build the wall, but none of them can be validly constructed. False is also returned in
* case of unexpected errors (typically missing components), and when clearing the preview by passing an empty wallset
* argument (see below). Otherwise, it will return an object with the following information:
*
* result: {
* 'startSnappedEnt': ID of the entity that we snapped to at the starting side of the wall. Currently only supports towers.
* 'endSnappedEnt': ID of the entity that we snapped to at the (possibly truncated) ending side of the wall. Note that this
* can only be set if no truncation of the second list occurs; if we snapped to an entity at the ending side
* but the wall construction was truncated before we could reach it, it won't be set here. Currently only
* supports towers.
* 'pieces': Array with the following data for each of the entities in the third list:
* [{
* 'template': Template name of the entity.
* 'x': X coordinate of the entity's position.
* 'z': Z coordinate of the entity's position.
* 'angle': Rotation around the Y axis of the entity (in radians).
* },
* ...]
* 'cost': { The total cost required for constructing all the pieces as listed above.
* 'food': ...,
* 'wood': ...,
* 'stone': ...,
* 'metal': ...,
* 'population': ...,
* 'populationBonus': ...,
* }
* }
*
* @param cmd.wallSet Object holding the set of wall piece template names. Set to an empty value to clear the preview.
* @param cmd.start Starting point of the wall segment being created.
* @param cmd.end (Optional) Ending point of the wall segment being created. If not defined, it is understood that only
* the starting point of the wall is available at this time (e.g. while the player is still in the process
* of picking a starting point), and that therefore only the first entity in the wall (a tower) should be
* previewed.
* @param cmd.snapEntities List of candidate entities to snap the start and ending positions to.
*/
GuiInterface.prototype.SetWallPlacementPreview = function(player, cmd)
{
let wallSet = cmd.wallSet;
// Did the start position snap to anything?
// If we snapped, was it to an entity? If yes, hold that entity's ID.
let start = {
"pos": cmd.start,
"angle": 0,
"snapped": false,
"snappedEnt": INVALID_ENTITY
};
// Did the end position snap to anything?
// If we snapped, was it to an entity? If yes, hold that entity's ID.
let end = {
"pos": cmd.end,
"angle": 0,
"snapped": false,
"snappedEnt": INVALID_ENTITY
};
// --------------------------------------------------------------------------------
// Do some entity cache management and check for snapping.
if (!this.placementWallEntities)
this.placementWallEntities = {};
if (!wallSet)
{
// We're clearing the preview, clear the entity cache and bail.
for (let tpl in this.placementWallEntities)
{
for (let ent of this.placementWallEntities[tpl].entities)
Engine.DestroyEntity(ent);
this.placementWallEntities[tpl].numUsed = 0;
this.placementWallEntities[tpl].entities = [];
// Keep template data around.
}
return false;
}
for (let tpl in this.placementWallEntities)
{
for (let ent of this.placementWallEntities[tpl].entities)
{
let pos = Engine.QueryInterface(ent, IID_Position);
if (pos)
pos.MoveOutOfWorld();
}
this.placementWallEntities[tpl].numUsed = 0;
}
// Create cache entries for templates we haven't seen before.
for (let type in wallSet.templates)
{
if (type == "curves")
continue;
let tpl = wallSet.templates[type];
if (!(tpl in this.placementWallEntities))
{
this.placementWallEntities[tpl] = {
"numUsed": 0,
"entities": [],
"templateData": this.GetTemplateData(player, { "templateName": tpl }),
};
if (!this.placementWallEntities[tpl].templateData.wallPiece)
{
error("[SetWallPlacementPreview] No WallPiece component found for wall set template '" + tpl + "'");
return false;
}
}
}
// Prevent division by zero errors further on if the start and end positions are the same.
if (end.pos && (start.pos.x === end.pos.x && start.pos.z === end.pos.z))
end.pos = undefined;
// See if we need to snap the start and/or end coordinates to any of our list of snap entities. Note that, despite the list
// of snapping candidate entities, it might still snap to e.g. terrain features. Use the "ent" key in the returned snapping
// data to determine whether it snapped to an entity (if any), and to which one (see GetFoundationSnapData).
if (cmd.snapEntities)
{
// Value of 0.5 was determined through trial and error.
let snapRadius = this.placementWallEntities[wallSet.templates.tower].templateData.wallPiece.length * 0.5;
let startSnapData = this.GetFoundationSnapData(player, {
"x": start.pos.x,
"z": start.pos.z,
"template": wallSet.templates.tower,
"snapEntities": cmd.snapEntities,
"snapRadius": snapRadius,
});
if (startSnapData)
{
start.pos.x = startSnapData.x;
start.pos.z = startSnapData.z;
start.angle = startSnapData.angle;
start.snapped = true;
if (startSnapData.ent)
start.snappedEnt = startSnapData.ent;
}
if (end.pos)
{
let endSnapData = this.GetFoundationSnapData(player, {
"x": end.pos.x,
"z": end.pos.z,
"template": wallSet.templates.tower,
"snapEntities": cmd.snapEntities,
"snapRadius": snapRadius,
});
if (endSnapData)
{
end.pos.x = endSnapData.x;
end.pos.z = endSnapData.z;
end.angle = endSnapData.angle;
end.snapped = true;
if (endSnapData.ent)
end.snappedEnt = endSnapData.ent;
}
}
}
// Clear the single-building preview entity (we'll be rolling our own).
this.SetBuildingPlacementPreview(player, { "template": "" });
// --------------------------------------------------------------------------------
// Calculate wall placement and position preview entities.
let result = {
"pieces": [],
"cost": { "population": 0, "populationBonus": 0, "time": 0 }
};
for (let res of Resources.GetCodes())
result.cost[res] = 0;
let previewEntities = [];
if (end.pos)
// See helpers/Walls.js.
previewEntities = GetWallPlacement(this.placementWallEntities, wallSet, start, end);
// For wall placement, we may (and usually do) need to have wall pieces overlap each other more than would
// otherwise be allowed by their obstruction shapes. However, during this preview phase, this is not so much of
// an issue, because all preview entities have their obstruction components deactivated, meaning that their
// obstruction shapes do not register in the simulation and hence cannot affect it. This implies that the preview
// entities cannot be found to obstruct each other, which largely solves the issue of overlap between wall pieces.
// Note that they will still be obstructed by existing shapes in the simulation (that have the BLOCK_FOUNDATION
// flag set), which is what we want. The only exception to this is when snapping to existing towers (or
// foundations thereof); the wall segments that connect up to these will be found to be obstructed by the
// existing tower/foundation, and be shaded red to indicate that they cannot be placed there. To prevent this,
// we manually set the control group of the outermost wall pieces equal to those of the snapped-to towers, so
// that they are free from mutual obstruction (per definition of obstruction control groups). This is done by
// assigning them an extra "controlGroup" field, which we'll then set during the placement loop below.
// Additionally, in the situation that we're snapping to merely a foundation of a tower instead of a fully
// constructed one, we'll need an extra preview entity for the starting tower, which also must not be obstructed
// by the foundation it snaps to.
if (start.snappedEnt && start.snappedEnt != INVALID_ENTITY)
{
let startEntObstruction = Engine.QueryInterface(start.snappedEnt, IID_Obstruction);
if (previewEntities.length && startEntObstruction)
previewEntities[0].controlGroups = [startEntObstruction.GetControlGroup()];
// If we're snapping to merely a foundation, add an extra preview tower and also set it to the same control group.
let startEntState = this.GetEntityState(player, start.snappedEnt);
if (startEntState.foundation)
{
let cmpPosition = Engine.QueryInterface(start.snappedEnt, IID_Position);
if (cmpPosition)
previewEntities.unshift({
"template": wallSet.templates.tower,
"pos": start.pos,
"angle": cmpPosition.GetRotation().y,
"controlGroups": [startEntObstruction ? startEntObstruction.GetControlGroup() : undefined],
"excludeFromResult": true // Preview only, must not appear in the result.
});
}
}
else
{
// Didn't snap to an existing entity, add the starting tower manually. To prevent odd-looking rotation jumps
// when shift-clicking to build a wall, reuse the placement angle that was last seen on a validly positioned
// wall piece.
// To illustrate the last point, consider what happens if we used some constant instead, say, 0. Issuing the
// build command for a wall is asynchronous, so when the preview updates after shift-clicking, the wall piece
// foundations are not registered yet in the simulation. This means they cannot possibly be picked in the list
// of candidate entities for snapping. In the next preview update, we therefore hit this case, and would rotate
// the preview to 0 radians. Then, after one or two simulation updates or so, the foundations register and
// onSimulationUpdate in session.js updates the preview again. It first grabs a new list of snapping candidates,
// which this time does include the new foundations; so we snap to the entity, and rotate the preview back to
// the foundation's angle.
// The result is a noticeable rotation to 0 and back, which is undesirable. So, for a split second there until
// the simulation updates, we fake it by reusing the last angle and hope the player doesn't notice.
previewEntities.unshift({
"template": wallSet.templates.tower,
"pos": start.pos,
"angle": previewEntities.length ? previewEntities[0].angle : this.placementWallLastAngle
});
}
if (end.pos)
{
// Analogous to the starting side case above.
if (end.snappedEnt && end.snappedEnt != INVALID_ENTITY)
{
let endEntObstruction = Engine.QueryInterface(end.snappedEnt, IID_Obstruction);
// Note that it's possible for the last entity in previewEntities to be the same as the first, i.e. the
// same wall piece snapping to both a starting and an ending tower. And it might be more common than you would
// expect; the allowed overlap between wall segments and towers facilitates this to some degree. To deal with
// the possibility of dual initial control groups, we use a '.controlGroups' array rather than a single
// '.controlGroup' property. Note that this array can only ever have 0, 1 or 2 elements (checked at a later time).
if (previewEntities.length > 0 && endEntObstruction)
{
previewEntities[previewEntities.length - 1].controlGroups = previewEntities[previewEntities.length - 1].controlGroups || [];
previewEntities[previewEntities.length - 1].controlGroups.push(endEntObstruction.GetControlGroup());
}
// If we're snapping to a foundation, add an extra preview tower and also set it to the same control group.
let endEntState = this.GetEntityState(player, end.snappedEnt);
if (endEntState.foundation)
{
let cmpPosition = Engine.QueryInterface(end.snappedEnt, IID_Position);
if (cmpPosition)
previewEntities.push({
"template": wallSet.templates.tower,
"pos": end.pos,
"angle": cmpPosition.GetRotation().y,
"controlGroups": [endEntObstruction ? endEntObstruction.GetControlGroup() : undefined],
"excludeFromResult": true
});
}
}
else
previewEntities.push({
"template": wallSet.templates.tower,
"pos": end.pos,
"angle": previewEntities.length ? previewEntities[previewEntities.length - 1].angle : this.placementWallLastAngle
});
}
let cmpTerrain = Engine.QueryInterface(SYSTEM_ENTITY, IID_Terrain);
if (!cmpTerrain)
{
error("[SetWallPlacementPreview] System Terrain component not found");
return false;
}
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (!cmpRangeManager)
{
error("[SetWallPlacementPreview] System RangeManager component not found");
return false;
}
// Loop through the preview entities, and construct the subset of them that need to be, and can be, validly constructed
// to build at least a part of the wall (meaning that the subset is truncated after the first entity that needs to be,
// but cannot validly be, constructed). See method-level documentation for more details.
let allPiecesValid = true;
// Number of entities that are required to build the entire wall, regardless of validity.
let numRequiredPieces = 0;
for (let i = 0; i < previewEntities.length; ++i)
{
let entInfo = previewEntities[i];
let ent = null;
let tpl = entInfo.template;
let tplData = this.placementWallEntities[tpl].templateData;
let entPool = this.placementWallEntities[tpl];
if (entPool.numUsed >= entPool.entities.length)
{
ent = Engine.AddLocalEntity("preview|" + tpl);
entPool.entities.push(ent);
}
else
ent = entPool.entities[entPool.numUsed];
if (!ent)
{
error("[SetWallPlacementPreview] Failed to allocate or reuse preview entity of template '" + tpl + "'");
continue;
}
// Move piece to right location.
// TODO: Consider reusing SetBuildingPlacementReview for this, enhanced to be able to deal with multiple entities.
let cmpPosition = Engine.QueryInterface(ent, IID_Position);
if (cmpPosition)
{
cmpPosition.JumpTo(entInfo.pos.x, entInfo.pos.z);
cmpPosition.SetYRotation(entInfo.angle);
// If this piece is a tower, then it should have a Y position that is at least as high as its surrounding pieces.
if (tpl === wallSet.templates.tower)
{
let terrainGroundPrev = null;
let terrainGroundNext = null;
if (i > 0)
terrainGroundPrev = cmpTerrain.GetGroundLevel(previewEntities[i - 1].pos.x, previewEntities[i - 1].pos.z);
if (i < previewEntities.length - 1)
terrainGroundNext = cmpTerrain.GetGroundLevel(previewEntities[i + 1].pos.x, previewEntities[i + 1].pos.z);
if (terrainGroundPrev != null || terrainGroundNext != null)
{
let targetY = Math.max(terrainGroundPrev, terrainGroundNext);
cmpPosition.SetHeightFixed(targetY);
}
}
}
let cmpObstruction = Engine.QueryInterface(ent, IID_Obstruction);
if (!cmpObstruction)
{
error("[SetWallPlacementPreview] Preview entity of template '" + tpl + "' does not have an Obstruction component");
continue;
}
// Assign any predefined control groups. Note that there can only be 0, 1 or 2 predefined control groups; if there are
// more, we've made a programming error. The control groups are assigned from the entInfo.controlGroups array on a
// first-come first-served basis; the first value in the array is always assigned as the primary control group, and
// any second value as the secondary control group.
// By default, we reset the control groups to their standard values. Remember that we're reusing entities; if we don't
// reset them, then an ending wall segment that was e.g. at one point snapped to an existing tower, and is subsequently
// reused as a non-snapped ending wall segment, would no longer be capable of being obstructed by the same tower it was
// once snapped to.
let primaryControlGroup = ent;
let secondaryControlGroup = INVALID_ENTITY;
if (entInfo.controlGroups && entInfo.controlGroups.length > 0)
{
if (entInfo.controlGroups.length > 2)
{
error("[SetWallPlacementPreview] Encountered preview entity of template '" + tpl + "' with more than 2 initial control groups");
break;
}
primaryControlGroup = entInfo.controlGroups[0];
if (entInfo.controlGroups.length > 1)
secondaryControlGroup = entInfo.controlGroups[1];
}
cmpObstruction.SetControlGroup(primaryControlGroup);
cmpObstruction.SetControlGroup2(secondaryControlGroup);
let validPlacement = false;
let cmpOwnership = Engine.QueryInterface(ent, IID_Ownership);
cmpOwnership.SetOwner(player);
// Check whether it's in a visible or fogged region.
// TODO: Should definitely reuse SetBuildingPlacementPreview, this is just straight up copy/pasta.
let visible = cmpRangeManager.GetLosVisibility(ent, player) != "hidden";
if (visible)
{
let cmpBuildRestrictions = Engine.QueryInterface(ent, IID_BuildRestrictions);
if (!cmpBuildRestrictions)
{
error("[SetWallPlacementPreview] cmpBuildRestrictions not defined for preview entity of template '" + tpl + "'");
continue;
}
// TODO: Handle results of CheckPlacement.
validPlacement = cmpBuildRestrictions && cmpBuildRestrictions.CheckPlacement().success;
// If a wall piece has two control groups, it's likely a segment that spans
// between two existing towers. To avoid placing a duplicate wall segment,
// check for collisions with entities that share both control groups.
if (validPlacement && entInfo.controlGroups && entInfo.controlGroups.length > 1)
validPlacement = cmpObstruction.CheckDuplicateFoundation();
}
allPiecesValid = allPiecesValid && validPlacement;
// The requirement below that all pieces so far have to have valid positions, rather than only this single one,
// ensures that no more foundations will be placed after a first invalidly-positioned piece. (It is possible
// for pieces past some invalidly-positioned ones to still have valid positions, e.g. if you drag a wall
// through and past an existing building).
// Additionally, the excludeFromResult flag is set for preview entities that were manually added to be placed
// on top of foundations of incompleted towers that we snapped to; they must not be part of the result.
if (!entInfo.excludeFromResult)
++numRequiredPieces;
if (allPiecesValid && !entInfo.excludeFromResult)
{
result.pieces.push({
"template": tpl,
"x": entInfo.pos.x,
"z": entInfo.pos.z,
"angle": entInfo.angle,
});
this.placementWallLastAngle = entInfo.angle;
// Grab the cost of this wall piece and add it up (note; preview entities don't have their Cost components
// copied over, so we need to fetch it from the template instead).
// TODO: We should really use a Cost object or at least some utility functions for this, this is mindless
// boilerplate that's probably duplicated in tons of places.
for (let res of Resources.GetCodes().concat(["population", "populationBonus", "time"]))
result.cost[res] += tplData.cost[res];
}
let canAfford = true;
let cmpPlayer = QueryPlayerIDInterface(player, IID_Player);
if (cmpPlayer && cmpPlayer.GetNeededResources(result.cost))
canAfford = false;
let cmpVisual = Engine.QueryInterface(ent, IID_Visual);
if (cmpVisual)
{
if (!allPiecesValid || !canAfford)
cmpVisual.SetShadingColor(1.4, 0.4, 0.4, 1);
else
cmpVisual.SetShadingColor(1, 1, 1, 1);
}
++entPool.numUsed;
}
// If any were entities required to build the wall, but none of them could be validly positioned, return failure
// (see method-level documentation).
if (numRequiredPieces > 0 && result.pieces.length == 0)
return false;
if (start.snappedEnt && start.snappedEnt != INVALID_ENTITY)
result.startSnappedEnt = start.snappedEnt;
// We should only return that we snapped to an entity if all pieces up until that entity can be validly constructed,
// i.e. are included in result.pieces (see docs for the result object).
if (end.pos && end.snappedEnt && end.snappedEnt != INVALID_ENTITY && allPiecesValid)
result.endSnappedEnt = end.snappedEnt;
return result;
};
/**
* Given the current position {data.x, data.z} of an foundation of template data.template, returns the position and angle to snap
* it to (if necessary/useful).
*
* @param data.x The X position of the foundation to snap.
* @param data.z The Z position of the foundation to snap.
* @param data.template The template to get the foundation snapping data for.
* @param data.snapEntities Optional; list of entity IDs to snap to if {data.x, data.z} is within a circle of radius data.snapRadius
* around the entity. Only takes effect when used in conjunction with data.snapRadius.
* When this option is used and the foundation is found to snap to one of the entities passed in this list
* (as opposed to e.g. snapping to terrain features), then the result will contain an additional key "ent",
* holding the ID of the entity that was snapped to.
* @param data.snapRadius Optional; when used in conjunction with data.snapEntities, indicates the circle radius around an entity that
* {data.x, data.z} must be located within to have it snap to that entity.
*/
GuiInterface.prototype.GetFoundationSnapData = function(player, data)
{
let template = Engine.QueryInterface(SYSTEM_ENTITY, IID_TemplateManager).GetTemplate(data.template);
if (!template)
{
warn("[GetFoundationSnapData] Failed to load template '" + data.template + "'");
return false;
}
if (data.snapEntities && data.snapRadius && data.snapRadius > 0)
{
// See if {data.x, data.z} is inside the snap radius of any of the snap entities; and if so, to which it is closest.
// (TODO: Break unlikely ties by choosing the lowest entity ID.)
let minDist2 = -1;
let minDistEntitySnapData = null;
let radius2 = data.snapRadius * data.snapRadius;
for (let ent of data.snapEntities)
{
let cmpPosition = Engine.QueryInterface(ent, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
continue;
let pos = cmpPosition.GetPosition();
let dist2 = (data.x - pos.x) * (data.x - pos.x) + (data.z - pos.z) * (data.z - pos.z);
if (dist2 > radius2)
continue;
if (minDist2 < 0 || dist2 < minDist2)
{
minDist2 = dist2;
minDistEntitySnapData = {
"x": pos.x,
"z": pos.z,
"angle": cmpPosition.GetRotation().y,
"ent": ent
};
}
}
if (minDistEntitySnapData != null)
return minDistEntitySnapData;
}
if (data.snapToEdges)
{
let position = this.obstructionSnap.getPosition(data, template);
if (position)
return position;
}
if (template.BuildRestrictions.PlacementType == "shore")
{
let angle = GetDockAngle(template, data.x, data.z);
if (angle !== undefined)
return {
"x": data.x,
"z": data.z,
"angle": angle
};
}
return false;
};
GuiInterface.prototype.PlaySound = function(player, data)
{
if (!data.entity)
return;
PlaySound(data.name, data.entity);
};
/**
* Find any idle units.
*
* @param data.idleClasses Array of class names to include.
* @param data.prevUnit The previous idle unit, if calling a second time to iterate through units. May be left undefined.
* @param data.limit The number of idle units to return. May be left undefined (will return all idle units).
* @param data.excludeUnits Array of units to exclude.
*
* Returns an array of idle units.
* If multiple classes were supplied, and multiple items will be returned, the items will be sorted by class.
*/
GuiInterface.prototype.FindIdleUnits = function(player, data)
{
let idleUnits = [];
// The general case is that only the 'first' idle unit is required; filtering would examine every unit.
// This loop imitates a grouping/aggregation on the first matching idle class.
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
for (let entity of cmpRangeManager.GetEntitiesByPlayer(player))
{
let filtered = this.IdleUnitFilter(entity, data.idleClasses, data.excludeUnits);
if (!filtered.idle)
continue;
// If the entity is in the 'current' (first, 0) bucket on a resumed search, it must be after the "previous" unit, if any.
// By adding to the 'end', there is no pause if the series of units loops.
let bucket = filtered.bucket;
if (bucket == 0 && data.prevUnit && entity <= data.prevUnit)
bucket = data.idleClasses.length;
if (!idleUnits[bucket])
idleUnits[bucket] = [];
idleUnits[bucket].push(entity);
// If enough units have been collected in the first bucket, go ahead and return them.
if (data.limit && bucket == 0 && idleUnits[0].length == data.limit)
return idleUnits[0];
}
let reduced = idleUnits.reduce((prev, curr) => prev.concat(curr), []);
if (data.limit && reduced.length > data.limit)
return reduced.slice(0, data.limit);
return reduced;
};
/**
* Discover if the player has idle units.
*
* @param data.idleClasses Array of class names to include.
* @param data.excludeUnits Array of units to exclude.
*
* Returns a boolean of whether the player has any idle units
*/
GuiInterface.prototype.HasIdleUnits = function(player, data)
{
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
return cmpRangeManager.GetEntitiesByPlayer(player).some(unit => this.IdleUnitFilter(unit, data.idleClasses, data.excludeUnits).idle);
};
/**
* Whether to filter an idle unit
*
* @param unit The unit to filter.
* @param idleclasses Array of class names to include.
* @param excludeUnits Array of units to exclude.
*
* Returns an object with the following fields:
* - idle - true if the unit is considered idle by the filter, false otherwise.
* - bucket - if idle, set to the index of the first matching idle class, undefined otherwise.
*/
GuiInterface.prototype.IdleUnitFilter = function(unit, idleClasses, excludeUnits)
{
let cmpUnitAI = Engine.QueryInterface(unit, IID_UnitAI);
if (!cmpUnitAI || !cmpUnitAI.IsIdle() || cmpUnitAI.IsGarrisoned())
return { "idle": false };
let cmpIdentity = Engine.QueryInterface(unit, IID_Identity);
if (!cmpIdentity)
return { "idle": false };
let bucket = idleClasses.findIndex(elem => MatchesClassList(cmpIdentity.GetClassesList(), elem));
if (bucket == -1 || excludeUnits.indexOf(unit) > -1)
return { "idle": false };
return { "idle": true, "bucket": bucket };
};
GuiInterface.prototype.GetTradingRouteGain = function(player, data)
{
if (!data.firstMarket || !data.secondMarket)
return null;
return CalculateTraderGain(data.firstMarket, data.secondMarket, data.template);
};
GuiInterface.prototype.GetTradingDetails = function(player, data)
{
let cmpEntityTrader = Engine.QueryInterface(data.trader, IID_Trader);
if (!cmpEntityTrader || !cmpEntityTrader.CanTrade(data.target))
return null;
let firstMarket = cmpEntityTrader.GetFirstMarket();
let secondMarket = cmpEntityTrader.GetSecondMarket();
let result = null;
if (data.target === firstMarket)
{
result = {
"type": "is first",
"hasBothMarkets": cmpEntityTrader.HasBothMarkets()
};
if (cmpEntityTrader.HasBothMarkets())
result.gain = cmpEntityTrader.GetGoods().amount;
}
else if (data.target === secondMarket)
result = {
"type": "is second",
"gain": cmpEntityTrader.GetGoods().amount,
};
else if (!firstMarket)
result = { "type": "set first" };
else if (!secondMarket)
result = {
"type": "set second",
"gain": cmpEntityTrader.CalculateGain(firstMarket, data.target),
};
else
result = { "type": "set first" };
return result;
};
GuiInterface.prototype.CanAttack = function(player, data)
{
let cmpAttack = Engine.QueryInterface(data.entity, IID_Attack);
return cmpAttack && cmpAttack.CanAttack(data.target, data.types || undefined);
};
/*
* Returns batch build time.
*/
GuiInterface.prototype.GetBatchTime = function(player, data)
{
let cmpProductionQueue = Engine.QueryInterface(data.entity, IID_ProductionQueue);
if (!cmpProductionQueue)
return 0;
return cmpProductionQueue.GetBatchTime(data.batchSize);
};
GuiInterface.prototype.IsMapRevealed = function(player)
{
return Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager).GetLosRevealAll(player);
};
GuiInterface.prototype.SetPathfinderDebugOverlay = function(player, enabled)
{
Engine.QueryInterface(SYSTEM_ENTITY, IID_Pathfinder).SetDebugOverlay(enabled);
};
GuiInterface.prototype.SetPathfinderHierDebugOverlay = function(player, enabled)
{
Engine.QueryInterface(SYSTEM_ENTITY, IID_Pathfinder).SetHierDebugOverlay(enabled);
};
GuiInterface.prototype.SetObstructionDebugOverlay = function(player, enabled)
{
Engine.QueryInterface(SYSTEM_ENTITY, IID_ObstructionManager).SetDebugOverlay(enabled);
};
GuiInterface.prototype.SetMotionDebugOverlay = function(player, data)
{
for (let ent of data.entities)
{
let cmpUnitMotion = Engine.QueryInterface(ent, IID_UnitMotion);
if (cmpUnitMotion)
cmpUnitMotion.SetDebugOverlay(data.enabled);
}
};
GuiInterface.prototype.SetRangeDebugOverlay = function(player, enabled)
{
Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager).SetDebugOverlay(enabled);
};
GuiInterface.prototype.GetTraderNumber = function(player)
{
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
let traders = cmpRangeManager.GetEntitiesByPlayer(player).filter(e => Engine.QueryInterface(e, IID_Trader));
let landTrader = { "total": 0, "trading": 0, "garrisoned": 0 };
let shipTrader = { "total": 0, "trading": 0 };
for (let ent of traders)
{
let cmpIdentity = Engine.QueryInterface(ent, IID_Identity);
let cmpUnitAI = Engine.QueryInterface(ent, IID_UnitAI);
if (!cmpIdentity || !cmpUnitAI)
continue;
if (cmpIdentity.HasClass("Ship"))
{
++shipTrader.total;
if (cmpUnitAI.order && cmpUnitAI.order.type == "Trade")
++shipTrader.trading;
}
else
{
++landTrader.total;
if (cmpUnitAI.order && cmpUnitAI.order.type == "Trade")
++landTrader.trading;
if (cmpUnitAI.order && cmpUnitAI.order.type == "Garrison")
{
let holder = cmpUnitAI.order.data.target;
let cmpHolderUnitAI = Engine.QueryInterface(holder, IID_UnitAI);
if (cmpHolderUnitAI && cmpHolderUnitAI.order && cmpHolderUnitAI.order.type == "Trade")
++landTrader.garrisoned;
}
}
}
return { "landTrader": landTrader, "shipTrader": shipTrader };
};
GuiInterface.prototype.GetTradingGoods = function(player)
{
let cmpPlayer = QueryPlayerIDInterface(player);
if (!cmpPlayer)
return [];
return cmpPlayer.GetTradingGoods();
};
GuiInterface.prototype.OnGlobalEntityRenamed = function(msg)
{
this.renamedEntities.push(msg);
};
/**
* List the GuiInterface functions that can be safely called by GUI scripts.
* (GUI scripts are non-deterministic and untrusted, so these functions must be
* appropriately careful. They are called with a first argument "player", which is
* trusted and indicates the player associated with the current client; no data should
* be returned unless this player is meant to be able to see it.)
*/
let exposedFunctions = {
"GetSimulationState": 1,
"GetExtendedSimulationState": 1,
"GetInitAttributes": 1,
"GetReplayMetadata": 1,
"GetRenamedEntities": 1,
"ClearRenamedEntities": 1,
"GetEntityState": 1,
"GetMultipleEntityStates": 1,
"GetAverageRangeForBuildings": 1,
"GetTemplateData": 1,
"IsTechnologyResearched": 1,
"CheckTechnologyRequirements": 1,
"GetStartedResearch": 1,
"GetBattleState": 1,
"GetIncomingAttacks": 1,
"GetNeededResources": 1,
"GetNotifications": 1,
"GetTimeNotifications": 1,
"GetAvailableFormations": 1,
"GetFormationRequirements": 1,
"CanMoveEntsIntoFormation": 1,
"IsFormationSelected": 1,
"GetFormationInfoFromTemplate": 1,
"IsStanceSelected": 1,
"UpdateDisplayedPlayerColors": 1,
"SetSelectionHighlight": 1,
"GetAllBuildableEntities": 1,
"SetStatusBars": 1,
"GetPlayerEntities": 1,
"GetNonGaiaEntities": 1,
"DisplayRallyPoint": 1,
"AddTargetMarker": 1,
"SetBuildingPlacementPreview": 1,
"SetWallPlacementPreview": 1,
"GetFoundationSnapData": 1,
"PlaySound": 1,
"FindIdleUnits": 1,
"HasIdleUnits": 1,
"GetTradingRouteGain": 1,
"GetTradingDetails": 1,
"CanAttack": 1,
"GetBatchTime": 1,
"IsMapRevealed": 1,
"SetPathfinderDebugOverlay": 1,
"SetPathfinderHierDebugOverlay": 1,
"SetObstructionDebugOverlay": 1,
"SetMotionDebugOverlay": 1,
"SetRangeDebugOverlay": 1,
"EnableVisualRangeOverlayType": 1,
"SetRangeOverlays": 1,
"GetTraderNumber": 1,
"GetTradingGoods": 1,
"IsTemplateModified": 1,
"ResetTemplateModified": 1,
"IsSelectionDirty": 1,
"ResetSelectionDirty": 1
};
GuiInterface.prototype.ScriptCall = function(player, name, args)
{
if (exposedFunctions[name])
return this[name](player, args);
throw new Error("Invalid GuiInterface Call name \"" + name + "\"");
};
Engine.RegisterSystemComponentType(IID_GuiInterface, "GuiInterface", GuiInterface);
Index: ps/trunk/binaries/data/mods/public/simulation/components/Player.js
===================================================================
--- ps/trunk/binaries/data/mods/public/simulation/components/Player.js (revision 24356)
+++ ps/trunk/binaries/data/mods/public/simulation/components/Player.js (revision 24357)
@@ -1,947 +1,970 @@
function Player() {}
Player.prototype.Schema =
"" +
"" +
"" +
Resources.BuildSchema("positiveDecimal") +
"" +
"" +
Resources.BuildSchema("positiveDecimal") +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"";
/**
* Don't serialize diplomacyColor or displayDiplomacyColor since they're modified by the GUI.
*/
Player.prototype.Serialize = function()
{
let state = {};
for (let key in this)
if (this.hasOwnProperty(key))
state[key] = this[key];
state.diplomacyColor = undefined;
state.displayDiplomacyColor = false;
return state;
};
/**
* Which units will be shown with special icons at the top.
*/
var panelEntityClasses = "Hero Relic";
Player.prototype.Init = function()
{
this.playerID = undefined;
this.name = undefined; // Define defaults elsewhere (supporting other languages).
this.civ = undefined;
this.color = undefined;
this.diplomacyColor = undefined;
this.displayDiplomacyColor = false;
this.popUsed = 0; // Population of units owned or trained by this player.
this.popBonuses = 0; // Sum of population bonuses of player's entities.
this.maxPop = 300; // Maximum population.
this.trainingBlocked = false; // Indicates whether any training queue is currently blocked.
this.resourceCount = {};
+ this.resourceGatherers = {};
this.tradingGoods = []; // Goods for next trade-route and its probabilities * 100.
this.team = -1; // Team number of the player, players on the same team will always have ally diplomatic status. Also this is useful for team emblems, scoring, etc.
this.teamsLocked = false;
this.state = "active"; // Game state. One of "active", "defeated", "won".
this.diplomacy = []; // Array of diplomatic stances for this player with respect to other players (including gaia and self).
this.sharedDropsites = false;
this.formations = [];
this.startCam = undefined;
this.controlAllUnits = false;
this.isAI = false;
this.cheatsEnabled = false;
this.panelEntities = [];
this.resourceNames = {};
this.disabledTemplates = {};
this.disabledTechnologies = {};
this.startingTechnologies = [];
this.spyCostMultiplier = +this.template.SpyCostMultiplier;
this.barterEntities = [];
this.barterMultiplier = {
"buy": clone(this.template.BarterMultiplier.Buy),
"sell": clone(this.template.BarterMultiplier.Sell)
};
// Initial resources.
let resCodes = Resources.GetCodes();
for (let res of resCodes)
{
this.resourceCount[res] = 300;
this.resourceNames[res] = Resources.GetResource(res).name;
+ this.resourceGatherers[res] = 0;
}
// Trading goods probability in steps of 5.
let resTradeCodes = Resources.GetTradableCodes();
let quotient = Math.floor(20 / resTradeCodes.length);
let remainder = 20 % resTradeCodes.length;
for (let i in resTradeCodes)
this.tradingGoods.push({
"goods": resTradeCodes[i],
"proba": 5 * (quotient + (+i < remainder ? 1 : 0))
});
};
Player.prototype.SetPlayerID = function(id)
{
this.playerID = id;
};
Player.prototype.GetPlayerID = function()
{
return this.playerID;
};
Player.prototype.SetName = function(name)
{
this.name = name;
};
Player.prototype.GetName = function()
{
return this.name;
};
Player.prototype.SetCiv = function(civcode)
{
let oldCiv = this.civ;
this.civ = civcode;
// Normally, the civ is only set once. But in Atlas, map designers can change civs at any time.
if (oldCiv && this.playerID && oldCiv != civcode)
Engine.BroadcastMessage(MT_CivChanged, {
"player": this.playerID,
"from": oldCiv,
"to": civcode
});
};
Player.prototype.GetCiv = function()
{
return this.civ;
};
Player.prototype.SetColor = function(r, g, b)
{
let colorInitialized = !!this.color;
this.color = { "r": r / 255, "g": g / 255, "b": b / 255, "a": 1 };
// Used in Atlas.
if (colorInitialized)
Engine.BroadcastMessage(MT_PlayerColorChanged, {
"player": this.playerID
});
};
Player.prototype.SetDiplomacyColor = function(color)
{
this.diplomacyColor = { "r": color.r / 255, "g": color.g / 255, "b": color.b / 255, "a": 1 };
};
Player.prototype.SetDisplayDiplomacyColor = function(displayDiplomacyColor)
{
this.displayDiplomacyColor = displayDiplomacyColor;
};
Player.prototype.GetColor = function()
{
return this.color;
};
Player.prototype.GetDisplayedColor = function()
{
return this.displayDiplomacyColor ? this.diplomacyColor : this.color;
};
// Try reserving num population slots. Returns 0 on success or number of missing slots otherwise.
Player.prototype.TryReservePopulationSlots = function(num)
{
if (num != 0 && num > (this.GetPopulationLimit() - this.popUsed))
return num - (this.GetPopulationLimit() - this.popUsed);
this.popUsed += num;
return 0;
};
Player.prototype.UnReservePopulationSlots = function(num)
{
this.popUsed -= num;
};
Player.prototype.GetPopulationCount = function()
{
return this.popUsed;
};
Player.prototype.AddPopulation = function(num)
{
this.popUsed += num;
};
Player.prototype.SetPopulationBonuses = function(num)
{
this.popBonuses = num;
};
Player.prototype.AddPopulationBonuses = function(num)
{
this.popBonuses += num;
};
Player.prototype.GetPopulationLimit = function()
{
return Math.min(this.GetMaxPopulation(), this.popBonuses);
};
Player.prototype.SetMaxPopulation = function(max)
{
this.maxPop = max;
};
Player.prototype.GetMaxPopulation = function()
{
return Math.round(ApplyValueModificationsToEntity("Player/MaxPopulation", this.maxPop, this.entity));
};
Player.prototype.CanBarter = function()
{
return this.barterEntities.length > 0;
};
Player.prototype.GetBarterMultiplier = function()
{
return this.barterMultiplier;
};
Player.prototype.GetSpyCostMultiplier = function()
{
return this.spyCostMultiplier;
};
Player.prototype.GetPanelEntities = function()
{
return this.panelEntities;
};
Player.prototype.IsTrainingBlocked = function()
{
return this.trainingBlocked;
};
Player.prototype.BlockTraining = function()
{
this.trainingBlocked = true;
};
Player.prototype.UnBlockTraining = function()
{
this.trainingBlocked = false;
};
Player.prototype.SetResourceCounts = function(resources)
{
for (let res in resources)
this.resourceCount[res] = resources[res];
};
Player.prototype.GetResourceCounts = function()
{
return this.resourceCount;
};
+Player.prototype.GetResourceGatherers = function()
+{
+ return this.resourceGatherers;
+};
+
+/**
+ * @param {string} type - The generic type of resource to add the gatherer for.
+ */
+Player.prototype.AddResourceGatherer = function(type)
+{
+ ++this.resourceGatherers[type];
+};
+
+/**
+ * @param {string} type - The generic type of resource to remove the gatherer from.
+ */
+Player.prototype.RemoveResourceGatherer = function(type)
+{
+ --this.resourceGatherers[type];
+};
+
/**
* Add resource of specified type to player.
* @param {string} type - Generic type of resource.
* @param {number} amount - Amount of resource, which should be added.
*/
Player.prototype.AddResource = function(type, amount)
{
this.resourceCount[type] += +amount;
};
/**
* Add resources to player.
*/
Player.prototype.AddResources = function(amounts)
{
for (let type in amounts)
this.resourceCount[type] += +amounts[type];
};
Player.prototype.GetNeededResources = function(amounts)
{
// Check if we can afford it all.
let amountsNeeded = {};
for (let type in amounts)
if (this.resourceCount[type] != undefined && amounts[type] > this.resourceCount[type])
amountsNeeded[type] = amounts[type] - Math.floor(this.resourceCount[type]);
if (Object.keys(amountsNeeded).length == 0)
return undefined;
return amountsNeeded;
};
Player.prototype.SubtractResourcesOrNotify = function(amounts)
{
let amountsNeeded = this.GetNeededResources(amounts);
// If we don't have enough resources, send a notification to the player.
if (amountsNeeded)
{
let parameters = {};
let i = 0;
for (let type in amountsNeeded)
{
++i;
parameters["resourceType" + i] = this.resourceNames[type];
parameters["resourceAmount" + i] = amountsNeeded[type];
}
let msg = "";
// When marking strings for translations, you need to include the actual string,
// not some way to derive the string.
if (i < 1)
warn("Amounts needed but no amounts given?");
else if (i == 1)
msg = markForTranslation("Insufficient resources - %(resourceAmount1)s %(resourceType1)s");
else if (i == 2)
msg = markForTranslation("Insufficient resources - %(resourceAmount1)s %(resourceType1)s, %(resourceAmount2)s %(resourceType2)s");
else if (i == 3)
msg = markForTranslation("Insufficient resources - %(resourceAmount1)s %(resourceType1)s, %(resourceAmount2)s %(resourceType2)s, %(resourceAmount3)s %(resourceType3)s");
else if (i == 4)
msg = markForTranslation("Insufficient resources - %(resourceAmount1)s %(resourceType1)s, %(resourceAmount2)s %(resourceType2)s, %(resourceAmount3)s %(resourceType3)s, %(resourceAmount4)s %(resourceType4)s");
else
warn("Localisation: Strings are not localised for more than 4 resources");
// Send as time-notification.
let cmpGUIInterface = Engine.QueryInterface(SYSTEM_ENTITY, IID_GuiInterface);
cmpGUIInterface.PushNotification({
"players": [this.playerID],
"message": msg,
"parameters": parameters,
"translateMessage": true,
"translateParameters": {
"resourceType1": "withinSentence",
"resourceType2": "withinSentence",
"resourceType3": "withinSentence",
"resourceType4": "withinSentence"
}
});
return false;
}
for (let type in amounts)
this.resourceCount[type] -= amounts[type];
return true;
};
Player.prototype.TrySubtractResources = function(amounts)
{
if (!this.SubtractResourcesOrNotify(amounts))
return false;
let cmpStatisticsTracker = QueryPlayerIDInterface(this.playerID, IID_StatisticsTracker);
if (cmpStatisticsTracker)
for (let type in amounts)
cmpStatisticsTracker.IncreaseResourceUsedCounter(type, amounts[type]);
return true;
};
Player.prototype.GetNextTradingGoods = function()
{
let value = randFloat(0, 100);
let last = this.tradingGoods.length - 1;
let sumProba = 0;
for (let i = 0; i < last; ++i)
{
sumProba += this.tradingGoods[i].proba;
if (value < sumProba)
return this.tradingGoods[i].goods;
}
return this.tradingGoods[last].goods;
};
Player.prototype.GetTradingGoods = function()
{
let tradingGoods = {};
for (let resource of this.tradingGoods)
tradingGoods[resource.goods] = resource.proba;
return tradingGoods;
};
Player.prototype.SetTradingGoods = function(tradingGoods)
{
let resTradeCodes = Resources.GetTradableCodes();
let sumProba = 0;
for (let resource in tradingGoods)
{
if (resTradeCodes.indexOf(resource) == -1 || tradingGoods[resource] < 0)
{
error("Invalid trading goods: " + uneval(tradingGoods));
return;
}
sumProba += tradingGoods[resource];
}
if (sumProba != 100)
{
error("Invalid trading goods probability: " + uneval(sumProba));
return;
}
this.tradingGoods = [];
for (let resource in tradingGoods)
this.tradingGoods.push({
"goods": resource,
"proba": tradingGoods[resource]
});
};
Player.prototype.GetState = function()
{
return this.state;
};
/**
* @param {string} newState - Either "defeated" or "won".
* @param {string|undefined} message - A string to be shown in chat, for example
* markForTranslation("%(player)s has been defeated (failed objective).").
* If it is undefined, the caller MUST send that GUI notification manually.
*/
Player.prototype.SetState = function(newState, message)
{
if (this.state != "active")
return;
if (newState != "won" && newState != "defeated")
{
warn("Can't change playerstate to " + this.state);
return;
}
if (!this.playerID)
{
warn("Gaia can't change state.");
return;
}
this.state = newState;
let won = newState == "won";
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (won)
cmpRangeManager.SetLosRevealAll(this.playerID, true);
else
{
// Reassign all player's entities to Gaia.
let entities = cmpRangeManager.GetEntitiesByPlayer(this.playerID);
// The ownership change is done in two steps so that entities don't hit idle
// (and thus possibly look for "enemies" to attack) before nearby allies get
// converted to Gaia as well.
for (let entity of entities)
{
let cmpOwnership = Engine.QueryInterface(entity, IID_Ownership);
cmpOwnership.SetOwnerQuiet(0);
}
// With the real ownership change complete, send OwnershipChanged messages.
for (let entity of entities)
Engine.PostMessage(entity, MT_OwnershipChanged, {
"entity": entity,
"from": this.playerID,
"to": 0
});
}
Engine.PostMessage(this.entity, won ? MT_PlayerWon : MT_PlayerDefeated, { "playerId": this.playerID });
if (message)
{
let cmpGUIInterface = Engine.QueryInterface(SYSTEM_ENTITY, IID_GuiInterface);
cmpGUIInterface.PushNotification({
"type": won ? "won" : "defeat",
"players": [this.playerID],
"allies": [this.playerID],
"message": message
});
}
};
Player.prototype.GetTeam = function()
{
return this.team;
};
Player.prototype.SetTeam = function(team)
{
if (this.teamsLocked)
return;
this.team = team;
// Set all team members as allies.
if (this.team != -1)
{
let numPlayers = Engine.QueryInterface(SYSTEM_ENTITY, IID_PlayerManager).GetNumPlayers();
for (let i = 0; i < numPlayers; ++i)
{
let cmpPlayer = QueryPlayerIDInterface(i);
if (this.team != cmpPlayer.GetTeam())
continue;
this.SetAlly(i);
cmpPlayer.SetAlly(this.playerID);
}
}
Engine.BroadcastMessage(MT_DiplomacyChanged, {
"player": this.playerID,
"otherPlayer": null
});
};
Player.prototype.SetLockTeams = function(value)
{
this.teamsLocked = value;
};
Player.prototype.GetLockTeams = function()
{
return this.teamsLocked;
};
Player.prototype.GetDiplomacy = function()
{
return this.diplomacy.slice();
};
Player.prototype.SetDiplomacy = function(dipl)
{
this.diplomacy = dipl.slice();
Engine.BroadcastMessage(MT_DiplomacyChanged, {
"player": this.playerID,
"otherPlayer": null
});
};
Player.prototype.SetDiplomacyIndex = function(idx, value)
{
let cmpPlayer = QueryPlayerIDInterface(idx);
if (!cmpPlayer)
return;
if (this.state != "active" || cmpPlayer.state != "active")
return;
this.diplomacy[idx] = value;
Engine.BroadcastMessage(MT_DiplomacyChanged, {
"player": this.playerID,
"otherPlayer": cmpPlayer.GetPlayerID()
});
// Mutual worsening of relations.
if (cmpPlayer.diplomacy[this.playerID] > value)
cmpPlayer.SetDiplomacyIndex(this.playerID, value);
};
Player.prototype.UpdateSharedLos = function()
{
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
let cmpTechnologyManager = Engine.QueryInterface(this.entity, IID_TechnologyManager);
if (!cmpRangeManager || !cmpTechnologyManager)
return;
if (!cmpTechnologyManager.IsTechnologyResearched(this.template.SharedLosTech))
{
cmpRangeManager.SetSharedLos(this.playerID, [this.playerID]);
return;
}
cmpRangeManager.SetSharedLos(this.playerID, this.GetMutualAllies());
};
Player.prototype.GetFormations = function()
{
return this.formations;
};
Player.prototype.SetFormations = function(formations)
{
this.formations = formations;
};
Player.prototype.GetStartingCameraPos = function()
{
return this.startCam.position;
};
Player.prototype.GetStartingCameraRot = function()
{
return this.startCam.rotation;
};
Player.prototype.SetStartingCamera = function(pos, rot)
{
this.startCam = { "position": pos, "rotation": rot };
};
Player.prototype.HasStartingCamera = function()
{
return this.startCam !== undefined;
};
Player.prototype.HasSharedLos = function()
{
let cmpTechnologyManager = Engine.QueryInterface(this.entity, IID_TechnologyManager);
return cmpTechnologyManager && cmpTechnologyManager.IsTechnologyResearched(this.template.SharedLosTech);
};
Player.prototype.HasSharedDropsites = function()
{
return this.sharedDropsites;
};
Player.prototype.SetControlAllUnits = function(c)
{
this.controlAllUnits = c;
};
Player.prototype.CanControlAllUnits = function()
{
return this.controlAllUnits;
};
Player.prototype.SetAI = function(flag)
{
this.isAI = flag;
};
Player.prototype.IsAI = function()
{
return this.isAI;
};
Player.prototype.GetPlayersByDiplomacy = function(func)
{
let players = [];
for (let i = 0; i < this.diplomacy.length; ++i)
if (this[func](i))
players.push(i);
return players;
};
Player.prototype.SetAlly = function(id)
{
this.SetDiplomacyIndex(id, 1);
};
/**
* Check if given player is our ally.
*/
Player.prototype.IsAlly = function(id)
{
return this.diplomacy[id] > 0;
};
Player.prototype.GetAllies = function()
{
return this.GetPlayersByDiplomacy("IsAlly");
};
/**
* Check if given player is our ally excluding ourself
*/
Player.prototype.IsExclusiveAlly = function(id)
{
return this.playerID != id && this.IsAlly(id);
};
/**
* Check if given player is our ally, and we are its ally
*/
Player.prototype.IsMutualAlly = function(id)
{
let cmpPlayer = QueryPlayerIDInterface(id);
return this.IsAlly(id) && cmpPlayer && cmpPlayer.IsAlly(this.playerID);
};
Player.prototype.GetMutualAllies = function()
{
return this.GetPlayersByDiplomacy("IsMutualAlly");
};
/**
* Check if given player is our ally, and we are its ally, excluding ourself
*/
Player.prototype.IsExclusiveMutualAlly = function(id)
{
return this.playerID != id && this.IsMutualAlly(id);
};
Player.prototype.SetEnemy = function(id)
{
this.SetDiplomacyIndex(id, -1);
};
/**
* Check if given player is our enemy
*/
Player.prototype.IsEnemy = function(id)
{
return this.diplomacy[id] < 0;
};
Player.prototype.GetEnemies = function()
{
return this.GetPlayersByDiplomacy("IsEnemy");
};
Player.prototype.SetNeutral = function(id)
{
this.SetDiplomacyIndex(id, 0);
};
/**
* Check if given player is neutral
*/
Player.prototype.IsNeutral = function(id)
{
return this.diplomacy[id] == 0;
};
/**
* Do some map dependant initializations
*/
Player.prototype.OnGlobalInitGame = function(msg)
{
let cmpTechnologyManager = Engine.QueryInterface(this.entity, IID_TechnologyManager);
if (cmpTechnologyManager)
for (let tech of this.startingTechnologies)
cmpTechnologyManager.ResearchTechnology(tech);
// Replace the "{civ}" code with this civ ID.
let disabledTemplates = this.disabledTemplates;
this.disabledTemplates = {};
for (let template in disabledTemplates)
if (disabledTemplates[template])
this.disabledTemplates[template.replace(/\{civ\}/g, this.civ)] = true;
};
/**
* Keep track of population effects of all entities that
* become owned or unowned by this player.
*/
Player.prototype.OnGlobalOwnershipChanged = function(msg)
{
if (msg.from != this.playerID && msg.to != this.playerID)
return;
let cmpCost = Engine.QueryInterface(msg.entity, IID_Cost);
if (msg.from == this.playerID)
{
if (cmpCost)
this.popUsed -= cmpCost.GetPopCost();
let panelIndex = this.panelEntities.indexOf(msg.entity);
if (panelIndex >= 0)
this.panelEntities.splice(panelIndex, 1);
let barterIndex = this.barterEntities.indexOf(msg.entity);
if (barterIndex >= 0)
this.barterEntities.splice(barterIndex, 1);
}
if (msg.to == this.playerID)
{
if (cmpCost)
this.popUsed += cmpCost.GetPopCost();
let cmpIdentity = Engine.QueryInterface(msg.entity, IID_Identity);
if (!cmpIdentity)
return;
if (MatchesClassList(cmpIdentity.GetClassesList(), panelEntityClasses))
this.panelEntities.push(msg.entity);
if (cmpIdentity.HasClass("Barter") && !Engine.QueryInterface(msg.entity, IID_Foundation))
this.barterEntities.push(msg.entity);
}
};
Player.prototype.OnResearchFinished = function(msg)
{
if (msg.tech == this.template.SharedLosTech)
this.UpdateSharedLos();
else if (msg.tech == this.template.SharedDropsitesTech)
this.sharedDropsites = true;
};
Player.prototype.OnDiplomacyChanged = function()
{
this.UpdateSharedLos();
};
Player.prototype.OnValueModification = function(msg)
{
if (msg.component != "Player")
return;
if (msg.valueNames.indexOf("Player/SpyCostMultiplier") != -1)
this.spyCostMultiplier = ApplyValueModificationsToEntity("Player/SpyCostMultiplier", +this.template.SpyCostMultiplier, this.entity);
if (msg.valueNames.some(mod => mod.startsWith("Player/BarterMultiplier/")))
for (let res in this.template.BarterMultiplier.Buy)
{
this.barterMultiplier.buy[res] = ApplyValueModificationsToEntity("Player/BarterMultiplier/Buy/"+res, +this.template.BarterMultiplier.Buy[res], this.entity);
this.barterMultiplier.sell[res] = ApplyValueModificationsToEntity("Player/BarterMultiplier/Sell/"+res, +this.template.BarterMultiplier.Sell[res], this.entity);
}
};
Player.prototype.SetCheatsEnabled = function(flag)
{
this.cheatsEnabled = flag;
};
Player.prototype.GetCheatsEnabled = function()
{
return this.cheatsEnabled;
};
Player.prototype.TributeResource = function(player, amounts)
{
let cmpPlayer = QueryPlayerIDInterface(player);
if (!cmpPlayer)
return;
if (this.state != "active" || cmpPlayer.state != "active")
return;
let resTribCodes = Resources.GetTributableCodes();
for (let resCode in amounts)
if (resTribCodes.indexOf(resCode) == -1 ||
!Number.isInteger(amounts[resCode]) ||
amounts[resCode] < 0)
{
warn("Invalid tribute amounts: " + uneval(resCode) + ": " + uneval(amounts));
return;
}
if (!this.SubtractResourcesOrNotify(amounts))
return;
cmpPlayer.AddResources(amounts);
let total = Object.keys(amounts).reduce((sum, type) => sum + amounts[type], 0);
let cmpOurStatisticsTracker = QueryPlayerIDInterface(this.playerID, IID_StatisticsTracker);
if (cmpOurStatisticsTracker)
cmpOurStatisticsTracker.IncreaseTributesSentCounter(total);
let cmpTheirStatisticsTracker = QueryPlayerIDInterface(player, IID_StatisticsTracker);
if (cmpTheirStatisticsTracker)
cmpTheirStatisticsTracker.IncreaseTributesReceivedCounter(total);
let cmpGUIInterface = Engine.QueryInterface(SYSTEM_ENTITY, IID_GuiInterface);
if (cmpGUIInterface)
cmpGUIInterface.PushNotification({
"type": "tribute",
"players": [player],
"donator": this.playerID,
"amounts": amounts
});
Engine.BroadcastMessage(MT_TributeExchanged, {
"to": player,
"from": this.playerID,
"amounts": amounts
});
};
Player.prototype.AddDisabledTemplate = function(template)
{
this.disabledTemplates[template] = true;
Engine.BroadcastMessage(MT_DisabledTemplatesChanged, { "player": this.playerID });
};
Player.prototype.RemoveDisabledTemplate = function(template)
{
this.disabledTemplates[template] = false;
Engine.BroadcastMessage(MT_DisabledTemplatesChanged, { "player": this.playerID });
};
Player.prototype.SetDisabledTemplates = function(templates)
{
this.disabledTemplates = {};
for (let template of templates)
this.disabledTemplates[template] = true;
Engine.BroadcastMessage(MT_DisabledTemplatesChanged, { "player": this.playerID });
};
Player.prototype.GetDisabledTemplates = function()
{
return this.disabledTemplates;
};
Player.prototype.AddDisabledTechnology = function(tech)
{
this.disabledTechnologies[tech] = true;
Engine.BroadcastMessage(MT_DisabledTechnologiesChanged, { "player": this.playerID });
};
Player.prototype.RemoveDisabledTechnology = function(tech)
{
this.disabledTechnologies[tech] = false;
Engine.BroadcastMessage(MT_DisabledTechnologiesChanged, { "player": this.playerID });
};
Player.prototype.SetDisabledTechnologies = function(techs)
{
this.disabledTechnologies = {};
for (let tech of techs)
this.disabledTechnologies[tech] = true;
Engine.BroadcastMessage(MT_DisabledTechnologiesChanged, { "player": this.playerID });
};
Player.prototype.GetDisabledTechnologies = function()
{
return this.disabledTechnologies;
};
Player.prototype.AddStartingTechnology = function(tech)
{
if (this.startingTechnologies.indexOf(tech) == -1)
this.startingTechnologies.push(tech);
};
Player.prototype.SetStartingTechnologies = function(techs)
{
this.startingTechnologies = techs;
};
Player.prototype.OnGlobalPlayerDefeated = function(msg)
{
let cmpSound = Engine.QueryInterface(this.entity, IID_Sound);
if (!cmpSound)
return;
let soundGroup = cmpSound.GetSoundGroup(this.playerID === msg.playerId ? "defeated" : this.IsAlly(msg.playerId) ? "defeated_ally" : this.state === "won" ? "won" : "defeated_enemy");
if (soundGroup)
Engine.QueryInterface(SYSTEM_ENTITY, IID_SoundManager).PlaySoundGroupForPlayer(soundGroup, this.playerID);
};
Engine.RegisterComponentType(IID_Player, "Player", Player);
Index: ps/trunk/binaries/data/mods/public/simulation/components/ResourceGatherer.js
===================================================================
--- ps/trunk/binaries/data/mods/public/simulation/components/ResourceGatherer.js (revision 24356)
+++ ps/trunk/binaries/data/mods/public/simulation/components/ResourceGatherer.js (revision 24357)
@@ -1,366 +1,405 @@
function ResourceGatherer() {}
ResourceGatherer.prototype.Schema =
"Lets the unit gather resources from entities that have the ResourceSupply component." +
"" +
"2.0" +
"1.0" +
"" +
"1" +
"3" +
"3" +
"2" +
"" +
"" +
"10" +
"10" +
"10" +
"10" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
Resources.BuildSchema("positiveDecimal", ["treasure"], true) +
"" +
"" +
Resources.BuildSchema("positiveDecimal") +
"";
ResourceGatherer.prototype.Init = function()
{
this.carrying = {}; // { generic type: integer amount currently carried }
// (Note that this component supports carrying multiple types of resources,
// each with an independent capacity, but the rest of the game currently
// ensures and assumes we'll only be carrying one type at once)
// The last exact type gathered, so we can render appropriate props
this.lastCarriedType = undefined; // { generic, specific }
};
/**
* Returns data about what resources the unit is currently carrying,
* in the form [ {"type":"wood", "amount":7, "max":10} ]
*/
ResourceGatherer.prototype.GetCarryingStatus = function()
{
let ret = [];
for (let type in this.carrying)
{
ret.push({
"type": type,
"amount": this.carrying[type],
"max": +this.GetCapacity(type)
});
}
return ret;
};
/**
* Used to instantly give resources to unit
* @param resources The same structure as returned form GetCarryingStatus
*/
ResourceGatherer.prototype.GiveResources = function(resources)
{
for (let resource of resources)
this.carrying[resource.type] = +resource.amount;
Engine.PostMessage(this.entity, MT_ResourceCarryingChanged, { "to": this.GetCarryingStatus() });
};
/**
* Returns the generic type of one particular resource this unit is
* currently carrying, or undefined if none.
*/
ResourceGatherer.prototype.GetMainCarryingType = function()
{
// Return the first key, if any
for (let type in this.carrying)
return type;
return undefined;
};
/**
* Returns the exact resource type we last picked up, as long as
* we're still carrying something similar enough, in the form
* { generic, specific }
*/
ResourceGatherer.prototype.GetLastCarriedType = function()
{
if (this.lastCarriedType && this.lastCarriedType.generic in this.carrying)
return this.lastCarriedType;
return undefined;
};
ResourceGatherer.prototype.SetLastCarriedType = function(lastCarriedType)
{
this.lastCarriedType = lastCarriedType;
};
// Since this code is very performancecritical and applying technologies quite slow, cache it.
ResourceGatherer.prototype.RecalculateGatherRatesAndCapacities = function()
{
this.baseSpeed = ApplyValueModificationsToEntity("ResourceGatherer/BaseSpeed", +this.template.BaseSpeed, this.entity);
this.rates = {};
for (let r in this.template.Rates)
{
let type = r.split(".");
if (type[0] != "treasure" && type.length > 1 && !Resources.GetResource(type[0]).subtypes[type[1]])
{
error("Resource subtype not found: " + type[0] + "." + type[1]);
continue;
}
let rate = ApplyValueModificationsToEntity("ResourceGatherer/Rates/" + r, +this.template.Rates[r], this.entity);
this.rates[r] = rate * this.baseSpeed;
}
this.capacities = {};
for (let r in this.template.Capacities)
this.capacities[r] = ApplyValueModificationsToEntity("ResourceGatherer/Capacities/" + r, +this.template.Capacities[r], this.entity);
};
ResourceGatherer.prototype.GetGatherRates = function()
{
return this.rates;
};
ResourceGatherer.prototype.GetGatherRate = function(resourceType)
{
if (!this.template.Rates[resourceType])
return 0;
return this.rates[resourceType];
};
ResourceGatherer.prototype.GetCapacity = function(resourceType)
{
if(!this.template.Capacities[resourceType])
return 0;
return this.capacities[resourceType];
};
ResourceGatherer.prototype.GetRange = function()
{
return { "max": +this.template.MaxDistance, "min": 0 };
// maybe this should depend on the unit or target or something?
};
/**
* Try to gather treasure
* @return 'true' if treasure is successfully gathered, otherwise 'false'
*/
ResourceGatherer.prototype.TryInstantGather = function(target)
{
let cmpResourceSupply = Engine.QueryInterface(target, IID_ResourceSupply);
let type = cmpResourceSupply.GetType();
if (type.generic != "treasure")
return false;
let status = cmpResourceSupply.TakeResources(cmpResourceSupply.GetCurrentAmount());
let cmpPlayer = QueryOwnerInterface(this.entity, IID_Player);
if (cmpPlayer)
cmpPlayer.AddResource(type.specific, status.amount);
let cmpStatisticsTracker = QueryOwnerInterface(this.entity, IID_StatisticsTracker);
if (cmpStatisticsTracker)
cmpStatisticsTracker.IncreaseTreasuresCollectedCounter();
let cmpTrigger = Engine.QueryInterface(SYSTEM_ENTITY, IID_Trigger);
if (cmpTrigger && cmpPlayer)
cmpTrigger.CallEvent("TreasureCollected", { "player": cmpPlayer.GetPlayerID(), "type": type.specific, "amount": status.amount });
return true;
};
/**
* Gather from the target entity. This should only be called after a successful range check,
* and if the target has a compatible ResourceSupply.
* Call interval will be determined by gather rate, so always gather 1 amount when called.
*/
ResourceGatherer.prototype.PerformGather = function(target)
{
if (!this.GetTargetGatherRate(target))
return { "exhausted": true };
let gatherAmount = 1;
let cmpResourceSupply = Engine.QueryInterface(target, IID_ResourceSupply);
let type = cmpResourceSupply.GetType();
// Initialise the carried count if necessary
if (!this.carrying[type.generic])
this.carrying[type.generic] = 0;
// Find the maximum so we won't exceed our capacity
let maxGathered = this.GetCapacity(type.generic) - this.carrying[type.generic];
let status = cmpResourceSupply.TakeResources(Math.min(gatherAmount, maxGathered));
this.carrying[type.generic] += status.amount;
this.lastCarriedType = type;
// Update stats of how much the player collected.
// (We have to do it here rather than at the dropsite, because we
// need to know what subtype it was)
let cmpStatisticsTracker = QueryOwnerInterface(this.entity, IID_StatisticsTracker);
if (cmpStatisticsTracker)
cmpStatisticsTracker.IncreaseResourceGatheredCounter(type.generic, status.amount, type.specific);
Engine.PostMessage(this.entity, MT_ResourceCarryingChanged, { "to": this.GetCarryingStatus() });
return {
"amount": status.amount,
"exhausted": status.exhausted,
"filled": this.carrying[type.generic] >= this.GetCapacity(type.generic)
};
};
/**
* Compute the amount of resources collected per second from the target.
* Returns 0 if resources cannot be collected (e.g. the target doesn't
* exist, or is the wrong type).
*/
ResourceGatherer.prototype.GetTargetGatherRate = function(target)
{
let cmpResourceSupply = QueryMiragedInterface(target, IID_ResourceSupply);
if (!cmpResourceSupply)
return 0;
let type = cmpResourceSupply.GetType();
let rate = 0;
if (type.specific)
rate = this.GetGatherRate(type.generic+"."+type.specific);
if (rate == 0 && type.generic)
rate = this.GetGatherRate(type.generic);
if ("Mirages" in cmpResourceSupply)
return rate;
// Apply diminishing returns with more gatherers, for e.g. infinite farms. For most resources this has no effect
// (GetDiminishingReturns will return null). We can assume that for resources that are miraged this is the case
// (else just add the diminishing returns data to the mirage data and remove the early return above)
let diminishingReturns = cmpResourceSupply.GetDiminishingReturns();
if (diminishingReturns)
rate *= diminishingReturns;
return rate;
};
/**
* Returns whether this unit can carry more of the given type of resource.
* (This ignores whether the unit is actually able to gather that
* resource type or not.)
*/
ResourceGatherer.prototype.CanCarryMore = function(type)
{
let amount = this.carrying[type] || 0;
return amount < this.GetCapacity(type);
};
ResourceGatherer.prototype.IsCarrying = function(type)
{
let amount = this.carrying[type] || 0;
return amount > 0;
};
/**
* Returns whether this unit is carrying any resources of a type that is
* not the requested type. (This is to support cases where the unit is
* only meant to be able to carry one type at once.)
*/
ResourceGatherer.prototype.IsCarryingAnythingExcept = function(exceptedType)
{
for (let type in this.carrying)
if (type != exceptedType)
return true;
return false;
};
/**
* Transfer our carried resources to our owner immediately.
* Only resources of the appropriate types will be transferred.
* (This should typically be called after reaching a dropsite.)
*
* @param {number} target - The target entity ID to drop resources at.
*/
ResourceGatherer.prototype.CommitResources = function(target)
{
let cmpResourceDropsite = Engine.QueryInterface(target, IID_ResourceDropsite);
if (!cmpResourceDropsite)
return;
let cmpPlayer = QueryOwnerInterface(this.entity);
if (!cmpPlayer)
return;
let changed = false;
for (let type in this.carrying)
if (cmpResourceDropsite.AcceptsType(type))
{
cmpPlayer.AddResource(type, this.carrying[type]);
delete this.carrying[type];
changed = true;
}
if (changed)
Engine.PostMessage(this.entity, MT_ResourceCarryingChanged, { "to": this.GetCarryingStatus() });
};
/**
* Drop all currently-carried resources.
* (Currently they just vanish after being dropped - we don't bother depositing
* them onto the ground.)
*/
ResourceGatherer.prototype.DropResources = function()
{
this.carrying = {};
Engine.PostMessage(this.entity, MT_ResourceCarryingChanged, { "to": this.GetCarryingStatus() });
};
+
+/**
+ * @param {string} type - A generic resource type.
+ */
+ResourceGatherer.prototype.AddToPlayerCounter = function(type)
+{
+ // We need to be removed from the player counter first.
+ if (this.lastGathered)
+ return;
+
+ let cmpPlayer = QueryOwnerInterface(this.entity, IID_Player);
+ if (cmpPlayer)
+ cmpPlayer.AddResourceGatherer(type);
+
+ this.lastGathered = type;
+};
+
+/**
+ * @param {number} playerid - Optionally a player ID.
+ */
+ResourceGatherer.prototype.RemoveFromPlayerCounter = function(playerid)
+{
+ if (!this.lastGathered)
+ return;
+
+ let cmpPlayer = playerid != undefined ?
+ QueryPlayerIDInterface(playerid) :
+ QueryOwnerInterface(this.entity, IID_Player);
+
+ if (cmpPlayer)
+ cmpPlayer.RemoveResourceGatherer(this.lastGathered);
+
+ delete this.lastGathered;
+};
+
// Since we cache gather rates, we need to make sure we update them when tech changes.
// and when our owner change because owners can had different techs.
ResourceGatherer.prototype.OnValueModification = function(msg)
{
if (msg.component != "ResourceGatherer")
return;
this.RecalculateGatherRatesAndCapacities();
};
ResourceGatherer.prototype.OnOwnershipChanged = function(msg)
{
if (msg.to == INVALID_PLAYER)
+ {
+ this.RemoveFromPlayerCounter(msg.from);
return;
+ }
+
this.RecalculateGatherRatesAndCapacities();
};
ResourceGatherer.prototype.OnGlobalInitGame = function(msg)
{
this.RecalculateGatherRatesAndCapacities();
};
ResourceGatherer.prototype.OnMultiplierChanged = function(msg)
{
let cmpPlayer = QueryOwnerInterface(this.entity, IID_Player);
if (cmpPlayer && msg.player == cmpPlayer.GetPlayerID())
this.RecalculateGatherRatesAndCapacities();
};
Engine.RegisterComponentType(IID_ResourceGatherer, "ResourceGatherer", ResourceGatherer);
Index: ps/trunk/binaries/data/mods/public/simulation/components/UnitAI.js
===================================================================
--- ps/trunk/binaries/data/mods/public/simulation/components/UnitAI.js (revision 24356)
+++ ps/trunk/binaries/data/mods/public/simulation/components/UnitAI.js (revision 24357)
@@ -1,6392 +1,6406 @@
function UnitAI() {}
UnitAI.prototype.Schema =
"Controls the unit's movement, attacks, etc, in response to commands from the player." +
"" +
"" +
"" +
"violent" +
"aggressive" +
"defensive" +
"passive" +
"standground" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"violent" +
"aggressive" +
"defensive" +
"passive" +
"skittish" +
"domestic" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
"" +
""+
"" +
"";
// Unit stances.
// There some targeting options:
// targetVisibleEnemies: anything in vision range is a viable target
// targetAttackersAlways: anything that hurts us is a viable target,
// possibly overriding user orders!
// There are some response options, triggered when targets are detected:
// respondFlee: run away
// respondChase: start chasing after the enemy
// respondChaseBeyondVision: start chasing, and don't stop even if it's out
// of this unit's vision range (though still visible to the player)
// respondStandGround: attack enemy but don't move at all
// respondHoldGround: attack enemy but don't move far from current position
// TODO: maybe add targetAggressiveEnemies (don't worry about lone scouts,
// do worry around armies slaughtering the guy standing next to you), etc.
var g_Stances = {
"violent": {
"targetVisibleEnemies": true,
"targetAttackersAlways": true,
"respondFlee": false,
"respondChase": true,
"respondChaseBeyondVision": true,
"respondStandGround": false,
"respondHoldGround": false,
"selectable": true
},
"aggressive": {
"targetVisibleEnemies": true,
"targetAttackersAlways": false,
"respondFlee": false,
"respondChase": true,
"respondChaseBeyondVision": false,
"respondStandGround": false,
"respondHoldGround": false,
"selectable": true
},
"defensive": {
"targetVisibleEnemies": true,
"targetAttackersAlways": false,
"respondFlee": false,
"respondChase": false,
"respondChaseBeyondVision": false,
"respondStandGround": false,
"respondHoldGround": true,
"selectable": true
},
"passive": {
"targetVisibleEnemies": false,
"targetAttackersAlways": false,
"respondFlee": true,
"respondChase": false,
"respondChaseBeyondVision": false,
"respondStandGround": false,
"respondHoldGround": false,
"selectable": true
},
"standground": {
"targetVisibleEnemies": true,
"targetAttackersAlways": false,
"respondFlee": false,
"respondChase": false,
"respondChaseBeyondVision": false,
"respondStandGround": true,
"respondHoldGround": false,
"selectable": true
},
"none": {
// Only to be used by AI or trigger scripts
"targetVisibleEnemies": false,
"targetAttackersAlways": false,
"respondFlee": false,
"respondChase": false,
"respondChaseBeyondVision": false,
"respondStandGround": false,
"respondHoldGround": false,
"selectable": false
}
};
// These orders always require a packed unit, so if a unit that is unpacking is given one of these orders,
// it will immediately cancel unpacking.
var g_OrdersCancelUnpacking = new Set([
"FormationWalk",
"Walk",
"WalkAndFight",
"WalkToTarget",
"Patrol",
"Garrison"
]);
// When leaving a foundation, we want to be clear of it by this distance.
var g_LeaveFoundationRange = 4;
UnitAI.prototype.notifyToCheerInRange = 30;
// See ../helpers/FSM.js for some documentation of this FSM specification syntax
UnitAI.prototype.UnitFsmSpec = {
// Default event handlers:
"MovementUpdate": function(msg) {
// ignore spurious movement messages
// (these can happen when stopping moving at the same time
// as switching states)
},
"ConstructionFinished": function(msg) {
// ignore uninteresting construction messages
},
"LosRangeUpdate": function(msg) {
// Ignore newly-seen units by default.
},
"LosHealRangeUpdate": function(msg) {
// Ignore newly-seen injured units by default.
},
"LosAttackRangeUpdate": function(msg) {
// Ignore newly-seen enemy units by default.
},
"Attacked": function(msg) {
// ignore attacker
},
"HealthChanged": function(msg) {
// ignore
},
"PackFinished": function(msg) {
// ignore
},
"PickupCanceled": function(msg) {
// ignore
},
"TradingCanceled": function(msg) {
// ignore
},
"GuardedAttacked": function(msg) {
// ignore
},
"OrderTargetRenamed": function() {
// By default, trigger an exit-reenter
// so that state preconditions are checked against the new entity
// (there is no reason to assume the target is still valid).
this.SetNextState(this.GetCurrentState());
},
// Formation handlers:
"FormationLeave": function(msg) {
// ignore when we're not in FORMATIONMEMBER
},
// Called when being told to walk as part of a formation
"Order.FormationWalk": function(msg) {
if (!this.AbleToMove())
{
this.FinishOrder();
return;
}
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
this.SetNextState("FORMATIONMEMBER.WALKING");
},
// Special orders:
// (these will be overridden by various states)
"Order.LeaveFoundation": function(msg) {
if (!this.WillMoveFromFoundation(msg.data.target))
{
this.FinishOrder();
return;
}
this.order.data.min = g_LeaveFoundationRange;
this.SetNextState("INDIVIDUAL.WALKING");
},
// Individual orders:
// (these will switch the unit out of formation mode)
"Order.Stop": function(msg) {
this.StopMoving();
this.FinishOrder();
if (this.IsAnimal())
this.SetNextState("ANIMAL.IDLE");
else if (this.IsFormationMember())
this.SetNextState("FORMATIONMEMBER.IDLE");
else
this.SetNextState("INDIVIDUAL.IDLE");
},
"Order.Walk": function(msg) {
if (!this.AbleToMove())
{
this.FinishOrder();
return;
}
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
this.SetHeldPosition(this.order.data.x, this.order.data.z);
this.order.data.relaxed = true;
if (this.IsAnimal())
this.SetNextState("ANIMAL.WALKING");
else
this.SetNextState("INDIVIDUAL.WALKING");
},
"Order.WalkAndFight": function(msg) {
if (!this.AbleToMove())
{
this.FinishOrder();
return;
}
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
this.SetHeldPosition(this.order.data.x, this.order.data.z);
this.order.data.relaxed = true;
if (this.IsAnimal())
this.SetNextState("ANIMAL.WALKING"); // WalkAndFight not applicable for animals
else
this.SetNextState("INDIVIDUAL.WALKINGANDFIGHTING");
},
"Order.WalkToTarget": function(msg) {
if (!this.AbleToMove())
{
this.FinishOrder();
return;
}
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
if (this.CheckRange(this.order.data))
{
// We are already at the target, or can't move at all
this.FinishOrder();
return true;
}
this.order.data.relaxed = true;
if (this.IsAnimal())
this.SetNextState("ANIMAL.WALKING");
else
this.SetNextState("INDIVIDUAL.WALKING");
},
"Order.PickupUnit": function(msg) {
let cmpGarrisonHolder = Engine.QueryInterface(this.entity, IID_GarrisonHolder);
if (!cmpGarrisonHolder || cmpGarrisonHolder.IsFull())
{
this.FinishOrder();
return;
}
let range = cmpGarrisonHolder.GetLoadingRange();
this.order.data.min = range.min;
this.order.data.max = range.max;
if (this.CheckRange(this.order.data))
{
this.FinishOrder();
return;
}
// Check if we need to move
// If the target can reach us and we are reasonably close, don't move.
// TODO: it would be slightly more optimal to check for real, not bird-flight distance.
let cmpPassengerMotion = Engine.QueryInterface(this.order.data.target, IID_UnitMotion);
if (cmpPassengerMotion &&
cmpPassengerMotion.IsTargetRangeReachable(this.entity, range.min, range.max) &&
PositionHelper.DistanceBetweenEntities(this.entity, this.order.data.target) < 200)
this.SetNextState("INDIVIDUAL.PICKUP.LOADING");
else
this.SetNextState("INDIVIDUAL.PICKUP.APPROACHING");
},
"Order.Guard": function(msg) {
if (!this.AddGuard(this.order.data.target))
{
this.FinishOrder();
return;
}
if (!this.CheckTargetRangeExplicit(this.isGuardOf, 0, this.guardRange))
this.SetNextState("INDIVIDUAL.GUARD.ESCORTING");
else
this.SetNextState("INDIVIDUAL.GUARD.GUARDING");
},
"Order.Flee": function(msg) {
if (this.IsAnimal())
this.SetNextState("ANIMAL.FLEEING");
else
this.SetNextState("INDIVIDUAL.FLEEING");
},
"Order.Attack": function(msg) {
let type = this.GetBestAttackAgainst(this.order.data.target, this.order.data.allowCapture);
if (!type)
{
// Oops, we can't attack at all
this.FinishOrder();
return;
}
this.order.data.attackType = type;
this.RememberTargetPosition();
if (this.order.data.hunting && this.orderQueue.length > 1 && this.orderQueue[1].type === "Gather")
this.RememberTargetPosition(this.orderQueue[1].data);
if (this.CheckTargetAttackRange(this.order.data.target, this.order.data.attackType))
{
if (this.CanUnpack())
{
this.PushOrderFront("Unpack", { "force": true });
return;
}
// Cancel any current packing order.
if (!this.EnsureCorrectPackStateForAttack(false))
return;
if (this.IsAnimal())
this.SetNextState("ANIMAL.COMBAT.ATTACKING");
else
this.SetNextState("INDIVIDUAL.COMBAT.ATTACKING");
return;
}
// If we're hunting, that's a special case where we should continue attacking our target.
if (this.GetStance().respondStandGround && !this.order.data.force && !this.order.data.hunting || !this.AbleToMove())
{
this.FinishOrder();
return;
}
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
// If we're currently packing/unpacking, make sure we are packed, so we can move.
if (!this.EnsureCorrectPackStateForAttack(true))
return;
if (this.IsAnimal())
this.SetNextState("ANIMAL.COMBAT.APPROACHING");
else
this.SetNextState("INDIVIDUAL.COMBAT.APPROACHING");
},
"Order.Patrol": function(msg) {
if (this.IsAnimal() || !this.AbleToMove())
{
this.FinishOrder();
return;
}
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
this.order.data.relaxed = true;
this.SetNextState("INDIVIDUAL.PATROL");
},
"Order.Heal": function(msg) {
if (!this.TargetIsAlive(this.order.data.target))
{
this.FinishOrder();
return;
}
// Healers can't heal themselves.
if (this.order.data.target == this.entity)
{
this.FinishOrder();
return;
}
if (this.CheckTargetRange(this.order.data.target, IID_Heal))
{
this.SetNextState("INDIVIDUAL.HEAL.HEALING");
return;
}
if (this.GetStance().respondStandGround && !this.order.data.force)
{
this.FinishOrder();
return;
}
this.SetNextState("INDIVIDUAL.HEAL.APPROACHING");
},
"Order.Gather": function(msg) {
if (!this.CanGather(this.order.data.target))
{
this.SetNextState("INDIVIDUAL.GATHER.FINDINGNEWTARGET");
return;
}
// If the unit is full go to the nearest dropsite instead of trying to gather.
// Unless our target is a treasure which we cannot be full enough with (we can't carry treasures).
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
if (msg.data.type.generic !== "treasure" && cmpResourceGatherer && !cmpResourceGatherer.CanCarryMore(msg.data.type.generic))
{
let nearestDropsite = this.FindNearestDropsite(msg.data.type.generic);
if (nearestDropsite)
this.PushOrderFront("ReturnResource", {
"target": nearestDropsite,
"force": false,
"type": msg.data.type
});
// Players expect the unit to move, so walk to the target instead of trying to gather.
else if (!this.FinishOrder())
this.WalkToTarget(msg.data.target, false);
return;
}
if (this.MustKillGatherTarget(this.order.data.target))
{
// Make sure we can attack the target, else we'll get very stuck
if (!this.GetBestAttackAgainst(this.order.data.target, false))
{
// Oops, we can't attack at all - give up
// TODO: should do something so the player knows why this failed
this.FinishOrder();
return;
}
// The target was visible when this order was issued,
// but could now be invisible again.
if (!this.CheckTargetVisible(this.order.data.target))
{
if (this.order.data.secondTry === undefined)
{
this.order.data.secondTry = true;
this.PushOrderFront("Walk", this.order.data.lastPos);
}
// We couldn't move there, or the target moved away
else
{
let data = this.order.data;
if (!this.FinishOrder())
this.PushOrderFront("GatherNearPosition", {
"x": data.lastPos.x,
"z": data.lastPos.z,
"type": data.type,
"template": data.template
});
}
return;
}
this.PushOrderFront("Attack", { "target": this.order.data.target, "force": !!this.order.data.force, "hunting": true, "allowCapture": false });
return;
}
this.RememberTargetPosition();
if (!this.order.data.initPos)
this.order.data.initPos = this.order.data.lastPos;
if (this.CheckTargetRange(this.order.data.target, IID_ResourceGatherer))
this.SetNextState("INDIVIDUAL.GATHER.GATHERING");
else
this.SetNextState("INDIVIDUAL.GATHER.APPROACHING");
},
"Order.GatherNearPosition": function(msg) {
this.SetNextState("INDIVIDUAL.GATHER.WALKING");
this.order.data.initPos = { 'x': this.order.data.x, 'z': this.order.data.z };
this.order.data.relaxed = true;
},
"Order.ReturnResource": function(msg) {
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
if (this.CheckTargetRange(this.order.data.target, IID_ResourceGatherer) &&
this.CanReturnResource(this.order.data.target, true, cmpResourceGatherer))
{
cmpResourceGatherer.CommitResources(this.order.data.target);
// Stop showing the carried resource animation.
this.SetDefaultAnimationVariant();
// Our next order should always be a Gather,
// so just switch back to that order.
this.FinishOrder();
return;
}
this.SetNextState("INDIVIDUAL.RETURNRESOURCE.APPROACHING");
},
"Order.Trade": function(msg) {
// We must check if this trader has both markets in case it was a back-to-work order
var cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
if (!cmpTrader || !cmpTrader.HasBothMarkets())
{
this.FinishOrder();
return;
}
// TODO find the nearest way-point from our position, and start with it
this.waypoints = undefined;
this.SetNextState("TRADE.APPROACHINGMARKET");
},
"Order.Repair": function(msg) {
if (this.CheckTargetRange(this.order.data.target, IID_Builder))
this.SetNextState("INDIVIDUAL.REPAIR.REPAIRING");
else
this.SetNextState("INDIVIDUAL.REPAIR.APPROACHING");
},
"Order.Garrison": function(msg) {
if (!this.AbleToMove())
{
this.SetNextState("IDLE");
return;
}
else if (this.IsGarrisoned())
{
if (this.IsAnimal())
this.SetNextState("ANIMAL.GARRISON.GARRISONED");
else
this.SetNextState("INDIVIDUAL.GARRISON.GARRISONED");
return;
}
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
if (this.IsAnimal())
this.SetNextState("ANIMAL.GARRISON.APPROACHING");
else
this.SetNextState("INDIVIDUAL.GARRISON.APPROACHING");
},
"Order.Ungarrison": function() {
this.FinishOrder();
this.isGarrisoned = false;
},
"Order.Cheer": function(msg) {
return { "discardOrder": true };
},
"Order.Pack": function(msg) {
if (this.CanPack())
this.SetNextState("INDIVIDUAL.PACKING");
},
"Order.Unpack": function(msg) {
if (this.CanUnpack())
this.SetNextState("INDIVIDUAL.UNPACKING");
},
"Order.CancelPack": function(msg) {
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
if (cmpPack && cmpPack.IsPacking() && !cmpPack.IsPacked())
cmpPack.CancelPack();
this.FinishOrder();
},
"Order.CancelUnpack": function(msg) {
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
if (cmpPack && cmpPack.IsPacking() && cmpPack.IsPacked())
cmpPack.CancelPack();
this.FinishOrder();
},
// States for the special entity representing a group of units moving in formation:
"FORMATIONCONTROLLER": {
"Order.Walk": function(msg) {
this.CallMemberFunction("SetHeldPosition", [msg.data.x, msg.data.z]);
this.SetNextState("WALKING");
},
"Order.WalkAndFight": function(msg) {
this.CallMemberFunction("SetHeldPosition", [msg.data.x, msg.data.z]);
this.SetNextState("WALKINGANDFIGHTING");
},
"Order.MoveIntoFormation": function(msg) {
this.CallMemberFunction("SetHeldPosition", [msg.data.x, msg.data.z]);
this.SetNextState("FORMING");
},
// Only used by other orders to walk there in formation
"Order.WalkToTargetRange": function(msg) {
if (!this.CheckRange(this.order.data))
this.SetNextState("WALKING");
else
this.FinishOrder();
},
"Order.WalkToTarget": function(msg) {
if (!this.CheckRange(this.order.data))
this.SetNextState("WALKING");
else
this.FinishOrder();
},
"Order.WalkToPointRange": function(msg) {
if (!this.CheckRange(this.order.data))
this.SetNextState("WALKING");
else
this.FinishOrder();
},
"Order.Patrol": function(msg) {
this.CallMemberFunction("SetHeldPosition", [msg.data.x, msg.data.z]);
this.SetNextState("PATROL");
},
"Order.Guard": function(msg) {
this.CallMemberFunction("Guard", [msg.data.target, false]);
var cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
cmpFormation.Disband();
},
"Order.Stop": function(msg) {
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
cmpFormation.ResetOrderVariant();
if (!this.IsAttackingAsFormation())
this.CallMemberFunction("Stop", [false]);
this.StopMoving();
this.FinishOrder();
// Don't move the members back into formation,
// as the formation then resets and it looks odd when walk-stopping.
// TODO: this should be improved in the formation reshaping code.
},
"Order.Attack": function(msg) {
let target = msg.data.target;
let allowCapture = msg.data.allowCapture;
let cmpTargetUnitAI = Engine.QueryInterface(target, IID_UnitAI);
if (cmpTargetUnitAI && cmpTargetUnitAI.IsFormationMember())
target = cmpTargetUnitAI.GetFormationController();
if (!this.CheckFormationTargetAttackRange(target))
{
if (this.CanAttack(target) && this.CheckTargetVisible(target))
{
this.SetNextState("COMBAT.APPROACHING");
return;
}
this.FinishOrder();
return;
}
this.CallMemberFunction("Attack", [target, allowCapture, false]);
let cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
if (cmpAttack && cmpAttack.CanAttackAsFormation())
this.SetNextState("COMBAT.ATTACKING");
else
this.SetNextState("MEMBER");
},
"Order.Garrison": function(msg) {
if (!Engine.QueryInterface(msg.data.target, IID_GarrisonHolder))
{
this.FinishOrder();
return;
}
if (!this.CheckGarrisonRange(msg.data.target))
{
if (!this.CheckTargetVisible(msg.data.target))
{
this.FinishOrder();
return;
}
else
{
this.SetNextState("GARRISON.APPROACHING");
return;
}
}
this.SetNextState("GARRISON.GARRISONING");
},
"Order.Gather": function(msg) {
if (this.MustKillGatherTarget(msg.data.target))
{
// The target was visible when this order was given,
// but could now be invisible.
if (!this.CheckTargetVisible(msg.data.target))
{
if (msg.data.secondTry === undefined)
{
msg.data.secondTry = true;
this.PushOrderFront("Walk", msg.data.lastPos);
}
// We couldn't move there, or the target moved away
else
{
let data = msg.data;
if (!this.FinishOrder())
this.PushOrderFront("GatherNearPosition", {
"x": data.lastPos.x,
"z": data.lastPos.z,
"type": data.type,
"template": data.template
});
}
return;
}
this.PushOrderFront("Attack", { "target": msg.data.target, "force": !!msg.data.force, "hunting": true, "allowCapture": false, "min": 0, "max": 10 });
return;
}
// TODO: on what should we base this range?
if (!this.CheckTargetRangeExplicit(msg.data.target, 0, 10))
{
if (!this.CanGather(msg.data.target) || !this.CheckTargetVisible(msg.data.target))
this.FinishOrder();
// TODO: Should we issue a gather-near-position order
// if the target isn't gatherable/doesn't exist anymore?
else
// Out of range; move there in formation
this.PushOrderFront("WalkToTargetRange", { "target": msg.data.target, "min": 0, "max": 10 });
return;
}
this.CallMemberFunction("Gather", [msg.data.target, false]);
this.SetNextState("MEMBER");
},
"Order.GatherNearPosition": function(msg) {
// TODO: on what should we base this range?
if (!this.CheckPointRangeExplicit(msg.data.x, msg.data.z, 0, 20))
{
// Out of range; move there in formation
this.PushOrderFront("WalkToPointRange", { "x": msg.data.x, "z": msg.data.z, "min": 0, "max": 20 });
return;
}
this.CallMemberFunction("GatherNearPosition", [msg.data.x, msg.data.z, msg.data.type, msg.data.template, false]);
this.SetNextState("MEMBER");
},
"Order.Heal": function(msg) {
// TODO: on what should we base this range?
if (!this.CheckTargetRangeExplicit(msg.data.target, 0, 10))
{
if (!this.TargetIsAlive(msg.data.target) || !this.CheckTargetVisible(msg.data.target))
this.FinishOrder();
else
// Out of range; move there in formation
this.PushOrderFront("WalkToTargetRange", { "target": msg.data.target, "min": 0, "max": 10 });
return;
}
this.CallMemberFunction("Heal", [msg.data.target, false]);
this.SetNextState("MEMBER");
},
"Order.Repair": function(msg) {
// TODO: on what should we base this range?
if (!this.CheckTargetRangeExplicit(msg.data.target, 0, 10))
{
if (!this.TargetIsAlive(msg.data.target) || !this.CheckTargetVisible(msg.data.target))
this.FinishOrder();
else
// Out of range move there in formation
this.PushOrderFront("WalkToTargetRange", { "target": msg.data.target, "min": 0, "max": 10 });
return;
}
this.CallMemberFunction("Repair", [msg.data.target, msg.data.autocontinue, false]);
this.SetNextState("MEMBER");
},
"Order.ReturnResource": function(msg) {
// TODO: on what should we base this range?
if (!this.CheckTargetRangeExplicit(msg.data.target, 0, 10))
{
if (!this.CheckTargetVisible(msg.data.target))
this.FinishOrder();
else
// Out of range; move there in formation
this.PushOrderFront("WalkToTargetRange", { "target": msg.data.target, "min": 0, "max": 10 });
return;
}
this.CallMemberFunction("ReturnResource", [msg.data.target, false]);
this.SetNextState("MEMBER");
},
"Order.Pack": function(msg) {
this.CallMemberFunction("Pack", [false]);
this.SetNextState("MEMBER");
},
"Order.Unpack": function(msg) {
this.CallMemberFunction("Unpack", [false]);
this.SetNextState("MEMBER");
},
"IDLE": {
"enter": function(msg) {
return false;
},
},
"WALKING": {
"enter": function() {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
cmpFormation.SetRearrange(true);
cmpFormation.MoveMembersIntoFormation(true, true);
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || this.CheckRange(this.order.data))
this.FinishOrder();
},
},
"WALKINGANDFIGHTING": {
"enter": function(msg) {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
this.StartTimer(0, 1000);
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
cmpFormation.SetRearrange(true);
cmpFormation.MoveMembersIntoFormation(true, true, "combat");
return false;
},
"leave": function() {
this.StopMoving();
this.StopTimer();
},
"Timer": function(msg) {
this.FindWalkAndFightTargets();
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || this.CheckRange(this.order.data))
this.FinishOrder();
},
},
"PATROL": {
"enter": function(msg) {
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
{
this.FinishOrder();
return true;
}
// Memorize the origin position in case that we want to go back.
if (!this.patrolStartPosOrder)
{
this.patrolStartPosOrder = cmpPosition.GetPosition();
this.patrolStartPosOrder.targetClasses = this.order.data.targetClasses;
this.patrolStartPosOrder.allowCapture = this.order.data.allowCapture;
}
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
this.StartTimer(0, 1000);
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
cmpFormation.SetRearrange(true);
cmpFormation.MoveMembersIntoFormation(true, true, "combat");
return false;
},
"Timer": function(msg) {
this.FindWalkAndFightTargets();
},
"leave": function(msg) {
this.StopTimer();
this.StopMoving();
delete this.patrolStartPosOrder;
},
"MovementUpdate": function(msg) {
if (!msg.likelyFailure && !this.CheckRange(this.order.data))
return;
/**
* A-B-A-B-..:
* if the user only commands one patrol order, the patrol will be between
* the last position and the defined waypoint
* A-B-C-..-A-B-..:
* otherwise, the patrol is only between the given patrol commands and the
* last position is not included (last position = the position where the unit
* is located at the time of the first patrol order)
*/
if (this.orderQueue.length == 1)
this.PushOrder("Patrol", this.patrolStartPosOrder);
this.PushOrder(this.order.type, this.order.data);
this.FinishOrder();
},
},
"GARRISON":{
"APPROACHING": {
"enter": function() {
if (!this.MoveToGarrisonRange(this.order.data.target))
{
this.FinishOrder();
return true;
}
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
cmpFormation.SetRearrange(true);
cmpFormation.MoveMembersIntoFormation(true, true);
// If the garrisonholder should pickup, warn it so it can take needed action.
let cmpGarrisonHolder = Engine.QueryInterface(this.order.data.target, IID_GarrisonHolder);
if (cmpGarrisonHolder && cmpGarrisonHolder.CanPickup(this.entity))
{
this.pickup = this.order.data.target; // temporary, deleted in "leave"
Engine.PostMessage(this.pickup, MT_PickupRequested, { "entity": this.entity });
}
return false;
},
"leave": function() {
this.StopMoving();
if (this.pickup)
{
Engine.PostMessage(this.pickup, MT_PickupCanceled, { "entity": this.entity });
delete this.pickup;
}
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || msg.likelySuccess)
this.SetNextState("GARRISONING");
},
},
"GARRISONING": {
"enter": function() {
this.CallMemberFunction("Garrison", [this.order.data.target, false]);
this.SetNextState("MEMBER");
return true;
},
},
},
"FORMING": {
"enter": function() {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
cmpFormation.SetRearrange(true);
cmpFormation.MoveMembersIntoFormation(true, true);
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
if (!msg.likelyFailure && !this.CheckRange(this.order.data))
return;
this.FinishOrder();
}
},
"COMBAT": {
"APPROACHING": {
"enter": function() {
if (!this.MoveFormationToTargetAttackRange(this.order.data.target))
{
this.FinishOrder();
return true;
}
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
cmpFormation.SetRearrange(true);
cmpFormation.MoveMembersIntoFormation(true, true, "combat");
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
let target = this.order.data.target;
let cmpTargetUnitAI = Engine.QueryInterface(target, IID_UnitAI);
if (cmpTargetUnitAI && cmpTargetUnitAI.IsFormationMember())
target = cmpTargetUnitAI.GetFormationController();
let cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
this.CallMemberFunction("Attack", [target, this.order.data.allowCapture, false]);
if (cmpAttack.CanAttackAsFormation())
this.SetNextState("COMBAT.ATTACKING");
else
this.SetNextState("MEMBER");
},
},
"ATTACKING": {
// Wait for individual members to finish
"enter": function(msg) {
let target = this.order.data.target;
let allowCapture = this.order.data.allowCapture;
if (!this.CheckFormationTargetAttackRange(target))
{
if (this.CanAttack(target) && this.CheckTargetVisible(target))
{
this.SetNextState("COMBAT.APPROACHING");
return true;
}
this.FinishOrder();
return true;
}
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
// TODO fix the rearranging while attacking as formation
cmpFormation.SetRearrange(!this.IsAttackingAsFormation());
cmpFormation.MoveMembersIntoFormation(false, false, "combat");
this.StartTimer(200, 200);
return false;
},
"Timer": function(msg) {
let target = this.order.data.target;
let allowCapture = this.order.data.allowCapture;
if (!this.CheckFormationTargetAttackRange(target))
{
if (this.CanAttack(target) && this.CheckTargetVisible(target))
{
this.SetNextState("COMBAT.APPROACHING");
return;
}
this.FinishOrder();
return;
}
},
"leave": function(msg) {
this.StopTimer();
var cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
if (cmpFormation)
cmpFormation.SetRearrange(true);
},
},
},
// Wait for individual members to finish
"MEMBER": {
"OrderTargetRenamed": function(msg) {
// In general, don't react - we don't want to send spurious messages to members.
// This looks odd for hunting hwoever because we wait for all
// entities to ahve clumped around the dead resource before proceeding
// so explicitly handle this case.
if (this.order && this.order.data && this.order.data.hunting &&
this.order.data.target == msg.data.newentity &&
this.orderQueue.length > 1)
this.FinishOrder();
},
"enter": function(msg) {
// Don't rearrange the formation, as that forces all units to stop
// what they're doing.
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
if (cmpFormation)
cmpFormation.SetRearrange(false);
// While waiting on members, the formation is more like
// a group of unit and does not have a well-defined position,
// so move the controller out of the world to enforce that.
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (cmpPosition && cmpPosition.IsInWorld())
{
this.StopMoving();
cmpPosition.MoveOutOfWorld();
}
this.StartTimer(1000, 1000);
return false;
},
"Timer": function(msg) {
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
if (cmpFormation && !cmpFormation.AreAllMembersWaiting())
return;
if (this.FinishOrder())
{
if (this.IsWalkingAndFighting())
this.FindWalkAndFightTargets();
return;
}
return;
},
"leave": function(msg) {
this.StopTimer();
// Reform entirely as members might be all over the place now.
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
if (cmpFormation)
cmpFormation.MoveMembersIntoFormation(true);
// Update the held position so entities respond to orders.
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (cmpPosition && cmpPosition.IsInWorld())
{
let pos = cmpPosition.GetPosition2D();
this.CallMemberFunction("SetHeldPosition", [pos.x, pos.y]);
}
},
},
},
// States for entities moving as part of a formation:
"FORMATIONMEMBER": {
"FormationLeave": function(msg) {
// Stop moving as soon as the formation disbands
// Keep current rotation
let facePointAfterMove = this.GetFacePointAfterMove();
this.SetFacePointAfterMove(false);
this.StopMoving();
this.SetFacePointAfterMove(facePointAfterMove);
// If the controller handled an order but some members rejected it,
// they will have no orders and be in the FORMATIONMEMBER.IDLE state.
if (this.orderQueue.length)
{
// We're leaving the formation, so stop our FormationWalk order
if (this.FinishOrder())
return;
}
this.formationAnimationVariant = undefined;
this.SetNextState("INDIVIDUAL.IDLE");
},
// Override the LeaveFoundation order since we're not doing
// anything more important (and we might be stuck in the WALKING
// state forever and need to get out of foundations in that case)
"Order.LeaveFoundation": function(msg) {
if (!this.WillMoveFromFoundation(msg.data.target))
{
this.FinishOrder();
return;
}
this.order.data.min = g_LeaveFoundationRange;
this.SetNextState("WALKINGTOPOINT");
},
"enter": function() {
if (this.IsAnimal())
{
warn("Entity " + this.entity + " was put in FORMATIONMEMBER state but is an animal");
this.FinishOrder();
this.SetNextState("ANIMAL.IDLE");
return true;
}
let cmpFormation = Engine.QueryInterface(this.formationController, IID_Formation);
if (cmpFormation)
{
this.formationAnimationVariant = cmpFormation.GetFormationAnimationVariant(this.entity);
if (this.formationAnimationVariant)
this.SetAnimationVariant(this.formationAnimationVariant);
else
this.SetDefaultAnimationVariant();
}
return false;
},
"leave": function() {
this.SetDefaultAnimationVariant();
this.formationAnimationVariant = undefined;
},
"IDLE": "INDIVIDUAL.IDLE",
"CHEERING": "INDIVIDUAL.CHEERING",
"WALKING": {
"enter": function() {
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
cmpUnitMotion.MoveToFormationOffset(this.order.data.target, this.order.data.x, this.order.data.z);
if (this.order.data.offsetsChanged)
{
let cmpFormation = Engine.QueryInterface(this.formationController, IID_Formation);
if (cmpFormation)
this.formationAnimationVariant = cmpFormation.GetFormationAnimationVariant(this.entity);
}
if (this.formationAnimationVariant)
this.SetAnimationVariant(this.formationAnimationVariant);
else if (this.order.data.variant)
this.SetAnimationVariant(this.order.data.variant);
else
this.SetDefaultAnimationVariant();
return false;
},
"leave": function() {
// Don't use the logic from unitMotion, as SetInPosition
// has already given us a custom rotation
// (or we failed to move and thus don't care.)
let facePointAfterMove = this.GetFacePointAfterMove();
this.SetFacePointAfterMove(false);
this.StopMoving();
this.SetFacePointAfterMove(facePointAfterMove);
},
// Occurs when the unit has reached its destination and the controller
// is done moving. The controller is notified.
"MovementUpdate": function(msg) {
// When walking in formation, we'll only get notified in case of failure
// if the formation controller has stopped walking.
// Formations can start lagging a lot if many entities request short path
// so prefer to finish order early than retry pathing.
// (see https://code.wildfiregames.com/rP23806)
// (if the message is likelyFailure of likelySuccess, we also want to stop).
this.FinishOrder();
},
},
// Special case used by Order.LeaveFoundation
"WALKINGTOPOINT": {
"enter": function() {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
return false;
},
"MovementUpdate": function() {
if (!this.CheckRange(this.order.data))
return;
this.StopMoving();
this.FinishOrder();
},
},
},
// States for entities not part of a formation:
"INDIVIDUAL": {
"enter": function() {
if (this.IsAnimal())
error("Animal got moved into INDIVIDUAL.* state");
return false;
},
"Attacked": function(msg) {
if (this.GetStance().targetAttackersAlways || !this.order || !this.order.data || !this.order.data.force)
this.RespondToTargetedEntities([msg.data.attacker]);
},
"GuardedAttacked": function(msg) {
// do nothing if we have a forced order in queue before the guard order
for (var i = 0; i < this.orderQueue.length; ++i)
{
if (this.orderQueue[i].type == "Guard")
break;
if (this.orderQueue[i].data && this.orderQueue[i].data.force)
return;
}
// if we already are targeting another unit still alive, finish with it first
if (this.order && (this.order.type == "WalkAndFight" || this.order.type == "Attack"))
if (this.order.data.target != msg.data.attacker && this.CanAttack(msg.data.attacker))
return;
var cmpIdentity = Engine.QueryInterface(this.entity, IID_Identity);
var cmpHealth = Engine.QueryInterface(this.isGuardOf, IID_Health);
if (cmpIdentity && cmpIdentity.HasClass("Support") &&
cmpHealth && cmpHealth.IsInjured())
{
if (this.CanHeal(this.isGuardOf))
this.PushOrderFront("Heal", { "target": this.isGuardOf, "force": false });
else if (this.CanRepair(this.isGuardOf))
this.PushOrderFront("Repair", { "target": this.isGuardOf, "autocontinue": false, "force": false });
return;
}
var cmpBuildingAI = Engine.QueryInterface(msg.data.attacker, IID_BuildingAI);
if (cmpBuildingAI && this.CanRepair(this.isGuardOf))
{
this.PushOrderFront("Repair", { "target": this.isGuardOf, "autocontinue": false, "force": false });
return;
}
if (this.CheckTargetVisible(msg.data.attacker))
this.PushOrderFront("Attack", { "target": msg.data.attacker, "force": false, "allowCapture": true });
else
{
var cmpPosition = Engine.QueryInterface(msg.data.attacker, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
return;
var pos = cmpPosition.GetPosition();
this.PushOrderFront("WalkAndFight", { "x": pos.x, "z": pos.z, "target": msg.data.attacker, "force": false });
// if we already had a WalkAndFight, keep only the most recent one in case the target has moved
if (this.orderQueue[1] && this.orderQueue[1].type == "WalkAndFight")
{
this.orderQueue.splice(1, 1);
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
}
}
},
"IDLE": {
"Order.Cheer": function() {
// Do not cheer if there is no cheering time.
if (!this.cheeringTime)
return { "discardOrder": true };
this.SetNextState("CHEERING");
return false;
},
"enter": function() {
// Switch back to idle animation to guarantee we won't
// get stuck with an incorrect animation
this.SelectAnimation("idle");
// Idle is the default state. If units try, from the IDLE.enter sub-state, to
// begin another order, and that order fails (calling FinishOrder), they might
// end up in an infinite loop. To avoid this, all methods that could put the unit in
// a new state are done on the next turn.
// This wastes a turn but avoids infinite loops.
// Further, the GUI and AI want to know when a unit is idle,
// but sending this info in Idle.enter will send spurious messages.
// Pick 100 to execute on the next turn in SP and MP.
this.StartTimer(100);
return false;
},
"leave": function() {
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (this.losRangeQuery)
cmpRangeManager.DisableActiveQuery(this.losRangeQuery);
if (this.losHealRangeQuery)
cmpRangeManager.DisableActiveQuery(this.losHealRangeQuery);
if (this.losAttackRangeQuery)
cmpRangeManager.DisableActiveQuery(this.losAttackRangeQuery);
this.StopTimer();
if (this.isIdle)
{
this.isIdle = false;
Engine.PostMessage(this.entity, MT_UnitIdleChanged, { "idle": this.isIdle });
}
},
// On the range updates:
// We check for idleness to prevent an entity to react only to newly seen entities
// when receiving a Los*RangeUpdate on the same turn as the entity becomes idle
// since this.FindNew*Targets is called in the timer.
"LosRangeUpdate": function(msg) {
if (this.isIdle && msg && msg.data && msg.data.added && msg.data.added.length)
this.RespondToSightedEntities(msg.data.added);
},
"LosHealRangeUpdate": function(msg) {
if (this.isIdle && msg && msg.data && msg.data.added && msg.data.added.length)
this.RespondToHealableEntities(msg.data.added);
},
"LosAttackRangeUpdate": function(msg) {
if (this.isIdle && msg && msg.data && msg.data.added && msg.data.added.length && this.GetStance().targetVisibleEnemies)
this.AttackEntitiesByPreference(msg.data.added);
},
"Timer": function(msg) {
if (this.isGuardOf)
{
this.Guard(this.isGuardOf, false);
return;
}
// If a unit can heal and attack we first want to heal wounded units,
// so check if we are a healer and find whether there's anybody nearby to heal.
// (If anyone approaches later it'll be handled via LosHealRangeUpdate.)
// If anyone in sight gets hurt that will be handled via LosHealRangeUpdate.
if (this.IsHealer() && this.FindNewHealTargets())
return;
// If we entered the idle state we must have nothing better to do,
// so immediately check whether there's anybody nearby to attack.
// (If anyone approaches later, it'll be handled via LosAttackRangeUpdate.)
if (this.FindNewTargets())
return;
if (this.FindSightedEnemies())
return;
if (!this.isIdle)
{
// Move back to the held position if we drifted away.
// (only if not a formation member).
if (!this.IsFormationMember() &&
this.GetStance().respondHoldGround && this.heldPosition &&
!this.CheckPointRangeExplicit(this.heldPosition.x, this.heldPosition.z, 0, 10) &&
this.WalkToHeldPosition())
return;
this.isIdle = true;
Engine.PostMessage(this.entity, MT_UnitIdleChanged, { "idle": this.isIdle });
}
},
},
"WALKING": {
"enter": function() {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
// If it looks like the path is failing, and we are close enough stop anyways.
// This avoids pathing for an unreachable goal and reduces lag considerably.
if (msg.likelyFailure || msg.obstructed && this.RelaxedMaxRangeCheck(this.order.data, this.DefaultRelaxedMaxRange) ||
this.CheckRange(this.order.data))
this.FinishOrder();
},
},
"WALKINGANDFIGHTING": {
"enter": function() {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
// Show weapons rather than carried resources.
this.SetAnimationVariant("combat");
this.StartTimer(0, 1000);
return false;
},
"Timer": function(msg) {
this.FindWalkAndFightTargets();
},
"leave": function(msg) {
this.StopMoving();
this.StopTimer();
this.SetDefaultAnimationVariant();
},
"MovementUpdate": function(msg) {
// If it looks like the path is failing, and we are close enough stop anyways.
// This avoids pathing for an unreachable goal and reduces lag considerably.
if (msg.likelyFailure || msg.obstructed && this.RelaxedMaxRangeCheck(this.order.data, this.DefaultRelaxedMaxRange) ||
this.CheckRange(this.order.data))
this.FinishOrder();
},
},
"PATROL": {
"enter": function() {
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld() ||
!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
// Memorize the origin position in case that we want to go back.
if (!this.patrolStartPosOrder)
{
this.patrolStartPosOrder = cmpPosition.GetPosition();
this.patrolStartPosOrder.targetClasses = this.order.data.targetClasses;
this.patrolStartPosOrder.allowCapture = this.order.data.allowCapture;
}
this.StartTimer(0, 1000);
this.SetAnimationVariant("combat");
return false;
},
"leave": function() {
this.StopMoving();
this.StopTimer();
delete this.patrolStartPosOrder;
this.SetDefaultAnimationVariant();
},
"Timer": function(msg) {
this.FindWalkAndFightTargets();
},
"MovementUpdate": function(msg) {
if (!msg.likelyFailure && !msg.likelySuccess && !this.RelaxedMaxRangeCheck(this.order.data, this.DefaultRelaxedMaxRange))
return;
if (this.orderQueue.length == 1)
this.PushOrder("Patrol", this.patrolStartPosOrder);
this.PushOrder(this.order.type, this.order.data);
this.FinishOrder();
},
},
"GUARD": {
"RemoveGuard": function() {
this.StopMoving();
this.FinishOrder();
},
"ESCORTING": {
"enter": function() {
if (!this.MoveToTargetRangeExplicit(this.isGuardOf, 0, this.guardRange))
{
this.FinishOrder();
return true;
}
// Show weapons rather than carried resources.
this.SetAnimationVariant("combat");
this.StartTimer(0, 1000);
this.SetHeldPositionOnEntity(this.isGuardOf);
return false;
},
"Timer": function(msg) {
if (!this.ShouldGuard(this.isGuardOf))
{
this.FinishOrder();
return;
}
let cmpObstructionManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_ObstructionManager);
if (cmpObstructionManager.IsInTargetRange(this.entity, this.isGuardOf, 0, 3 * this.guardRange, false))
this.TryMatchTargetSpeed(this.isGuardOf, false);
this.SetHeldPositionOnEntity(this.isGuardOf);
},
"leave": function(msg) {
this.StopMoving();
this.ResetSpeedMultiplier();
this.StopTimer();
this.SetDefaultAnimationVariant();
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || this.CheckTargetRangeExplicit(this.isGuardOf, 0, this.guardRange))
this.SetNextState("GUARDING");
},
},
"GUARDING": {
"enter": function() {
this.StopMoving();
this.StartTimer(1000, 1000);
this.SetHeldPositionOnEntity(this.entity);
this.SetAnimationVariant("combat");
this.FaceTowardsTarget(this.order.data.target);
return false;
},
"LosAttackRangeUpdate": function(msg) {
if (this.GetStance().targetVisibleEnemies)
this.AttackEntitiesByPreference(msg.data.added);
},
"Timer": function(msg) {
if (!this.ShouldGuard(this.isGuardOf))
{
this.FinishOrder();
return;
}
// TODO: find out what to do if we cannot move.
if (!this.CheckTargetRangeExplicit(this.isGuardOf, 0, this.guardRange) &&
this.MoveToTargetRangeExplicit(this.isGuardOf, 0, this.guardRange))
this.SetNextState("ESCORTING");
else
{
this.FaceTowardsTarget(this.order.data.target);
var cmpHealth = Engine.QueryInterface(this.isGuardOf, IID_Health);
if (cmpHealth && cmpHealth.IsInjured())
{
if (this.CanHeal(this.isGuardOf))
this.PushOrderFront("Heal", { "target": this.isGuardOf, "force": false });
else if (this.CanRepair(this.isGuardOf))
this.PushOrderFront("Repair", { "target": this.isGuardOf, "autocontinue": false, "force": false });
}
}
},
"leave": function(msg) {
this.StopTimer();
this.SetDefaultAnimationVariant();
},
},
},
"FLEEING": {
"enter": function() {
// We use the distance between the entities to account for ranged attacks
this.order.data.distanceToFlee = PositionHelper.DistanceBetweenEntities(this.entity, this.order.data.target) + (+this.template.FleeDistance);
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
// Use unit motion directly to ignore the visibility check. TODO: change this if we add LOS to fauna.
if (this.CheckTargetRangeExplicit(this.order.data.target, this.order.data.distanceToFlee, -1) ||
!cmpUnitMotion || !cmpUnitMotion.MoveToTargetRange(this.order.data.target, this.order.data.distanceToFlee, -1))
{
this.FinishOrder();
return true;
}
this.PlaySound("panic");
this.SetSpeedMultiplier(this.GetRunMultiplier());
return false;
},
"OrderTargetRenamed": function(msg) {
// To avoid replaying the panic sound, handle this explicitly.
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (this.CheckTargetRangeExplicit(this.order.data.target, this.order.data.distanceToFlee, -1) ||
!cmpUnitMotion || !cmpUnitMotion.MoveToTargetRange(this.order.data.target, this.order.data.distanceToFlee, -1))
this.FinishOrder();
},
"HealthChanged": function() {
this.SetSpeedMultiplier(this.GetRunMultiplier());
},
"leave": function() {
this.ResetSpeedMultiplier();
this.StopMoving();
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || this.CheckTargetRangeExplicit(this.order.data.target, this.order.data.distanceToFlee, -1))
this.FinishOrder();
},
// TODO: what if we run into more enemies while fleeing?
},
"COMBAT": {
"Order.LeaveFoundation": function(msg) {
// Ignore the order as we're busy.
return { "discardOrder": true };
},
"Attacked": function(msg) {
// If we're already in combat mode, ignore anyone else who's attacking us
// unless it's a melee attack since they may be blocking our way to the target
if (msg.data.type == "Melee" && (this.GetStance().targetAttackersAlways || !this.order.data.force))
this.RespondToTargetedEntities([msg.data.attacker]);
},
"leave": function() {
if (!this.formationAnimationVariant)
this.SetDefaultAnimationVariant();
},
"APPROACHING": {
"enter": function() {
if (!this.MoveToTargetAttackRange(this.order.data.target, this.order.data.attackType))
{
this.FinishOrder();
return true;
}
if (!this.formationAnimationVariant)
this.SetAnimationVariant("combat");
this.StartTimer(1000, 1000);
return false;
},
"leave": function() {
this.StopMoving();
this.StopTimer();
},
"Timer": function(msg) {
if (this.ShouldAbandonChase(this.order.data.target, this.order.data.force, IID_Attack, this.order.data.attackType))
{
this.StopMoving();
this.FinishOrder();
if (this.GetStance().respondHoldGround)
this.WalkToHeldPosition();
}
else
{
this.RememberTargetPosition();
if (this.order.data.hunting && this.orderQueue.length > 1 &&
this.orderQueue[1].type === "Gather")
this.RememberTargetPosition(this.orderQueue[1].data);
}
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure)
{
// This also handles hunting.
if (this.orderQueue.length > 1)
{
this.FinishOrder();
return;
}
else if (!this.order.data.force || !this.order.data.lastPos)
{
this.SetNextState("COMBAT.FINDINGNEWTARGET");
return;
}
let lastPos = this.order.data.lastPos;
this.PushOrder("WalkAndFight", { "x": lastPos.x, "z": lastPos.z, "force": false });
return;
}
if (this.CheckTargetAttackRange(this.order.data.target, this.order.data.attackType))
{
if (this.CanUnpack())
{
this.PushOrderFront("Unpack", { "force": true });
return;
}
this.SetNextState("ATTACKING");
}
else if (msg.likelySuccess)
// Try moving again,
// attack range uses a height-related formula and our actual max range might have changed.
if (!this.MoveToTargetAttackRange(this.order.data.target, this.order.data.attackType))
this.FinishOrder();
},
},
"ATTACKING": {
"enter": function() {
let target = this.order.data.target;
let cmpFormation = Engine.QueryInterface(target, IID_Formation);
if (cmpFormation)
{
this.order.data.formationTarget = target;
target = cmpFormation.GetClosestMember(this.entity);
this.order.data.target = target;
}
this.shouldCheer = false;
if (!this.CanAttack(target))
{
this.SetNextState("COMBAT.FINDINGNEWTARGET");
return true;
}
if (!this.CheckTargetAttackRange(target, this.order.data.attackType))
{
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return true;
}
this.SetNextState("COMBAT.APPROACHING");
return true;
}
this.StopMoving();
let cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
this.attackTimers = cmpAttack.GetTimers(this.order.data.attackType);
// If the repeat time since the last attack hasn't elapsed,
// delay this attack to avoid attacking too fast.
let prepare = this.attackTimers.prepare;
if (this.lastAttacked)
{
let cmpTimer = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer);
let repeatLeft = this.lastAttacked + this.attackTimers.repeat - cmpTimer.GetTime();
prepare = Math.max(prepare, repeatLeft);
}
if (!this.formationAnimationVariant)
this.SetAnimationVariant("combat");
this.oldAttackType = this.order.data.attackType;
this.SelectAnimation("attack_" + this.order.data.attackType.toLowerCase());
this.SetAnimationSync(prepare, this.attackTimers.repeat);
this.StartTimer(prepare, this.attackTimers.repeat);
// TODO: we should probably only bother syncing projectile attacks, not melee
// If using a non-default prepare time, re-sync the animation when the timer runs.
this.resyncAnimation = prepare != this.attackTimers.prepare;
this.FaceTowardsTarget(this.order.data.target);
let cmpBuildingAI = Engine.QueryInterface(this.entity, IID_BuildingAI);
if (cmpBuildingAI)
{
cmpBuildingAI.SetUnitAITarget(this.order.data.target);
return false;
}
let cmpUnitAI = Engine.QueryInterface(this.order.data.target, IID_UnitAI);
// Units with no cheering time do not cheer.
this.shouldCheer = cmpUnitAI && (!cmpUnitAI.IsAnimal() || cmpUnitAI.IsDangerousAnimal()) && this.cheeringTime > 0;
return false;
},
"leave": function() {
let cmpBuildingAI = Engine.QueryInterface(this.entity, IID_BuildingAI);
if (cmpBuildingAI)
cmpBuildingAI.SetUnitAITarget(0);
this.StopTimer();
this.ResetAnimation();
},
"Timer": function(msg) {
let target = this.order.data.target;
let attackType = this.order.data.attackType;
if (!this.CanAttack(target))
{
this.SetNextState("COMBAT.FINDINGNEWTARGET");
return;
}
this.RememberTargetPosition();
if (this.order.data.hunting && this.orderQueue.length > 1 && this.orderQueue[1].type === "Gather")
this.RememberTargetPosition(this.orderQueue[1].data);
let cmpTimer = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer);
this.lastAttacked = cmpTimer.GetTime() - msg.lateness;
this.FaceTowardsTarget(target);
// BuildingAI has it's own attack-routine
let cmpBuildingAI = Engine.QueryInterface(this.entity, IID_BuildingAI);
if (!cmpBuildingAI)
{
let cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
cmpAttack.PerformAttack(attackType, target);
}
// PerformAttack might have triggered messages that moved us to another state.
// (use 'ends with' to handle animals/formation members copying our state).
if (!this.GetCurrentState().endsWith("COMBAT.ATTACKING"))
return;
// Check we can still reach the target for the next attack
if (this.CheckTargetAttackRange(target, attackType))
{
if (this.resyncAnimation)
{
this.SetAnimationSync(this.attackTimers.repeat, this.attackTimers.repeat);
this.resyncAnimation = false;
}
return;
}
if (this.ShouldChaseTargetedEntity(target, this.order.data.force))
{
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
this.SetNextState("COMBAT.CHASING");
return;
}
this.SetNextState("FINDINGNEWTARGET");
},
// TODO: respond to target deaths immediately, rather than waiting
// until the next Timer event
"Attacked": function(msg) {
if (this.order.data.attackType == "Capture" && (this.GetStance().targetAttackersAlways || !this.order.data.force)
&& this.order.data.target != msg.data.attacker && this.GetBestAttackAgainst(msg.data.attacker, true) != "Capture")
this.RespondToTargetedEntities([msg.data.attacker]);
},
},
"FINDINGNEWTARGET": {
"Order.Cheer": function() {
if (!this.cheeringTime)
return { "discardOrder": true };
this.SetNextState("CHEERING");
return false;
},
"enter": function() {
// Try to find the formation the target was a part of.
let cmpFormation = Engine.QueryInterface(this.order.data.target, IID_Formation);
if (!cmpFormation)
cmpFormation = Engine.QueryInterface(this.order.data.formationTarget || INVALID_ENTITY, IID_Formation);
// If the target is a formation, pick closest member.
if (cmpFormation)
{
let filter = (t) => this.CanAttack(t);
this.order.data.formationTarget = this.order.data.target;
let target = cmpFormation.GetClosestMember(this.entity, filter);
this.order.data.target = target;
this.SetNextState("COMBAT.ATTACKING");
return true;
}
// Can't reach it, no longer owned by enemy, or it doesn't exist any more - give up
// except if in WalkAndFight mode where we look for more enemies around before moving again.
if (this.FinishOrder())
{
if (this.IsWalkingAndFighting())
this.FindWalkAndFightTargets();
return true;
}
if (this.FindNewTargets())
return true;
if (this.GetStance().respondHoldGround)
this.WalkToHeldPosition();
if (this.shouldCheer)
{
this.Cheer();
this.CallPlayerOwnedEntitiesFunctionInRange("Cheer", [], this.notifyToCheerInRange);
}
return true;
},
},
"CHASING": {
"Order.MoveToChasingPoint": function(msg) {
if (this.CheckPointRangeExplicit(msg.data.x, msg.data.z, 0, msg.data.max))
{
this.StopMoving();
this.FinishOrder();
return;
}
this.order.data.relaxed = true;
this.StopTimer();
this.SetNextState("MOVINGTOPOINT");
},
"enter": function() {
if (!this.MoveToTargetAttackRange(this.order.data.target, this.order.data.attackType))
{
this.FinishOrder();
return true;
}
if (!this.formationAnimationVariant)
this.SetAnimationVariant("combat");
var cmpUnitAI = Engine.QueryInterface(this.order.data.target, IID_UnitAI);
if (cmpUnitAI && cmpUnitAI.IsFleeing())
this.SetSpeedMultiplier(this.GetRunMultiplier());
this.StartTimer(1000, 1000);
return false;
},
"leave": function() {
this.ResetSpeedMultiplier();
this.StopMoving();
this.StopTimer();
},
"Timer": function(msg) {
if (this.ShouldAbandonChase(this.order.data.target, this.order.data.force, IID_Attack, this.order.data.attackType))
{
this.StopMoving();
this.FinishOrder();
if (this.GetStance().respondHoldGround)
this.WalkToHeldPosition();
}
else
{
this.RememberTargetPosition();
if (this.order.data.hunting && this.orderQueue.length > 1 &&
this.orderQueue[1].type === "Gather")
this.RememberTargetPosition(this.orderQueue[1].data);
}
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure)
{
// This also handles hunting.
if (this.orderQueue.length > 1)
{
this.FinishOrder();
return;
}
else if (!this.order.data.force)
{
this.SetNextState("COMBAT.FINDINGNEWTARGET");
return;
}
else if (this.order.data.lastPos)
{
let lastPos = this.order.data.lastPos;
let cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
this.PushOrder("MoveToChasingPoint", {
"x": lastPos.x,
"z": lastPos.z,
"max": cmpAttack.GetRange(this.order.data.attackType).max,
"force": true
});
return;
}
}
if (this.CheckTargetAttackRange(this.order.data.target, this.order.data.attackType))
{
if (this.CanUnpack())
{
this.PushOrderFront("Unpack", { "force": true });
return;
}
this.SetNextState("ATTACKING");
}
else if (msg.likelySuccess)
// Try moving again,
// attack range uses a height-related formula and our actual max range might have changed.
if (!this.MoveToTargetAttackRange(this.order.data.target, this.order.data.attackType))
this.FinishOrder();
},
"MOVINGTOPOINT": {
"enter": function() {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
// If it looks like the path is failing, and we are close enough from wanted range
// stop anyways. This avoids pathing for an unreachable goal and reduces lag considerably.
if (msg.likelyFailure ||
msg.obstructed && this.RelaxedMaxRangeCheck(this.order.data, this.order.data.max + this.DefaultRelaxedMaxRange) ||
!msg.obstructed && this.CheckRange(this.order.data))
this.FinishOrder();
},
},
},
},
"GATHER": {
"leave": function() {
// Show the carried resource, if we've gathered anything.
this.SetDefaultAnimationVariant();
},
"APPROACHING": {
"enter": function() {
this.gatheringTarget = this.order.data.target; // temporary, deleted in "leave".
let cmpSupply = Engine.QueryInterface(this.gatheringTarget, IID_ResourceSupply);
let cmpMirage = Engine.QueryInterface(this.gatheringTarget, IID_Mirage);
if ((!cmpMirage || !cmpMirage.Mirages(IID_ResourceSupply)) &&
(!cmpSupply || !cmpSupply.AddGatherer(this.entity)) ||
!this.MoveTo(this.order.data, IID_ResourceGatherer))
{
// If the target's last known position is in FOW, try going there
// and hope that we might find it then.
let lastPos = this.order.data.lastPos;
if (this.gatheringTarget != INVALID_ENTITY &&
lastPos && !this.CheckPositionVisible(lastPos.x, lastPos.z))
{
this.PushOrderFront("Walk", {
"x": lastPos.x, "z": lastPos.z,
"force": this.order.data.force
});
return true;
}
this.SetNextState("FINDINGNEWTARGET");
return true;
}
this.SetAnimationVariant("approach_" + this.order.data.type.specific);
+ let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
+ if (cmpResourceGatherer)
+ cmpResourceGatherer.AddToPlayerCounter(this.order.data.type.generic);
return false;
},
"MovementUpdate": function(msg) {
// The GATHERING timer will handle finding a valid resource.
if (msg.likelyFailure)
this.SetNextState("FINDINGNEWTARGET");
else if (this.CheckRange(this.order.data, IID_ResourceGatherer))
this.SetNextState("GATHERING");
},
"leave": function() {
this.StopMoving();
if (!this.gatheringTarget)
return;
// don't use ownership because this is called after a conversion/resignation
// and the ownership would be invalid then.
let cmpSupply = Engine.QueryInterface(this.gatheringTarget, IID_ResourceSupply);
if (cmpSupply)
cmpSupply.RemoveGatherer(this.entity);
+
+ let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
+ if (cmpResourceGatherer)
+ cmpResourceGatherer.RemoveFromPlayerCounter();
+
delete this.gatheringTarget;
},
},
// Walking to a good place to gather resources near, used by GatherNearPosition
"WALKING": {
"enter": function() {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
this.SetAnimationVariant("approach_" + this.order.data.type.specific);
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
// If we failed, the GATHERING timer will handle finding a valid resource.
if (msg.likelyFailure || msg.obstructed && this.RelaxedMaxRangeCheck(this.order.data, this.DefaultRelaxedMaxRange) ||
this.CheckRange(this.order.data))
this.SetNextState("GATHERING");
},
},
"GATHERING": {
"enter": function() {
this.gatheringTarget = this.order.data.target || INVALID_ENTITY; // deleted in "leave".
// Check if the resource is full.
// Will only be added if we're not already in.
let cmpSupply = Engine.QueryInterface(this.gatheringTarget, IID_ResourceSupply);
if (!cmpSupply || !cmpSupply.AddGatherer(this.entity))
{
this.SetNextState("FINDINGNEWTARGET");
return true;
}
// If this order was forced, the player probably gave it, but now we've reached the target
// switch to an unforced order (can be interrupted by attacks)
this.order.data.force = false;
this.order.data.autoharvest = true;
// Calculate timing based on gather rates
// This allows the gather rate to control how often we gather, instead of how much.
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
let rate = cmpResourceGatherer.GetTargetGatherRate(this.gatheringTarget);
if (!rate)
{
// Try to find another target if the current one stopped existing
if (!Engine.QueryInterface(this.gatheringTarget, IID_Identity))
{
this.SetNextState("FINDINGNEWTARGET");
return true;
}
// No rate, give up on gathering
this.FinishOrder();
return true;
}
// Scale timing interval based on rate, and start timer
// The offset should be at least as long as the repeat time so we use the same value for both.
let offset = 1000 / rate;
this.StartTimer(offset, offset);
// We want to start the gather animation as soon as possible,
// but only if we're actually at the target and it's still alive
// (else it'll look like we're chopping empty air).
// (If it's not alive, the Timer handler will deal with sending us
// off to a different target.)
if (this.CheckTargetRange(this.gatheringTarget, IID_ResourceGatherer))
{
this.StopMoving();
this.SetDefaultAnimationVariant();
this.FaceTowardsTarget(this.order.data.target);
this.SelectAnimation("gather_" + this.order.data.type.specific);
+ cmpResourceGatherer.AddToPlayerCounter(this.order.data.type.generic);
}
return false;
},
"leave": function() {
this.StopTimer();
// Don't use ownership because this is called after a conversion/resignation
// and the ownership would be invalid then.
let cmpSupply = Engine.QueryInterface(this.gatheringTarget, IID_ResourceSupply);
if (cmpSupply)
cmpSupply.RemoveGatherer(this.entity);
+
+ let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
+ if (cmpResourceGatherer)
+ cmpResourceGatherer.RemoveFromPlayerCounter();
+
delete this.gatheringTarget;
this.ResetAnimation();
},
"Timer": function(msg) {
let resourceTemplate = this.order.data.template;
let resourceType = this.order.data.type;
// TODO: we are leaking information here - if the target died in FOW, we'll know it's dead
// straight away.
// Seems one would have to listen to ownership changed messages to make it work correctly
// but that's likely prohibitively expansive performance wise.
let cmpSupply = Engine.QueryInterface(this.gatheringTarget, IID_ResourceSupply);
// If we can't gather from the target, find a new one.
if (!cmpSupply || !cmpSupply.IsAvailableTo(this.entity) ||
!this.CanGather(this.gatheringTarget))
{
this.SetNextState("FINDINGNEWTARGET");
return;
}
if (!this.CheckTargetRange(this.gatheringTarget, IID_ResourceGatherer))
{
// Try to follow the target
if (this.MoveToTargetRange(this.gatheringTarget, IID_ResourceGatherer))
this.SetNextState("APPROACHING");
// Our target is no longer visible - go to its last known position first
// and then hopefully it will become visible.
else if (!this.CheckTargetVisible(this.gatheringTarget) && this.order.data.lastPos)
this.PushOrderFront("Walk", {
"x": this.order.data.lastPos.x,
"z": this.order.data.lastPos.z,
"force": this.order.data.force
});
else
this.SetNextState("FINDINGNEWTARGET");
return;
}
// Gather the resources:
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
// Try to gather treasure
if (cmpResourceGatherer.TryInstantGather(this.gatheringTarget))
return;
// If we've already got some resources but they're the wrong type,
// drop them first to ensure we're only ever carrying one type
if (cmpResourceGatherer.IsCarryingAnythingExcept(resourceType.generic))
cmpResourceGatherer.DropResources();
this.FaceTowardsTarget(this.order.data.target);
// Collect from the target
let status = cmpResourceGatherer.PerformGather(this.gatheringTarget);
// If we've collected as many resources as possible,
// return to the nearest dropsite
if (status.filled)
{
let nearestDropsite = this.FindNearestDropsite(resourceType.generic);
if (nearestDropsite)
{
// (Keep this Gather order on the stack so we'll
// continue gathering after returning)
// However mark our target as invalid if it's exhausted, so we don't waste time
// trying to gather from it.
if (status.exhausted)
this.order.data.target = INVALID_ENTITY;
this.PushOrderFront("ReturnResource", { "target": nearestDropsite, "force": false });
return;
}
// Oh no, couldn't find any drop sites. Give up on gathering.
this.FinishOrder();
return;
}
if (status.exhausted)
this.SetNextState("FINDINGNEWTARGET");
},
},
"FINDINGNEWTARGET": {
"enter": function() {
let previousTarget = this.order.data.target;
let resourceTemplate = this.order.data.template;
let resourceType = this.order.data.type;
// Give up on this order and try our next queued order
// but first check what is our next order and, if needed, insert a returnResource order
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
if (cmpResourceGatherer.IsCarrying(resourceType.generic) &&
this.orderQueue.length > 1 && this.orderQueue[1] !== "ReturnResource" &&
(this.orderQueue[1].type !== "Gather" || this.orderQueue[1].data.type.generic !== resourceType.generic))
{
let nearestDropsite = this.FindNearestDropsite(resourceType.generic);
if (nearestDropsite)
this.orderQueue.splice(1, 0, { "type": "ReturnResource", "data": { "target": nearestDropsite, "force": false } });
}
// Must go before FinishOrder or this.order will be undefined.
let initPos = this.order.data.initPos;
if (this.FinishOrder())
return true;
// No remaining orders - pick a useful default behaviour
// Give up if we're not in the world right now.
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
return true;
// If we have no known initial position of our target, look around our own position
// as a fallback.
if (!initPos)
{
let pos = cmpPosition.GetPosition();
initPos = { 'x': pos.X, 'z': pos.Z };
}
// Try to find a new resource of the same specific type near the initial resource position:
// Also don't switch to a different type of huntable animal
let nearbyResource = this.FindNearbyResource(new Vector2D(initPos.x, initPos.z),
(ent, type, template) => {
if (previousTarget == ent)
return false;
if (type.generic == "treasure" && resourceType.generic == "treasure")
return true;
return type.specific == resourceType.specific &&
(type.specific != "meat" || resourceTemplate == template);
});
if (nearbyResource)
{
this.PerformGather(nearbyResource, false, false);
return true;
}
// Failing that, try to move there and se if we are more lucky: maybe there are resources in FOW.
// Only move if we are some distance away (TODO: pick the distance better?)
if (!this.CheckPointRangeExplicit(initPos.x, initPos.z, 0, 10))
{
this.GatherNearPosition(initPos.x, initPos.z, resourceType, resourceTemplate);
return true;
}
// Nothing else to gather - if we're carrying anything then we should
// drop it off, and if not then we might as well head to the dropsite
// anyway because that's a nice enough place to congregate and idle
let nearestDropsite = this.FindNearestDropsite(resourceType.generic);
if (nearestDropsite)
{
this.PushOrderFront("ReturnResource", { "target": nearestDropsite, "force": false });
return true;
}
// No dropsites - just give up.
return true;
},
},
},
"HEAL": {
"Attacked": function(msg) {
if (!this.GetStance().respondStandGround && !this.order.data.force)
this.Flee(msg.data.attacker, false);
},
"APPROACHING": {
"enter": function() {
if (this.CheckRange(this.order.data, IID_Heal))
{
this.SetNextState("HEALING");
return true;
}
if (!this.MoveTo(this.order.data, IID_Heal))
{
this.SetNextState("FINDINGNEWTARGET");
return true;
}
this.StartTimer(1000, 1000);
return false;
},
"leave": function() {
this.StopMoving();
this.StopTimer();
},
"Timer": function(msg) {
if (this.ShouldAbandonChase(this.order.data.target, this.order.data.force, IID_Heal, null))
this.SetNextState("FINDINGNEWTARGET");
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || this.CheckRange(this.order.data, IID_Heal))
this.SetNextState("HEALING");
},
},
"HEALING": {
"enter": function() {
if (!this.CheckRange(this.order.data, IID_Heal))
{
this.SetNextState("APPROACHING");
return true;
}
if (!this.TargetIsAlive(this.order.data.target) ||
!this.CanHeal(this.order.data.target))
{
this.SetNextState("FINDINGNEWTARGET");
return true;
}
let cmpHeal = Engine.QueryInterface(this.entity, IID_Heal);
this.healTimers = cmpHeal.GetTimers();
// If the repeat time since the last heal hasn't elapsed,
// delay the action to avoid healing too fast.
var prepare = this.healTimers.prepare;
if (this.lastHealed)
{
var cmpTimer = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer);
var repeatLeft = this.lastHealed + this.healTimers.repeat - cmpTimer.GetTime();
prepare = Math.max(prepare, repeatLeft);
}
this.SelectAnimation("heal");
this.SetAnimationSync(prepare, this.healTimers.repeat);
this.StartTimer(prepare, this.healTimers.repeat);
// If using a non-default prepare time, re-sync the animation when the timer runs.
this.resyncAnimation = prepare != this.healTimers.prepare;
this.FaceTowardsTarget(this.order.data.target);
return false;
},
"leave": function() {
this.ResetAnimation();
this.StopTimer();
},
"Timer": function(msg) {
let target = this.order.data.target;
if (!this.TargetIsAlive(target) || !this.CanHeal(target))
{
this.SetNextState("FINDINGNEWTARGET");
return;
}
if (!this.CheckRange(this.order.data, IID_Heal))
{
if (this.ShouldChaseTargetedEntity(target, this.order.data.force))
{
if (this.CanPack())
{
this.PushOrderFront("Pack", { "force": true });
return;
}
this.SetNextState("HEAL.APPROACHING");
}
else
this.SetNextState("FINDINGNEWTARGET");
return;
}
let cmpTimer = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer);
this.lastHealed = cmpTimer.GetTime() - msg.lateness;
this.FaceTowardsTarget(target);
let cmpHeal = Engine.QueryInterface(this.entity, IID_Heal);
cmpHeal.PerformHeal(target);
if (this.resyncAnimation)
{
this.SetAnimationSync(this.healTimers.repeat, this.healTimers.repeat);
this.resyncAnimation = false;
}
},
},
"FINDINGNEWTARGET": {
"enter": function() {
// If we have another order, do that instead.
if (this.FinishOrder())
return true;
if (this.FindNewHealTargets())
return true;
if (this.GetStance().respondHoldGround)
this.WalkToHeldPosition();
// We quit this state right away.
return true;
},
},
},
// Returning to dropsite
"RETURNRESOURCE": {
"APPROACHING": {
"enter": function() {
if (!this.MoveTo(this.order.data, IID_ResourceGatherer))
{
this.FinishOrder();
return true;
}
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
// Check the dropsite is in range and we can return our resource there
// (we didn't get stopped before reaching it)
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
if (this.CheckTargetRange(this.order.data.target, IID_ResourceGatherer) &&
this.CanReturnResource(this.order.data.target, true, cmpResourceGatherer))
{
cmpResourceGatherer.CommitResources(this.order.data.target);
// Stop showing the carried resource animation.
this.SetDefaultAnimationVariant();
// Our next order should always be a Gather,
// so just switch back to that order.
this.FinishOrder();
return;
}
if (msg.obstructed)
return;
// If we are here: we are in range but not carrying the right resources (or resources at all),
// the dropsite was destroyed, or we couldn't reach it, or ownership changed.
// Look for a new one.
let genericType = cmpResourceGatherer.GetMainCarryingType();
let nearby = this.FindNearestDropsite(genericType);
if (nearby)
{
this.FinishOrder();
this.PushOrderFront("ReturnResource", { "target": nearby, "force": false });
return;
}
// Oh no, couldn't find any drop sites. Give up on returning.
this.FinishOrder();
},
},
},
"TRADE": {
"Attacked": function(msg) {
// Ignore attack
// TODO: Inform player
},
"APPROACHINGMARKET": {
"enter": function() {
if (!this.MoveToMarket(this.order.data.target))
{
this.FinishOrder();
return true;
}
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
if (!msg.likelyFailure && !this.CheckTargetRange(this.order.data.target, IID_Trader))
return;
if (this.waypoints && this.waypoints.length)
{
if (!this.MoveToMarket(this.order.data.target))
this.StopTrading();
}
else
this.PerformTradeAndMoveToNextMarket(this.order.data.target);
},
},
"TradingCanceled": function(msg) {
if (msg.market != this.order.data.target)
return;
let cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
let otherMarket = cmpTrader && cmpTrader.GetFirstMarket();
this.StopTrading();
if (otherMarket)
this.WalkToTarget(otherMarket);
},
},
"REPAIR": {
"APPROACHING": {
"enter": function() {
if (!this.MoveTo(this.order.data, IID_Builder))
{
this.FinishOrder();
return true;
}
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || msg.likelySuccess)
this.SetNextState("REPAIRING");
},
},
"REPAIRING": {
"enter": function() {
// If this order was forced, the player probably gave it, but now we've reached the target
// switch to an unforced order (can be interrupted by attacks)
if (this.order.data.force)
this.order.data.autoharvest = true;
this.order.data.force = false;
// Needed to remove the entity from the builder list when leaving this state.
this.repairTarget = this.order.data.target;
if (!this.CanRepair(this.repairTarget))
{
this.FinishOrder();
return true;
}
if (!this.CheckTargetRange(this.repairTarget, IID_Builder))
{
this.SetNextState("APPROACHING");
return true;
}
let cmpHealth = Engine.QueryInterface(this.repairTarget, IID_Health);
if (cmpHealth && cmpHealth.GetHitpoints() >= cmpHealth.GetMaxHitpoints())
{
// The building was already finished/fully repaired before we arrived;
// let the ConstructionFinished handler handle this.
this.ConstructionFinished({ "entity": this.repairTarget, "newentity": this.repairTarget });
return true;
}
this.StopMoving();
let cmpBuilderList = QueryBuilderListInterface(this.repairTarget);
if (cmpBuilderList)
cmpBuilderList.AddBuilder(this.entity);
this.FaceTowardsTarget(this.repairTarget);
this.SelectAnimation("build");
this.StartTimer(1000, 1000);
return false;
},
"leave": function() {
let cmpBuilderList = QueryBuilderListInterface(this.repairTarget);
if (cmpBuilderList)
cmpBuilderList.RemoveBuilder(this.entity);
delete this.repairTarget;
this.StopTimer();
this.ResetAnimation();
},
"Timer": function(msg) {
if (!this.CanRepair(this.repairTarget))
{
this.FinishOrder();
return;
}
this.FaceTowardsTarget(this.repairTarget);
let cmpBuilder = Engine.QueryInterface(this.entity, IID_Builder);
cmpBuilder.PerformBuilding(this.repairTarget);
// If the building is completed, the leave() function will be called
// by the ConstructionFinished message.
// In that case, the repairTarget is deleted, and we can just return.
if (!this.repairTarget)
return;
if (!this.CheckTargetRange(this.repairTarget, IID_Builder))
this.SetNextState("APPROACHING");
},
},
"ConstructionFinished": function(msg) {
if (msg.data.entity != this.order.data.target)
return; // ignore other buildings
let oldData = this.order.data;
// Save the current state so we can continue walking if necessary
// FinishOrder() below will switch to IDLE if there's no order, which sets the idle animation.
// Idle animation while moving towards finished construction looks weird (ghosty).
let oldState = this.GetCurrentState();
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
let canReturnResources = this.CanReturnResource(msg.data.newentity, true, cmpResourceGatherer);
if (this.CheckTargetRange(msg.data.newentity, IID_Builder) && canReturnResources)
{
cmpResourceGatherer.CommitResources(msg.data.newentity);
this.SetDefaultAnimationVariant();
}
// Switch to the next order (if any)
if (this.FinishOrder())
{
if (canReturnResources)
{
// We aren't in range, but we can still return resources there: always do so.
this.SetDefaultAnimationVariant();
this.PushOrderFront("ReturnResource", { "target": msg.data.newentity, "force": false });
}
return;
}
if (canReturnResources)
{
// We aren't in range, but we can still return resources there: always do so.
this.SetDefaultAnimationVariant();
this.PushOrderFront("ReturnResource", { "target": msg.data.newentity, "force": false });
}
// No remaining orders - pick a useful default behaviour
// If autocontinue explicitly disabled (e.g. by AI) then
// do nothing automatically
if (!oldData.autocontinue)
return;
// If this building was e.g. a farm of ours, the entities that received
// the build command should start gathering from it
if ((oldData.force || oldData.autoharvest) && this.CanGather(msg.data.newentity))
{
this.PerformGather(msg.data.newentity, true, false);
return;
}
// If this building was e.g. a farmstead of ours, entities that received
// the build command should look for nearby resources to gather
if ((oldData.force || oldData.autoharvest) &&
this.CanReturnResource(msg.data.newentity, false, cmpResourceGatherer))
{
let cmpResourceDropsite = Engine.QueryInterface(msg.data.newentity, IID_ResourceDropsite);
let types = cmpResourceDropsite.GetTypes();
// TODO: Slightly undefined behavior here, we don't know what type of resource will be collected,
// may cause problems for AIs (especially hunting fast animals), but avoid ugly hacks to fix that!
let nearby = this.FindNearbyResource(this.TargetPosOrEntPos(msg.data.newentity),
(ent, type, template) => types.indexOf(type.generic) != -1);
if (nearby)
{
this.PerformGather(nearby, true, false);
return;
}
}
let nearbyFoundation = this.FindNearbyFoundation(this.TargetPosOrEntPos(msg.data.newentity));
if (nearbyFoundation)
{
this.AddOrder("Repair", { "target": nearbyFoundation, "autocontinue": oldData.autocontinue, "force": false }, true);
return;
}
// Unit was approaching and there's nothing to do now, so switch to walking
if (oldState.endsWith("REPAIR.APPROACHING"))
// We're already walking to the given point, so add this as a order.
this.WalkToTarget(msg.data.newentity, true);
},
},
"GARRISON": {
"leave": function() {
if (this.pickup)
{
Engine.PostMessage(this.pickup, MT_PickupCanceled, { "entity": this.entity });
delete this.pickup;
}
return false;
},
"APPROACHING": {
"enter": function() {
if (!this.MoveToGarrisonRange(this.order.data.target))
{
this.FinishOrder();
return true;
}
if (this.pickup)
Engine.PostMessage(this.pickup, MT_PickupCanceled, { "entity": this.entity });
let cmpGarrisonHolder = Engine.QueryInterface(this.order.data.target, IID_GarrisonHolder);
if (cmpGarrisonHolder && cmpGarrisonHolder.CanPickup(this.entity))
{
this.pickup = this.order.data.target; // temporary, deleted in "leave"
Engine.PostMessage(this.pickup, MT_PickupRequested, { "entity": this.entity });
}
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || msg.likelySuccess)
this.SetNextState("GARRISONED");
},
},
"GARRISONED": {
"enter": function() {
let target = this.order.data.target;
if (!target)
{
this.FinishOrder();
return true;
}
if (this.IsGarrisoned())
return false;
if (this.CanGarrison(target))
if (this.CheckGarrisonRange(target))
{
var cmpGarrisonHolder = Engine.QueryInterface(target, IID_GarrisonHolder);
if (cmpGarrisonHolder.Garrison(this.entity))
{
this.isGarrisoned = true;
this.SetImmobile(true);
if (this.formationController)
{
var cmpFormation = Engine.QueryInterface(this.formationController, IID_Formation);
if (cmpFormation)
{
var rearrange = cmpFormation.rearrange;
cmpFormation.SetRearrange(false);
cmpFormation.RemoveMembers([this.entity]);
cmpFormation.SetRearrange(rearrange);
}
}
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
if (this.CanReturnResource(target, true, cmpResourceGatherer))
{
cmpResourceGatherer.CommitResources(target);
this.SetDefaultAnimationVariant();
}
if (this.pickup)
{
Engine.PostMessage(this.pickup, MT_PickupCanceled, { "entity": this.entity });
delete this.pickup;
}
if (this.IsTurret())
{
this.SetNextState("IDLE");
return true;
}
return false;
}
}
else
{
// Unable to reach the target, try again (or follow if it is a moving target)
// except if the does not exits anymore or its orders have changed
if (this.pickup)
{
var cmpUnitAI = Engine.QueryInterface(this.pickup, IID_UnitAI);
if (!cmpUnitAI || (!cmpUnitAI.HasPickupOrder(this.entity) &&
!cmpUnitAI.IsIdle()))
{
this.FinishOrder();
return true;
}
}
this.SetNextState("APPROACHING");
return true;
}
this.FinishOrder();
return true;
},
"leave": function() {
}
},
},
"CHEERING": {
"enter": function() {
this.SelectAnimation("promotion");
this.StartTimer(this.cheeringTime);
return false;
},
"leave": function() {
this.StopTimer();
this.ResetAnimation();
},
"LosRangeUpdate": function(msg) {
if (msg && msg.data && msg.data.added && msg.data.added.length)
this.RespondToSightedEntities(msg.data.added);
},
"LosHealRangeUpdate": function(msg) {
if (msg && msg.data && msg.data.added && msg.data.added.length)
this.RespondToHealableEntities(msg.data.added);
},
"LosAttackRangeUpdate": function(msg) {
if (msg && msg.data && msg.data.added && msg.data.added.length && this.GetStance().targetVisibleEnemies)
this.AttackEntitiesByPreference(msg.data.added);
},
"Timer": function(msg) {
this.FinishOrder();
},
},
"PACKING": {
"enter": function() {
this.StopMoving();
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
cmpPack.Pack();
return false;
},
"PackFinished": function(msg) {
this.FinishOrder();
},
"leave": function() {
let cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
cmpPack.CancelPack();
},
"Attacked": function(msg) {
// Ignore attacks while packing
},
},
"UNPACKING": {
"enter": function() {
this.StopMoving();
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
cmpPack.Unpack();
return false;
},
"PackFinished": function(msg) {
this.FinishOrder();
},
"leave": function() {
let cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
cmpPack.CancelPack();
},
"Attacked": function(msg) {
// Ignore attacks while unpacking
},
},
"PICKUP": {
"APPROACHING": {
"enter": function() {
if (!this.MoveTo(this.order.data))
{
this.FinishOrder();
return true;
}
return false;
},
"leave": function() {
this.StopMoving();
},
"MovementUpdate": function(msg) {
if (msg.likelyFailure || msg.likelySuccess)
this.SetNextState("LOADING");
},
"PickupCanceled": function() {
this.StopMoving();
this.FinishOrder();
},
},
"LOADING": {
"enter": function() {
this.StopMoving();
var cmpGarrisonHolder = Engine.QueryInterface(this.entity, IID_GarrisonHolder);
if (!cmpGarrisonHolder || cmpGarrisonHolder.IsFull())
{
this.FinishOrder();
return true;
}
return false;
},
"PickupCanceled": function() {
this.FinishOrder();
},
},
},
},
"ANIMAL": {
"Attacked": function(msg) {
if (this.template.NaturalBehaviour == "skittish" ||
this.template.NaturalBehaviour == "passive")
{
this.Flee(msg.data.attacker, false);
}
else if (this.IsDangerousAnimal() || this.template.NaturalBehaviour == "defensive")
{
if (this.CanAttack(msg.data.attacker))
this.Attack(msg.data.attacker, false);
}
else if (this.template.NaturalBehaviour == "domestic")
{
// Never flee, stop what we were doing
this.SetNextState("IDLE");
}
},
"Order.LeaveFoundation": function(msg) {
// Move a tile outside the building
if (this.CheckTargetRangeExplicit(msg.data.target, g_LeaveFoundationRange, -1))
{
this.FinishOrder();
return;
}
this.order.data.min = g_LeaveFoundationRange;
this.SetNextState("WALKING");
},
"IDLE": {
// (We need an IDLE state so that FinishOrder works)
"enter": function() {
this.SetNextState("FEEDING");
return true;
},
},
"ROAMING": {
"enter": function() {
this.SetFacePointAfterMove(false);
this.MoveRandomly(+this.template.RoamDistance);
this.StartTimer(randIntInclusive(+this.template.RoamTimeMin, +this.template.RoamTimeMax));
return false;
},
"leave": function() {
this.StopMoving();
this.StopTimer();
this.SetFacePointAfterMove(true);
},
"LosRangeUpdate": function(msg) {
if (msg && msg.data && msg.data.added && msg.data.added.length)
this.RespondToSightedEntities(msg.data.added);
},
"LosAttackRangeUpdate": function(msg) {
if (this.IsDangerousAnimal() && msg && msg.data && msg.data.added && msg.data.added.length)
this.AttackVisibleEntity(msg.data.added);
// TODO: if two units enter our range together, we'll attack the
// first and then the second won't trigger another LosAttackRangeUpdate
// so we won't notice it. Probably we should do something with
// ResetActiveQuery in ROAMING.enter/FEEDING.enter in order to
// find any units that are already in range.
},
"Timer": function(msg) {
this.SetNextState("FEEDING");
},
"MovementUpdate": function() {
this.MoveRandomly(+this.template.RoamDistance);
},
},
"FEEDING": {
"enter": function() {
this.SelectAnimation("feeding");
this.StopMoving();
this.StartTimer(randIntInclusive(+this.template.FeedTimeMin, +this.template.FeedTimeMax));
return false;
},
"leave": function() {
this.ResetAnimation();
this.StopTimer();
},
"LosRangeUpdate": function(msg) {
if (msg && msg.data && msg.data.added && msg.data.added.length)
this.RespondToSightedEntities(msg.data.added);
},
"LosAttackRangeUpdate": function(msg) {
if (this.template.NaturalBehaviour == "violent" && msg && msg.data && msg.data.added && msg.data.added.length)
this.AttackVisibleEntity(msg.data.added);
},
"Timer": function(msg) {
this.SetNextState("ROAMING");
},
},
"FLEEING": "INDIVIDUAL.FLEEING",
"COMBAT": "INDIVIDUAL.COMBAT",
"WALKING": "INDIVIDUAL.WALKING", // reuse the same walking behaviour for animals
// only used for domestic animals
"CHEERING": {
"enter": function() {
this.SelectAnimation("promotion");
this.StartTimer(this.cheeringTime);
return false;
},
"leave": function() {
this.StopTimer();
this.ResetAnimation();
},
"LosRangeUpdate": function(msg) {
if (msg && msg.data && msg.data.added && msg.data.added.length)
this.RespondToSightedEntities(msg.data.added);
},
"LosAttackRangeUpdate": function(msg) {
if (this.template.NaturalBehaviour == "violent" && msg && msg.data && msg.data.added && msg.data.added.length)
this.AttackVisibleEntity(msg.data.added);
},
"Timer": function(msg) {
this.FinishOrder();
},
},
"GARRISON": "INDIVIDUAL.GARRISON",
},
};
UnitAI.prototype.Init = function()
{
this.orderQueue = []; // current order is at the front of the list
this.order = undefined; // always == this.orderQueue[0]
this.formationController = INVALID_ENTITY; // entity with IID_Formation that we belong to
this.isGarrisoned = false;
this.isIdle = false;
this.isImmobile = false; // True if the unit is currently unable to move (garrisoned,...)
this.heldPosition = undefined;
// Queue of remembered works
this.workOrders = [];
this.isGuardOf = undefined;
// For preventing increased action rate due to Stop orders or target death.
this.lastAttacked = undefined;
this.lastHealed = undefined;
this.formationAnimationVariant = undefined;
this.cheeringTime = +(this.template.CheeringTime || 0);
this.SetStance(this.template.DefaultStance);
};
UnitAI.prototype.IsTurret = function()
{
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
return cmpPosition && cmpPosition.GetTurretParent() != INVALID_ENTITY;
};
UnitAI.prototype.IsFormationController = function()
{
return (this.template.FormationController == "true");
};
UnitAI.prototype.IsFormationMember = function()
{
return (this.formationController != INVALID_ENTITY);
};
UnitAI.prototype.IsAnimal = function()
{
return (this.template.NaturalBehaviour ? true : false);
};
UnitAI.prototype.IsDangerousAnimal = function()
{
return (this.IsAnimal() && (this.template.NaturalBehaviour == "violent" ||
this.template.NaturalBehaviour == "aggressive"));
};
UnitAI.prototype.IsHealer = function()
{
return Engine.QueryInterface(this.entity, IID_Heal);
};
UnitAI.prototype.IsIdle = function()
{
return this.isIdle;
};
UnitAI.prototype.IsGarrisoned = function()
{
return this.isGarrisoned;
};
UnitAI.prototype.SetGarrisoned = function()
{
this.isGarrisoned = true;
};
UnitAI.prototype.GetGarrisonHolder = function()
{
if (this.IsGarrisoned())
{
for (let order of this.orderQueue)
if (order.type == "Garrison")
return order.data.target;
}
return INVALID_ENTITY;
};
UnitAI.prototype.ShouldRespondToEndOfAlert = function()
{
return !this.orderQueue.length || this.orderQueue[0].type == "Garrison";
};
UnitAI.prototype.SetImmobile = function(immobile)
{
this.isImmobile = immobile;
Engine.PostMessage(this.entity, MT_UnitAbleToMoveChanged, {
"entity": this.entity,
"ableToMove": this.AbleToMove()
});
};
/**
* @param cmpUnitMotion - optionally pass unitMotion to avoid querying it here
* @returns true if the entity can move, i.e. has UnitMotion and isn't immobile.
*/
UnitAI.prototype.AbleToMove = function(cmpUnitMotion)
{
if (this.isImmobile || this.IsTurret())
return false;
if (!cmpUnitMotion)
cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return !!cmpUnitMotion;
};
UnitAI.prototype.IsFleeing = function()
{
var state = this.GetCurrentState().split(".").pop();
return (state == "FLEEING");
};
UnitAI.prototype.IsWalking = function()
{
var state = this.GetCurrentState().split(".").pop();
return (state == "WALKING");
};
/**
* Return true if the current order is WalkAndFight or Patrol.
*/
UnitAI.prototype.IsWalkingAndFighting = function()
{
if (this.IsFormationMember())
return false;
return this.orderQueue.length > 0 && (this.orderQueue[0].type == "WalkAndFight" || this.orderQueue[0].type == "Patrol");
};
UnitAI.prototype.OnCreate = function()
{
if (this.IsAnimal())
this.UnitFsm.Init(this, "ANIMAL.FEEDING");
else if (this.IsFormationController())
this.UnitFsm.Init(this, "FORMATIONCONTROLLER.IDLE");
else
this.UnitFsm.Init(this, "INDIVIDUAL.IDLE");
this.isIdle = true;
};
UnitAI.prototype.OnDiplomacyChanged = function(msg)
{
let cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
if (cmpOwnership && cmpOwnership.GetOwner() == msg.player)
this.SetupRangeQueries();
if (this.isGuardOf && !IsOwnedByMutualAllyOfEntity(this.entity, this.isGuardOf))
this.RemoveGuard();
};
UnitAI.prototype.OnOwnershipChanged = function(msg)
{
this.SetupRangeQueries();
if (this.isGuardOf && (msg.to == INVALID_PLAYER || !IsOwnedByMutualAllyOfEntity(this.entity, this.isGuardOf)))
this.RemoveGuard();
// If the unit isn't being created or dying, reset stance and clear orders
if (msg.to != INVALID_PLAYER && msg.from != INVALID_PLAYER)
{
// Switch to a virgin state to let states execute their leave handlers.
// Except if garrisoned or (un)packing, in which case we only clear the order queue.
if (this.isGarrisoned || this.IsPacking())
{
this.orderQueue.length = Math.min(this.orderQueue.length, 1);
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
}
else
{
let index = this.GetCurrentState().indexOf(".");
if (index != -1)
this.UnitFsm.SwitchToNextState(this, this.GetCurrentState().slice(0,index));
this.Stop(false);
}
this.workOrders = [];
let cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
if (cmpTrader)
cmpTrader.StopTrading();
this.SetStance(this.template.DefaultStance);
if (this.IsTurret())
this.SetTurretStance();
}
};
UnitAI.prototype.OnDestroy = function()
{
// Switch to an empty state to let states execute their leave handlers.
this.UnitFsm.SwitchToNextState(this, "");
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (this.losRangeQuery)
cmpRangeManager.DestroyActiveQuery(this.losRangeQuery);
if (this.losHealRangeQuery)
cmpRangeManager.DestroyActiveQuery(this.losHealRangeQuery);
if (this.losAttackRangeQuery)
cmpRangeManager.DestroyActiveQuery(this.losAttackRangeQuery);
};
UnitAI.prototype.OnVisionRangeChanged = function(msg)
{
if (this.entity == msg.entity)
this.SetupRangeQueries();
};
UnitAI.prototype.HasPickupOrder = function(entity)
{
return this.orderQueue.some(order => order.type == "PickupUnit" && order.data.target == entity);
};
UnitAI.prototype.OnPickupRequested = function(msg)
{
if (this.HasPickupOrder(msg.entity))
return;
this.PushOrderAfterForced("PickupUnit", { "target": msg.entity });
};
UnitAI.prototype.OnPickupCanceled = function(msg)
{
for (let i = 0; i < this.orderQueue.length; ++i)
{
if (this.orderQueue[i].type != "PickupUnit" || this.orderQueue[i].data.target != msg.entity)
continue;
if (i == 0)
this.UnitFsm.ProcessMessage(this, {"type": "PickupCanceled", "data": msg});
else
this.orderQueue.splice(i, 1);
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
break;
}
};
/**
* Wrapper function that sets up the LOS, healer and attack range queries.
* This should be called whenever our ownership changes.
*/
UnitAI.prototype.SetupRangeQueries = function()
{
// Only skittish animals use this for now.
if (this.template.NaturalBehaviour && this.template.NaturalBehaviour == "skittish")
this.SetupLOSRangeQuery();
if (this.IsHealer())
this.SetupHealRangeQuery();
if (Engine.QueryInterface(this.entity, IID_Attack))
this.SetupAttackRangeQuery();
};
UnitAI.prototype.UpdateRangeQueries = function()
{
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (this.losRangeQuery)
this.SetupLOSRangeQuery(cmpRangeManager.IsActiveQueryEnabled(this.losRangeQuery));
if (this.losHealRangeQuery)
this.SetupHealRangeQuery(cmpRangeManager.IsActiveQueryEnabled(this.losHealRangeQuery));
if (this.losAttackRangeQuery)
this.SetupAttackRangeQuery(cmpRangeManager.IsActiveQueryEnabled(this.losAttackRangeQuery));
};
/**
* Set up a range query for all enemy units within LOS range.
* @param {boolean} enable - Optional parameter whether to enable the query.
*/
UnitAI.prototype.SetupLOSRangeQuery = function(enable = true)
{
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (this.losRangeQuery)
{
cmpRangeManager.DestroyActiveQuery(this.losRangeQuery);
this.losRangeQuery = undefined;
}
let cmpPlayer = QueryOwnerInterface(this.entity);
// If we are being destructed (owner == -1), creating a range query is pointless.
if (!cmpPlayer)
return;
let players = cmpPlayer.GetEnemies();
if (!players.length)
return;
let range = this.GetQueryRange(IID_Vision);
this.losRangeQuery = cmpRangeManager.CreateActiveQuery(this.entity, range.min, range.max, players, IID_Identity, cmpRangeManager.GetEntityFlagMask("normal"));
if (enable)
cmpRangeManager.EnableActiveQuery(this.losRangeQuery);
};
/**
* Set up a range query for all own or ally units within LOS range
* which can be healed.
* @param {boolean} enable - Optional parameter whether to enable the query.
*/
UnitAI.prototype.SetupHealRangeQuery = function(enable = true)
{
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (this.losHealRangeQuery)
{
cmpRangeManager.DestroyActiveQuery(this.losHealRangeQuery);
this.losHealRangeQuery = undefined;
}
let cmpPlayer = QueryOwnerInterface(this.entity);
// If we are being destructed (owner == -1), creating a range query is pointless.
if (!cmpPlayer)
return;
let players = cmpPlayer.GetAllies();
let range = this.GetQueryRange(IID_Heal);
this.losHealRangeQuery = cmpRangeManager.CreateActiveQuery(this.entity, range.min, range.max, players, IID_Health, cmpRangeManager.GetEntityFlagMask("injured"));
if (enable)
cmpRangeManager.EnableActiveQuery(this.losHealRangeQuery);
};
/**
* Set up a range query for all enemy and gaia units within range
* which can be attacked.
* @param {boolean} enable - Optional parameter whether to enable the query.
*/
UnitAI.prototype.SetupAttackRangeQuery = function(enable = true)
{
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (this.losAttackRangeQuery)
{
cmpRangeManager.DestroyActiveQuery(this.losAttackRangeQuery);
this.losAttackRangeQuery = undefined;
}
let cmpPlayer = QueryOwnerInterface(this.entity);
// If we are being destructed (owner == -1), creating a range query is pointless.
if (!cmpPlayer)
return;
// TODO: How to handle neutral players - Special query to attack military only?
let players = cmpPlayer.GetEnemies();
if (!players.length)
return;
let range = this.GetQueryRange(IID_Attack);
this.losAttackRangeQuery = cmpRangeManager.CreateActiveQuery(this.entity, range.min, range.max, players, IID_Resistance, cmpRangeManager.GetEntityFlagMask("normal"));
if (enable)
cmpRangeManager.EnableActiveQuery(this.losAttackRangeQuery);
};
//// FSM linkage functions ////
// Setting the next state to the current state will leave/re-enter the top-most substate.
UnitAI.prototype.SetNextState = function(state)
{
this.UnitFsm.SetNextState(this, state);
};
UnitAI.prototype.DeferMessage = function(msg)
{
this.UnitFsm.DeferMessage(this, msg);
};
UnitAI.prototype.GetCurrentState = function()
{
return this.UnitFsm.GetCurrentState(this);
};
UnitAI.prototype.FsmStateNameChanged = function(state)
{
Engine.PostMessage(this.entity, MT_UnitAIStateChanged, { "to": state });
};
/**
* Call when the current order has been completed (or failed).
* Removes the current order from the queue, and processes the
* next one (if any). Returns false and defaults to IDLE
* if there are no remaining orders or if the unit is not
* inWorld and not garrisoned (thus usually waiting to be destroyed).
*/
UnitAI.prototype.FinishOrder = function()
{
if (!this.orderQueue.length)
{
let stack = new Error().stack.trimRight().replace(/^/mg, ' '); // indent each line
let cmpTemplateManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_TemplateManager);
let template = cmpTemplateManager.GetCurrentTemplateName(this.entity);
error("FinishOrder called for entity " + this.entity + " (" + template + ") when order queue is empty\n" + stack);
}
this.orderQueue.shift();
this.order = this.orderQueue[0];
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (this.orderQueue.length && (this.IsGarrisoned() || this.IsFormationController() ||
cmpPosition && cmpPosition.IsInWorld()))
{
let ret = this.UnitFsm.ProcessMessage(this,
{ "type": "Order."+this.order.type, "data": this.order.data }
);
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
// If the order was rejected then immediately take it off
// and process the remaining queue
if (ret && ret.discardOrder)
return this.FinishOrder();
// Otherwise we've successfully processed a new order
return true;
}
this.orderQueue = [];
this.order = undefined;
// Switch to IDLE as a default state.
this.SetNextState("IDLE");
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
// Check if there are queued formation orders
if (this.IsFormationMember())
{
this.SetNextState("FORMATIONMEMBER.IDLE");
let cmpUnitAI = Engine.QueryInterface(this.formationController, IID_UnitAI);
if (cmpUnitAI)
{
// Inform the formation controller that we finished this task
let cmpFormation = Engine.QueryInterface(this.formationController, IID_Formation);
cmpFormation.SetWaitingOnController(this.entity);
// We don't want to carry out the default order
// if there are still queued formation orders left
if (cmpUnitAI.GetOrders().length > 1)
return true;
}
}
return false;
};
/**
* Add an order onto the back of the queue,
* and execute it if we didn't already have an order.
*/
UnitAI.prototype.PushOrder = function(type, data)
{
var order = { "type": type, "data": data };
this.orderQueue.push(order);
if (this.orderQueue.length == 1)
{
this.order = order;
let ret = this.UnitFsm.ProcessMessage(this,
{ "type": "Order."+this.order.type, "data": this.order.data }
);
// If the order was rejected then immediately take it off
// and process the remaining queue
if (ret && ret.discardOrder)
this.FinishOrder();
}
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
};
/**
* Add an order onto the front of the queue,
* and execute it immediately.
*/
UnitAI.prototype.PushOrderFront = function(type, data, ignorePacking = false)
{
var order = { "type": type, "data": data };
// If current order is packing/unpacking then add new order after it.
if (!ignorePacking && this.order && this.IsPacking())
{
var packingOrder = this.orderQueue.shift();
this.orderQueue.unshift(packingOrder, order);
}
else
{
this.orderQueue.unshift(order);
this.order = order;
let ret = this.UnitFsm.ProcessMessage(this,
{ "type": "Order."+this.order.type, "data": this.order.data }
);
// If the order was rejected then immediately take it off again;
// assume the previous active order is still valid (the short-lived
// new order hasn't changed state or anything) so we can carry on
// as if nothing had happened
if (ret && ret.discardOrder)
{
this.orderQueue.shift();
this.order = this.orderQueue[0];
}
}
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
};
/**
* Insert an order after the last forced order onto the queue
* and after the other orders of the same type
*/
UnitAI.prototype.PushOrderAfterForced = function(type, data)
{
if (!this.order || ((!this.order.data || !this.order.data.force) && this.order.type != type))
this.PushOrderFront(type, data);
else
{
for (let i = 1; i < this.orderQueue.length; ++i)
{
if (this.orderQueue[i].data && this.orderQueue[i].data.force)
continue;
if (this.orderQueue[i].type == type)
continue;
this.orderQueue.splice(i, 0, {"type": type, "data": data});
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
return;
}
this.PushOrder(type, data);
}
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
};
/**
* For a unit that is packing and trying to attack something,
* either cancel packing or continue with packing, as appropriate.
* Precondition: if the unit is packing/unpacking, then orderQueue
* should have the Attack order at index 0,
* and the Pack/Unpack order at index 1.
* This precondition holds because if we are packing while processing "Order.Attack",
* then we must have come from ReplaceOrder, which guarantees it.
*
* @param {boolean} requirePacked - true if the unit needs to be packed to continue attacking,
* false if it needs to be unpacked.
* @return {boolean} true if the unit can attack now, false if it must continue packing (or unpacking) first.
*/
UnitAI.prototype.EnsureCorrectPackStateForAttack = function(requirePacked)
{
let cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
if (!cmpPack ||
!cmpPack.IsPacking() ||
this.orderQueue.length != 2 ||
this.orderQueue[0].type != "Attack" ||
this.orderQueue[1].type != "Pack" &&
this.orderQueue[1].type != "Unpack")
return true;
if (cmpPack.IsPacked() == requirePacked)
{
// The unit is already in the packed/unpacked state we want.
// Delete the packing order.
this.orderQueue.splice(1, 1);
cmpPack.CancelPack();
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
// Continue with the attack order.
return true;
}
// Move the attack order behind the unpacking order, to continue unpacking.
let tmp = this.orderQueue[0];
this.orderQueue[0] = this.orderQueue[1];
this.orderQueue[1] = tmp;
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
return false;
};
UnitAI.prototype.WillMoveFromFoundation = function(target, checkPacking = true)
{
if (!IsOwnedByAllyOfEntity(this.entity, target) &&
!Engine.QueryInterface(SYSTEM_ENTITY, IID_CeasefireManager).IsCeasefireActive() ||
checkPacking && this.IsPacking() || this.CanPack() || !this.AbleToMove())
return false;
return !this.CheckTargetRangeExplicit(target, g_LeaveFoundationRange, -1);
};
UnitAI.prototype.ReplaceOrder = function(type, data)
{
// Remember the previous work orders to be able to go back to them later if required
if (data && data.force)
{
if (this.IsFormationController())
this.CallMemberFunction("UpdateWorkOrders", [type]);
else
this.UpdateWorkOrders(type);
}
let garrisonHolder = this.IsGarrisoned() && type != "Ungarrison" ? this.GetGarrisonHolder() : null;
// Do not replace packing/unpacking unless it is cancel order.
// TODO: maybe a better way of doing this would be to use priority levels
if (this.IsPacking() && type != "CancelPack" && type != "CancelUnpack" && type != "Stop")
{
var order = { "type": type, "data": data };
var packingOrder = this.orderQueue.shift();
if (type == "Attack")
{
// The Attack order is able to handle a packing unit, while other orders can't.
this.orderQueue = [packingOrder];
this.PushOrderFront(type, data, true);
}
else if (packingOrder.type == "Unpack" && g_OrdersCancelUnpacking.has(type))
{
// Immediately cancel unpacking before processing an order that demands a packed unit.
let cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
cmpPack.CancelPack();
this.orderQueue = [];
this.PushOrder(type, data);
}
else
this.orderQueue = [packingOrder, order];
}
else
{
this.orderQueue = [];
this.PushOrder(type, data);
}
if (garrisonHolder)
this.PushOrder("Garrison", { "target": garrisonHolder });
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
};
UnitAI.prototype.GetOrders = function()
{
return this.orderQueue.slice();
};
UnitAI.prototype.AddOrders = function(orders)
{
orders.forEach(order => this.PushOrder(order.type, order.data));
};
UnitAI.prototype.GetOrderData = function()
{
var orders = [];
for (let order of this.orderQueue)
if (order.data)
orders.push(clone(order.data));
return orders;
};
UnitAI.prototype.UpdateWorkOrders = function(type)
{
var isWorkType = type => type == "Gather" || type == "Trade" || type == "Repair" || type == "ReturnResource";
if (isWorkType(type))
{
this.workOrders = [];
return;
}
if (this.workOrders.length)
return;
if (this.IsFormationMember())
{
var cmpUnitAI = Engine.QueryInterface(this.formationController, IID_UnitAI);
if (cmpUnitAI)
{
for (var i = 0; i < cmpUnitAI.orderQueue.length; ++i)
{
if (isWorkType(cmpUnitAI.orderQueue[i].type))
{
this.workOrders = cmpUnitAI.orderQueue.slice(i);
return;
}
}
}
}
// If nothing found, take the unit orders
for (var i = 0; i < this.orderQueue.length; ++i)
{
if (isWorkType(this.orderQueue[i].type))
{
this.workOrders = this.orderQueue.slice(i);
return;
}
}
};
UnitAI.prototype.BackToWork = function()
{
if (this.workOrders.length == 0)
return false;
if (this.IsGarrisoned())
{
let cmpGarrisonHolder = Engine.QueryInterface(this.GetGarrisonHolder(), IID_GarrisonHolder);
if (!cmpGarrisonHolder || !cmpGarrisonHolder.PerformEject([this.entity], false))
return false;
}
this.orderQueue = [];
this.AddOrders(this.workOrders);
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
if (this.IsFormationMember())
{
var cmpFormation = Engine.QueryInterface(this.formationController, IID_Formation);
if (cmpFormation)
cmpFormation.RemoveMembers([this.entity]);
}
this.workOrders = [];
return true;
};
UnitAI.prototype.HasWorkOrders = function()
{
return this.workOrders.length > 0;
};
UnitAI.prototype.GetWorkOrders = function()
{
return this.workOrders;
};
UnitAI.prototype.SetWorkOrders = function(orders)
{
this.workOrders = orders;
};
UnitAI.prototype.TimerHandler = function(data, lateness)
{
// Reset the timer
if (data.timerRepeat === undefined)
this.timer = undefined;
this.UnitFsm.ProcessMessage(this, {"type": "Timer", "data": data, "lateness": lateness});
};
/**
* Set up the UnitAI timer to run after 'offset' msecs, and then
* every 'repeat' msecs until StopTimer is called. A "Timer" message
* will be sent each time the timer runs.
*/
UnitAI.prototype.StartTimer = function(offset, repeat)
{
if (this.timer)
error("Called StartTimer when there's already an active timer");
var data = { "timerRepeat": repeat };
var cmpTimer = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer);
if (repeat === undefined)
this.timer = cmpTimer.SetTimeout(this.entity, IID_UnitAI, "TimerHandler", offset, data);
else
this.timer = cmpTimer.SetInterval(this.entity, IID_UnitAI, "TimerHandler", offset, repeat, data);
};
/**
* Stop the current UnitAI timer.
*/
UnitAI.prototype.StopTimer = function()
{
if (!this.timer)
return;
var cmpTimer = Engine.QueryInterface(SYSTEM_ENTITY, IID_Timer);
cmpTimer.CancelTimer(this.timer);
this.timer = undefined;
};
UnitAI.prototype.OnMotionUpdate = function(msg)
{
this.UnitFsm.ProcessMessage(this, Object.assign({ "type": "MovementUpdate" }, msg));
};
/**
* Called directly by cmpFoundation and cmpRepairable to
* inform builders that repairing has finished.
* This not done by listening to a global message due to performance.
*/
UnitAI.prototype.ConstructionFinished = function(msg)
{
this.UnitFsm.ProcessMessage(this, { "type": "ConstructionFinished", "data": msg });
};
UnitAI.prototype.OnGlobalEntityRenamed = function(msg)
{
let changed = false;
let currentOrderChanged = false;
for (let i = 0; i < this.orderQueue.length; ++i)
{
let order = this.orderQueue[i];
if (order.data && order.data.target && order.data.target == msg.entity)
{
changed = true;
if (i == 0)
currentOrderChanged = true;
order.data.target = msg.newentity;
}
if (order.data && order.data.formationTarget && order.data.formationTarget == msg.entity)
{
changed = true;
if (i == 0)
currentOrderChanged = true;
order.data.formationTarget = msg.newentity;
}
}
if (!changed)
return;
if (currentOrderChanged)
this.UnitFsm.ProcessMessage(this, { "type": "OrderTargetRenamed", "data": msg });
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
};
UnitAI.prototype.OnAttacked = function(msg)
{
if (msg.fromStatusEffect)
return;
this.UnitFsm.ProcessMessage(this, {"type": "Attacked", "data": msg});
};
UnitAI.prototype.OnGuardedAttacked = function(msg)
{
this.UnitFsm.ProcessMessage(this, {"type": "GuardedAttacked", "data": msg.data});
};
UnitAI.prototype.OnHealthChanged = function(msg)
{
this.UnitFsm.ProcessMessage(this, {"type": "HealthChanged", "from": msg.from, "to": msg.to});
};
UnitAI.prototype.OnRangeUpdate = function(msg)
{
if (msg.tag == this.losRangeQuery)
this.UnitFsm.ProcessMessage(this, { "type": "LosRangeUpdate", "data": msg });
else if (msg.tag == this.losHealRangeQuery)
this.UnitFsm.ProcessMessage(this, { "type": "LosHealRangeUpdate", "data": msg });
else if (msg.tag == this.losAttackRangeQuery)
this.UnitFsm.ProcessMessage(this, { "type": "LosAttackRangeUpdate", "data": msg });
};
UnitAI.prototype.OnPackFinished = function(msg)
{
this.UnitFsm.ProcessMessage(this, {"type": "PackFinished", "packed": msg.packed});
};
//// Helper functions to be called by the FSM ////
UnitAI.prototype.GetWalkSpeed = function()
{
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (!cmpUnitMotion)
return 0;
return cmpUnitMotion.GetWalkSpeed();
};
UnitAI.prototype.GetRunMultiplier = function()
{
var cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (!cmpUnitMotion)
return 0;
return cmpUnitMotion.GetRunMultiplier();
};
/**
* Returns true if the target exists and has non-zero hitpoints.
*/
UnitAI.prototype.TargetIsAlive = function(ent)
{
var cmpFormation = Engine.QueryInterface(ent, IID_Formation);
if (cmpFormation)
return true;
var cmpHealth = QueryMiragedInterface(ent, IID_Health);
return cmpHealth && cmpHealth.GetHitpoints() != 0;
};
/**
* Returns true if the target exists and needs to be killed before
* beginning to gather resources from it.
*/
UnitAI.prototype.MustKillGatherTarget = function(ent)
{
var cmpResourceSupply = Engine.QueryInterface(ent, IID_ResourceSupply);
if (!cmpResourceSupply)
return false;
if (!cmpResourceSupply.GetKillBeforeGather())
return false;
return this.TargetIsAlive(ent);
};
/**
* Returns the position of target or, if there is none,
* the entity's position, or undefined.
*/
UnitAI.prototype.TargetPosOrEntPos = function(target)
{
let cmpTargetPosition = Engine.QueryInterface(target, IID_Position);
if (cmpTargetPosition && cmpTargetPosition.IsInWorld())
return cmpTargetPosition.GetPosition2D();
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (cmpPosition && cmpPosition.IsInWorld())
return cmpPosition.GetPosition2D();
return undefined;
};
/**
* Returns the entity ID of the nearest resource supply where the given
* filter returns true, or undefined if none can be found.
* "Nearest" is nearest from @param position.
* TODO: extend this to exclude resources that already have lots of gatherers.
*/
UnitAI.prototype.FindNearbyResource = function(position, filter)
{
if (!position)
return undefined;
// We accept resources owned by Gaia or any player
let players = Engine.QueryInterface(SYSTEM_ENTITY, IID_PlayerManager).GetAllPlayers();
let range = 64; // TODO: what's a sensible number?
let cmpTemplateManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_TemplateManager);
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
let nearby = cmpRangeManager.ExecuteQueryAroundPos(position, 0, range, players, IID_ResourceSupply);
return nearby.find(ent => {
if (!this.CanGather(ent) || !this.CheckTargetVisible(ent))
return false;
let cmpResourceSupply = Engine.QueryInterface(ent, IID_ResourceSupply);
let type = cmpResourceSupply.GetType();
let amount = cmpResourceSupply.GetCurrentAmount();
let template = cmpTemplateManager.GetCurrentTemplateName(ent);
if (template.indexOf("resource|") != -1)
template = template.slice(9);
return amount > 0 && cmpResourceSupply.IsAvailableTo(this.entity) && filter(ent, type, template);
});
};
/**
* Returns the entity ID of the nearest resource dropsite that accepts
* the given type, or undefined if none can be found.
*/
UnitAI.prototype.FindNearestDropsite = function(genericType)
{
let cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
if (!cmpOwnership || cmpOwnership.GetOwner() == INVALID_PLAYER)
return undefined;
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
return undefined;
let pos = cmpPosition.GetPosition2D();
let bestDropsite;
let bestDist = Infinity;
// Maximum distance a point on an obstruction can be from the center of the obstruction.
let maxDifference = 40;
let owner = cmpOwnership.GetOwner();
let cmpPlayer = QueryOwnerInterface(this.entity);
let players = cmpPlayer && cmpPlayer.HasSharedDropsites() ? cmpPlayer.GetMutualAllies() : [owner];
let nearestDropsites = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager).ExecuteQuery(this.entity, 0, -1, players, IID_ResourceDropsite);
let isShip = Engine.QueryInterface(this.entity, IID_Identity).HasClass("Ship");
let cmpObstructionManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_ObstructionManager);
for (let dropsite of nearestDropsites)
{
// Ships are unable to reach land dropsites and shouldn't attempt to do so.
if (isShip && !Engine.QueryInterface(dropsite, IID_Identity).HasClass("Naval"))
continue;
let cmpResourceDropsite = Engine.QueryInterface(dropsite, IID_ResourceDropsite);
if (!cmpResourceDropsite.AcceptsType(genericType) || !this.CheckTargetVisible(dropsite))
continue;
if (Engine.QueryInterface(dropsite, IID_Ownership).GetOwner() != owner && !cmpResourceDropsite.IsShared())
continue;
// The range manager sorts entities by the distance to their center,
// but we want the distance to the point where resources will be dropped off.
let dist = cmpObstructionManager.DistanceToPoint(dropsite, pos.x, pos.y);
if (dist == -1)
continue;
if (dist < bestDist)
{
bestDropsite = dropsite;
bestDist = dist;
}
else if (dist > bestDist + maxDifference)
break;
}
return bestDropsite;
};
/**
* Returns the entity ID of the nearest building that needs to be constructed.
* "Nearest" is nearest from @param position.
*/
UnitAI.prototype.FindNearbyFoundation = function(position)
{
if (!position)
return undefined;
let cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
if (!cmpOwnership || cmpOwnership.GetOwner() == INVALID_PLAYER)
return undefined;
let players = [cmpOwnership.GetOwner()];
let range = 64; // TODO: what's a sensible number?
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
let nearby = cmpRangeManager.ExecuteQueryAroundPos(position, 0, range, players, IID_Foundation);
// Skip foundations that are already complete. (This matters since
// we process the ConstructionFinished message before the foundation
// we're working on has been deleted.)
return nearby.find(ent => !Engine.QueryInterface(ent, IID_Foundation).IsFinished());
};
/**
* Play a sound appropriate to the current entity.
*/
UnitAI.prototype.PlaySound = function(name)
{
if (this.IsFormationController())
{
var cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
var member = cmpFormation.GetPrimaryMember();
if (member)
PlaySound(name, member);
}
else
{
PlaySound(name, this.entity);
}
};
/*
* Set a visualActor animation variant.
* By changing the animation variant, you can change animations based on unitAI state.
* If there are no specific variants or the variant doesn't exist in the actor,
* the actor fallbacks to any existing animation.
* @param type if present, switch to a specific animation variant.
*/
UnitAI.prototype.SetAnimationVariant = function(type)
{
let cmpVisual = Engine.QueryInterface(this.entity, IID_Visual);
if (!cmpVisual)
return;
cmpVisual.SetVariant("animationVariant", type);
};
/*
* Reset the animation variant to default behavior.
* Default behavior is to pick a resource-carrying variant if resources are being carried.
* Otherwise pick nothing in particular.
*/
UnitAI.prototype.SetDefaultAnimationVariant = function()
{
let cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
if (cmpResourceGatherer)
{
let type = cmpResourceGatherer.GetLastCarriedType();
if (type)
{
let typename = "carry_" + type.generic;
if (type.specific == "meat")
typename = "carry_" + type.specific;
this.SetAnimationVariant(typename);
return;
}
}
this.SetAnimationVariant("");
};
UnitAI.prototype.ResetAnimation = function()
{
let cmpVisual = Engine.QueryInterface(this.entity, IID_Visual);
if (!cmpVisual)
return;
cmpVisual.SelectAnimation("idle", false, 1.0);
};
UnitAI.prototype.SelectAnimation = function(name, once = false, speed = 1.0)
{
let cmpVisual = Engine.QueryInterface(this.entity, IID_Visual);
if (!cmpVisual)
return;
cmpVisual.SelectAnimation(name, once, speed);
};
UnitAI.prototype.SetAnimationSync = function(actiontime, repeattime)
{
var cmpVisual = Engine.QueryInterface(this.entity, IID_Visual);
if (!cmpVisual)
return;
cmpVisual.SetAnimationSyncRepeat(repeattime);
cmpVisual.SetAnimationSyncOffset(actiontime);
};
UnitAI.prototype.StopMoving = function()
{
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (cmpUnitMotion)
cmpUnitMotion.StopMoving();
};
/**
* Generic dispatcher for other MoveTo functions.
* @param iid - Interface ID (optional) implementing GetRange
* @param type - Range type for the interface call
* @returns whether the move succeeded or failed.
*/
UnitAI.prototype.MoveTo = function(data, iid, type)
{
if (data.target)
{
if (data.min || data.max)
return this.MoveToTargetRangeExplicit(data.target, data.min || -1, data.max || -1);
else if (!iid)
return this.MoveToTarget(data.target);
return this.MoveToTargetRange(data.target, iid, type);
}
else if (data.min || data.max)
return this.MoveToPointRange(data.x, data.z, data.min || -1, data.max || -1);
return this.MoveToPoint(data.x, data.z);
};
UnitAI.prototype.MoveToPoint = function(x, z)
{
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return this.AbleToMove(cmpUnitMotion) && cmpUnitMotion.MoveToPointRange(x, z, 0, 0); // For point goals, allow a max range of 0.
};
UnitAI.prototype.MoveToPointRange = function(x, z, rangeMin, rangeMax)
{
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return this.AbleToMove(cmpUnitMotion) && cmpUnitMotion.MoveToPointRange(x, z, rangeMin, rangeMax);
};
UnitAI.prototype.MoveToTarget = function(target)
{
if (!this.CheckTargetVisible(target))
return false;
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return this.AbleToMove(cmpUnitMotion) && cmpUnitMotion.MoveToTargetRange(target, 0, 1);
};
UnitAI.prototype.MoveToTargetRange = function(target, iid, type)
{
if (!this.CheckTargetVisible(target))
return false;
let range = this.GetRange(iid, type);
if (!range)
return false;
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return this.AbleToMove(cmpUnitMotion) && cmpUnitMotion.MoveToTargetRange(target, range.min, range.max);
};
/**
* Move unit so we hope the target is in the attack range
* for melee attacks, this goes straight to the default range checks
* for ranged attacks, the parabolic range is used
*/
UnitAI.prototype.MoveToTargetAttackRange = function(target, type)
{
// for formation members, the formation will take care of the range check
if (this.IsFormationMember())
{
let cmpFormationUnitAI = Engine.QueryInterface(this.formationController, IID_UnitAI);
if (cmpFormationUnitAI && cmpFormationUnitAI.IsAttackingAsFormation())
return false;
}
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (!this.AbleToMove(cmpUnitMotion))
return false;
let cmpFormation = Engine.QueryInterface(target, IID_Formation);
if (cmpFormation)
target = cmpFormation.GetClosestMember(this.entity);
if (type != "Ranged")
return this.MoveToTargetRange(target, IID_Attack, type);
if (!this.CheckTargetVisible(target))
return false;
let range = this.GetRange(IID_Attack, type);
if (!range)
return false;
let thisCmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!thisCmpPosition.IsInWorld())
return false;
let s = thisCmpPosition.GetPosition();
let targetCmpPosition = Engine.QueryInterface(target, IID_Position);
if (!targetCmpPosition || !targetCmpPosition.IsInWorld())
return false;
let t = targetCmpPosition.GetPosition();
// h is positive when I'm higher than the target
let h = s.y - t.y + range.elevationBonus;
let parabolicMaxRange = Math.sqrt(Math.square(range.max) + 2 * range.max * h);
// No negative roots please
if (h <= -range.max / 2)
// return false? Or hope you come close enough?
parabolicMaxRange = 0;
// The parabole changes while walking so be cautious:
let guessedMaxRange = parabolicMaxRange > range.max ? (range.max + parabolicMaxRange) / 2 : parabolicMaxRange;
return cmpUnitMotion && cmpUnitMotion.MoveToTargetRange(target, range.min, guessedMaxRange);
};
UnitAI.prototype.MoveToTargetRangeExplicit = function(target, min, max)
{
if (!this.CheckTargetVisible(target))
return false;
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return this.AbleToMove(cmpUnitMotion) && cmpUnitMotion.MoveToTargetRange(target, min, max);
};
/**
* Move unit so we hope the target is in the attack range of the formation.
*
* @param {number} target - The target entity ID to attack.
* @return {boolean} - Whether the order to move has succeeded.
*/
UnitAI.prototype.MoveFormationToTargetAttackRange = function(target)
{
let cmpTargetFormation = Engine.QueryInterface(target, IID_Formation);
if (cmpTargetFormation)
target = cmpTargetFormation.GetClosestMember(this.entity);
if (!this.CheckTargetVisible(target))
return false;
let cmpFormationAttack = Engine.QueryInterface(this.entity, IID_Attack);
if (!cmpFormationAttack)
return false;
let range = cmpFormationAttack.GetRange(target);
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return this.AbleToMove(cmpUnitMotion) && cmpUnitMotion.MoveToTargetRange(target, range.min, range.max);
};
UnitAI.prototype.MoveToGarrisonRange = function(target)
{
if (!this.CheckTargetVisible(target))
return false;
var cmpGarrisonHolder = Engine.QueryInterface(target, IID_GarrisonHolder);
if (!cmpGarrisonHolder)
return false;
var range = cmpGarrisonHolder.GetLoadingRange();
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return this.AbleToMove(cmpUnitMotion) && cmpUnitMotion.MoveToTargetRange(target, range.min, range.max);
};
/**
* Generic dispatcher for other Check...Range functions.
* @param iid - Interface ID (optional) implementing GetRange
* @param type - Range type for the interface call
*/
UnitAI.prototype.CheckRange = function(data, iid, type)
{
if (data.target)
{
if (data.min || data.max)
return this.CheckTargetRangeExplicit(data.target, data.min || -1, data.max || -1);
else if (!iid)
return this.CheckTargetRangeExplicit(data.target, 0, 1);
return this.CheckTargetRange(data.target, iid, type);
}
else if (data.min || data.max)
return this.CheckPointRangeExplicit(data.x, data.z, data.min || -1, data.max || -1);
return this.CheckPointRangeExplicit(data.x, data.z, 0, 0);
};
UnitAI.prototype.CheckPointRangeExplicit = function(x, z, min, max)
{
let cmpObstructionManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_ObstructionManager);
return cmpObstructionManager.IsInPointRange(this.entity, x, z, min, max, false);
};
UnitAI.prototype.CheckTargetRange = function(target, iid, type)
{
let range = this.GetRange(iid, type);
if (!range)
return false;
let cmpObstructionManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_ObstructionManager);
return cmpObstructionManager.IsInTargetRange(this.entity, target, range.min, range.max, false);
};
/**
* Check if the target is inside the attack range
* For melee attacks, this goes straigt to the regular range calculation
* For ranged attacks, the parabolic formula is used to accout for bigger ranges
* when the target is lower, and smaller ranges when the target is higher
*/
UnitAI.prototype.CheckTargetAttackRange = function(target, type)
{
// for formation members, the formation will take care of the range check
if (this.IsFormationMember())
{
let cmpFormationUnitAI = Engine.QueryInterface(this.formationController, IID_UnitAI);
if (cmpFormationUnitAI && cmpFormationUnitAI.IsAttackingAsFormation() &&
cmpFormationUnitAI.order.data.target == target)
return true;
}
let cmpFormation = Engine.QueryInterface(target, IID_Formation);
if (cmpFormation)
target = cmpFormation.GetClosestMember(this.entity);
if (type != "Ranged")
return this.CheckTargetRange(target, IID_Attack, type);
let targetCmpPosition = Engine.QueryInterface(target, IID_Position);
if (!targetCmpPosition || !targetCmpPosition.IsInWorld())
return false;
let range = this.GetRange(IID_Attack, type);
if (!range)
return false;
let thisCmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!thisCmpPosition.IsInWorld())
return false;
let s = thisCmpPosition.GetPosition();
let t = targetCmpPosition.GetPosition();
let h = s.y - t.y + range.elevationBonus;
let maxRange = Math.sqrt(Math.square(range.max) + 2 * range.max * h);
if (maxRange < 0)
return false;
let cmpObstructionManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_ObstructionManager);
return cmpObstructionManager.IsInTargetRange(this.entity, target, range.min, maxRange, false);
};
UnitAI.prototype.CheckTargetRangeExplicit = function(target, min, max)
{
let cmpObstructionManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_ObstructionManager);
return cmpObstructionManager.IsInTargetRange(this.entity, target, min, max, false);
};
/**
* Check if the target is inside the attack range of the formation.
*
* @param {number} target - The target entity ID to attack.
* @return {boolean} - Whether the entity is within attacking distance.
*/
UnitAI.prototype.CheckFormationTargetAttackRange = function(target)
{
let cmpTargetFormation = Engine.QueryInterface(target, IID_Formation);
if (cmpTargetFormation)
target = cmpTargetFormation.GetClosestMember(this.entity);
let cmpFormationAttack = Engine.QueryInterface(this.entity, IID_Attack);
if (!cmpFormationAttack)
return false;
let range = cmpFormationAttack.GetRange(target);
let cmpObstructionManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_ObstructionManager);
return cmpObstructionManager.IsInTargetRange(this.entity, target, range.min, range.max, false);
};
UnitAI.prototype.CheckGarrisonRange = function(target)
{
let cmpGarrisonHolder = Engine.QueryInterface(target, IID_GarrisonHolder);
if (!cmpGarrisonHolder)
return false;
let range = cmpGarrisonHolder.GetLoadingRange();
return this.CheckTargetRangeExplicit(target, range.min, range.max);
};
/**
* Returns true if the target entity is visible through the FoW/SoD.
*/
UnitAI.prototype.CheckTargetVisible = function(target)
{
var cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
if (!cmpOwnership)
return false;
var cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (!cmpRangeManager)
return false;
// Entities that are hidden and miraged are considered visible
var cmpFogging = Engine.QueryInterface(target, IID_Fogging);
if (cmpFogging && cmpFogging.IsMiraged(cmpOwnership.GetOwner()))
return true;
if (cmpRangeManager.GetLosVisibility(target, cmpOwnership.GetOwner()) == "hidden")
return false;
// Either visible directly, or visible in fog
return true;
};
/**
* Returns true if the given position is currentl visible (not in FoW/SoD).
*/
UnitAI.prototype.CheckPositionVisible = function(x, z)
{
let cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
if (!cmpOwnership)
return false;
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
if (!cmpRangeManager)
return false;
return cmpRangeManager.GetLosVisibilityPosition(x, z, cmpOwnership.GetOwner()) == "visible";
};
/**
* How close to our goal do we consider it's OK to stop if the goal appears unreachable.
* Currently 3 terrain tiles as that's relatively close but helps pathfinding.
*/
UnitAI.prototype.DefaultRelaxedMaxRange = 12;
/**
* @returns true if the unit is in the relaxed-range from the target.
*/
UnitAI.prototype.RelaxedMaxRangeCheck = function(data, relaxedRange)
{
if (!data.relaxed)
return false;
let ndata = data;
ndata.min = 0;
ndata.max = relaxedRange;
return this.CheckRange(ndata);
};
/**
* Let an entity face its target.
* @param {number} target - The entity-ID of the target.
*/
UnitAI.prototype.FaceTowardsTarget = function(target)
{
let cmpTargetPosition = Engine.QueryInterface(target, IID_Position);
if (!cmpTargetPosition || !cmpTargetPosition.IsInWorld())
return;
let targetPosition = cmpTargetPosition.GetPosition2D();
// Use cmpUnitMotion for units that support that, otherwise try cmpPosition (e.g. turrets)
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (cmpUnitMotion)
{
cmpUnitMotion.FaceTowardsPoint(targetPosition.x, targetPosition.y);
return;
}
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (cmpPosition && cmpPosition.IsInWorld())
cmpPosition.TurnTo(cmpPosition.GetPosition2D().angleTo(targetPosition));
};
UnitAI.prototype.CheckTargetDistanceFromHeldPosition = function(target, iid, type)
{
let range = this.GetRange(iid, type);
if (!range)
return false;
let cmpPosition = Engine.QueryInterface(target, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
return false;
let cmpVision = Engine.QueryInterface(this.entity, IID_Vision);
if (!cmpVision)
return false;
let halfvision = cmpVision.GetRange() / 2;
let pos = cmpPosition.GetPosition();
let heldPosition = this.heldPosition;
if (heldPosition === undefined)
heldPosition = { "x": pos.x, "z": pos.z };
return Math.euclidDistance2D(pos.x, pos.z, heldPosition.x, heldPosition.z) < halfvision + range.max;
};
UnitAI.prototype.CheckTargetIsInVisionRange = function(target)
{
let cmpVision = Engine.QueryInterface(this.entity, IID_Vision);
if (!cmpVision)
return false;
let range = cmpVision.GetRange();
let distance = PositionHelper.DistanceBetweenEntities(this.entity, target);
return distance < range;
};
UnitAI.prototype.GetBestAttackAgainst = function(target, allowCapture)
{
var cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
if (!cmpAttack)
return undefined;
return cmpAttack.GetBestAttackAgainst(target, allowCapture);
};
/**
* Try to find one of the given entities which can be attacked,
* and start attacking it.
* Returns true if it found something to attack.
*/
UnitAI.prototype.AttackVisibleEntity = function(ents)
{
var target = ents.find(target => this.CanAttack(target));
if (!target)
return false;
this.PushOrderFront("Attack", { "target": target, "force": false, "allowCapture": true });
return true;
};
/**
* Try to find one of the given entities which can be attacked
* and which is close to the hold position, and start attacking it.
* Returns true if it found something to attack.
*/
UnitAI.prototype.AttackEntityInZone = function(ents)
{
var target = ents.find(target =>
this.CanAttack(target)
&& this.CheckTargetDistanceFromHeldPosition(target, IID_Attack, this.GetBestAttackAgainst(target, true))
&& (this.GetStance().respondChaseBeyondVision || this.CheckTargetIsInVisionRange(target))
);
if (!target)
return false;
this.PushOrderFront("Attack", { "target": target, "force": false, "allowCapture": true });
return true;
};
/**
* Try to respond appropriately given our current stance,
* given a list of entities that match our stance's target criteria.
* Returns true if it responded.
*/
UnitAI.prototype.RespondToTargetedEntities = function(ents)
{
if (!ents.length)
return false;
if (this.GetStance().respondChase)
return this.AttackVisibleEntity(ents);
if (this.GetStance().respondStandGround)
return this.AttackVisibleEntity(ents);
if (this.GetStance().respondHoldGround)
return this.AttackEntityInZone(ents);
if (this.GetStance().respondFlee)
{
if (this.order && this.order.type == "Flee")
this.orderQueue.shift();
this.PushOrderFront("Flee", { "target": ents[0], "force": false });
return true;
}
return false;
};
/**
* @param {number} ents - An array of the IDs of the spotted entities.
* @return {boolean} - Whether we responded.
*/
UnitAI.prototype.RespondToSightedEntities = function(ents)
{
if (!ents || !ents.length)
return false;
if (this.template.NaturalBehaviour && this.template.NaturalBehaviour == "skittish")
{
this.Flee(ents[0], false);
return true;
}
return false;
};
/**
* Try to respond to healable entities.
* Returns true if it responded.
*/
UnitAI.prototype.RespondToHealableEntities = function(ents)
{
let ent = ents.find(ent => this.CanHeal(ent));
if (!ent)
return false;
this.PushOrderFront("Heal", { "target": ent, "force": false });
return true;
};
/**
* Returns true if we should stop following the target entity.
*/
UnitAI.prototype.ShouldAbandonChase = function(target, force, iid, type)
{
if (!this.CheckTargetVisible(target))
return true;
// Forced orders shouldn't be interrupted.
if (force)
return false;
// If we are guarding/escorting, don't abandon as long as the guarded unit is in target range of the attacker
if (this.isGuardOf)
{
let cmpUnitAI = Engine.QueryInterface(target, IID_UnitAI);
let cmpAttack = Engine.QueryInterface(target, IID_Attack);
if (cmpUnitAI && cmpAttack &&
cmpAttack.GetAttackTypes().some(type => cmpUnitAI.CheckTargetAttackRange(this.isGuardOf, type)))
return false;
}
if (this.GetStance().respondHoldGround)
if (!this.CheckTargetDistanceFromHeldPosition(target, iid, type))
return true;
// Stop if it's left our vision range, unless we're especially persistent.
if (!this.GetStance().respondChaseBeyondVision)
if (!this.CheckTargetIsInVisionRange(target))
return true;
return false;
};
/*
* Returns whether we should chase the targeted entity,
* given our current stance.
*/
UnitAI.prototype.ShouldChaseTargetedEntity = function(target, force)
{
if (!this.AbleToMove())
return false;
if (this.GetStance().respondChase)
return true;
// If we are guarding/escorting, chase at least as long as the guarded unit is in target range of the attacker
if (this.isGuardOf)
{
let cmpUnitAI = Engine.QueryInterface(target, IID_UnitAI);
let cmpAttack = Engine.QueryInterface(target, IID_Attack);
if (cmpUnitAI && cmpAttack &&
cmpAttack.GetAttackTypes().some(type => cmpUnitAI.CheckTargetAttackRange(this.isGuardOf, type)))
return true;
}
return force;
};
//// External interface functions ////
UnitAI.prototype.SetFormationController = function(ent)
{
this.formationController = ent;
// Set obstruction group, so we can walk through members
// of our own formation (or ourself if not in formation)
var cmpObstruction = Engine.QueryInterface(this.entity, IID_Obstruction);
if (cmpObstruction)
{
if (ent == INVALID_ENTITY)
cmpObstruction.SetControlGroup(this.entity);
else
cmpObstruction.SetControlGroup(ent);
}
// If we were removed from a formation, let the FSM switch back to INDIVIDUAL
if (ent == INVALID_ENTITY)
this.UnitFsm.ProcessMessage(this, { "type": "FormationLeave" });
};
UnitAI.prototype.GetFormationController = function()
{
return this.formationController;
};
UnitAI.prototype.GetFormationTemplate = function()
{
return Engine.QueryInterface(SYSTEM_ENTITY, IID_TemplateManager).GetCurrentTemplateName(this.formationController) || "special/formations/null";
};
UnitAI.prototype.MoveIntoFormation = function(cmd)
{
var cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
if (!cmpFormation)
return;
var cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
return;
var pos = cmpPosition.GetPosition();
this.PushOrderFront("MoveIntoFormation", { "x": pos.x, "z": pos.z, "force": true });
};
UnitAI.prototype.GetTargetPositions = function()
{
var targetPositions = [];
for (var i = 0; i < this.orderQueue.length; ++i)
{
var order = this.orderQueue[i];
switch (order.type)
{
case "Walk":
case "WalkAndFight":
case "WalkToPointRange":
case "MoveIntoFormation":
case "GatherNearPosition":
case "Patrol":
targetPositions.push(new Vector2D(order.data.x, order.data.z));
break; // and continue the loop
case "WalkToTarget":
case "WalkToTargetRange": // This doesn't move to the target (just into range), but a later order will.
case "Guard":
case "Flee":
case "LeaveFoundation":
case "Attack":
case "Heal":
case "Gather":
case "ReturnResource":
case "Repair":
case "Garrison":
var cmpTargetPosition = Engine.QueryInterface(order.data.target, IID_Position);
if (!cmpTargetPosition || !cmpTargetPosition.IsInWorld())
return targetPositions;
targetPositions.push(cmpTargetPosition.GetPosition2D());
return targetPositions;
case "Stop":
return [];
default:
error("GetTargetPositions: Unrecognised order type '"+order.type+"'");
return [];
}
}
return targetPositions;
};
/**
* Returns the estimated distance that this unit will travel before either
* finishing all of its orders, or reaching a non-walk target (attack, gather, etc).
* Intended for Formation to switch to column layout on long walks.
*/
UnitAI.prototype.ComputeWalkingDistance = function()
{
var distance = 0;
var cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
return 0;
// Keep track of the position at the start of each order
var pos = cmpPosition.GetPosition2D();
var targetPositions = this.GetTargetPositions();
for (var i = 0; i < targetPositions.length; ++i)
{
distance += pos.distanceTo(targetPositions[i]);
// Remember this as the start position for the next order
pos = targetPositions[i];
}
return distance;
};
UnitAI.prototype.AddOrder = function(type, data, queued)
{
if (this.expectedRoute)
this.expectedRoute = undefined;
if (queued)
this.PushOrder(type, data);
else
{
// May happen if an order arrives on the same turn the unit is garrisoned
// in that case, just forget the order as this will lead to an infinite loop
if (this.IsGarrisoned() && !this.IsTurret() && type != "Ungarrison")
return;
this.ReplaceOrder(type, data);
}
};
/**
* Adds guard/escort order to the queue, forced by the player.
*/
UnitAI.prototype.Guard = function(target, queued)
{
if (!this.CanGuard())
{
this.WalkToTarget(target, queued);
return;
}
if (target === this.entity)
return;
if (this.isGuardOf)
{
if (this.isGuardOf == target && this.order && this.order.type == "Guard")
return;
else
this.RemoveGuard();
}
this.AddOrder("Guard", { "target": target, "force": false }, queued);
};
/**
* @return {boolean} - Whether it makes sense to guard the given entity.
*/
UnitAI.prototype.ShouldGuard = function(target)
{
return this.TargetIsAlive(target) ||
Engine.QueryInterface(target, IID_Capturable) ||
Engine.QueryInterface(target, IID_StatusEffectsReceiver);
};
UnitAI.prototype.AddGuard = function(target)
{
if (!this.CanGuard())
return false;
var cmpGuard = Engine.QueryInterface(target, IID_Guard);
if (!cmpGuard)
return false;
this.isGuardOf = target;
this.guardRange = cmpGuard.GetRange(this.entity);
cmpGuard.AddGuard(this.entity);
return true;
};
UnitAI.prototype.RemoveGuard = function()
{
if (!this.isGuardOf)
return;
let cmpGuard = Engine.QueryInterface(this.isGuardOf, IID_Guard);
if (cmpGuard)
cmpGuard.RemoveGuard(this.entity);
this.guardRange = undefined;
this.isGuardOf = undefined;
if (!this.order)
return;
if (this.order.type == "Guard")
this.UnitFsm.ProcessMessage(this, { "type": "RemoveGuard" });
else
for (let i = 1; i < this.orderQueue.length; ++i)
if (this.orderQueue[i].type == "Guard")
this.orderQueue.splice(i, 1);
Engine.PostMessage(this.entity, MT_UnitAIOrderDataChanged, { "to": this.GetOrderData() });
};
UnitAI.prototype.IsGuardOf = function()
{
return this.isGuardOf;
};
UnitAI.prototype.SetGuardOf = function(entity)
{
// entity may be undefined
this.isGuardOf = entity;
};
UnitAI.prototype.CanGuard = function()
{
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
if (this.IsFormationController())
return true;
return this.template.CanGuard == "true";
};
UnitAI.prototype.CanPatrol = function()
{
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
return this.IsFormationController() || this.template.CanPatrol == "true";
};
/**
* Adds walk order to queue, forced by the player.
*/
UnitAI.prototype.Walk = function(x, z, queued)
{
if (this.expectedRoute && queued)
this.expectedRoute.push({ "x": x, "z": z });
else
this.AddOrder("Walk", { "x": x, "z": z, "force": true }, queued);
};
/**
* Adds walk to point range order to queue, forced by the player.
*/
UnitAI.prototype.WalkToPointRange = function(x, z, min, max, queued)
{
this.AddOrder("Walk", { "x": x, "z": z, "min": min, "max": max, "force": true }, queued);
};
/**
* Adds stop order to queue, forced by the player.
*/
UnitAI.prototype.Stop = function(queued)
{
this.AddOrder("Stop", { "force": true }, queued);
};
/**
* Adds walk-to-target order to queue, this only occurs in response
* to a player order, and so is forced.
*/
UnitAI.prototype.WalkToTarget = function(target, queued)
{
this.AddOrder("WalkToTarget", { "target": target, "force": true }, queued);
};
/**
* Adds walk-and-fight order to queue, this only occurs in response
* to a player order, and so is forced.
* If targetClasses is given, only entities matching the targetClasses can be attacked.
*/
UnitAI.prototype.WalkAndFight = function(x, z, targetClasses, allowCapture = true, queued = false)
{
this.AddOrder("WalkAndFight", { "x": x, "z": z, "targetClasses": targetClasses, "allowCapture": allowCapture, "force": true }, queued);
};
UnitAI.prototype.Patrol = function(x, z, targetClasses, allowCapture = true, queued = false)
{
if (!this.CanPatrol())
{
this.Walk(x, z, queued);
return;
}
this.AddOrder("Patrol", { "x": x, "z": z, "targetClasses": targetClasses, "allowCapture": allowCapture, "force": true }, queued);
};
/**
* Adds leave foundation order to queue, treated as forced.
*/
UnitAI.prototype.LeaveFoundation = function(target)
{
// If we're already being told to leave a foundation, then
// ignore this new request so we don't end up being too indecisive
// to ever actually move anywhere.
if (this.order && (this.order.type == "LeaveFoundation" || (this.order.type == "Flee" && this.order.data.target == target)))
return;
if (this.orderQueue.length && this.orderQueue[0].type == "Unpack" && this.WillMoveFromFoundation(target, false))
{
let cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
if (cmpPack)
cmpPack.CancelPack();
}
if (this.IsPacking())
return;
this.PushOrderFront("LeaveFoundation", { "target": target, "force": true });
};
/**
* Adds attack order to the queue, forced by the player.
*/
UnitAI.prototype.Attack = function(target, allowCapture = true, queued = false)
{
if (!this.CanAttack(target))
{
// We don't want to let healers walk to the target unit so they can be easily killed.
// Instead we just let them get into healing range.
if (this.IsHealer())
this.MoveToTargetRange(target, IID_Heal);
else
this.WalkToTarget(target, queued);
return;
}
let order = {
"target": target,
"force": true,
"allowCapture": allowCapture,
};
this.RememberTargetPosition(order);
this.AddOrder("Attack", order, queued);
};
/**
* Adds garrison order to the queue, forced by the player.
*/
UnitAI.prototype.Garrison = function(target, queued)
{
if (target == this.entity)
return;
if (!this.CanGarrison(target))
{
this.WalkToTarget(target, queued);
return;
}
this.AddOrder("Garrison", { "target": target, "force": true }, queued);
};
/**
* Adds ungarrison order to the queue.
*/
UnitAI.prototype.Ungarrison = function()
{
if (this.IsGarrisoned())
{
this.SetImmobile(false);
this.AddOrder("Ungarrison", null, false);
}
};
/**
* Adds a garrison order for units that are already garrisoned in the garrison holder.
*/
UnitAI.prototype.Autogarrison = function(target)
{
this.isGarrisoned = true;
this.PushOrderFront("Garrison", { "target": target });
};
/**
* Adds gather order to the queue, forced by the player
* until the target is reached
*/
UnitAI.prototype.Gather = function(target, queued)
{
this.PerformGather(target, queued, true);
};
/**
* Internal function to abstract the force parameter.
*/
UnitAI.prototype.PerformGather = function(target, queued, force)
{
if (!this.CanGather(target))
{
this.WalkToTarget(target, queued);
return;
}
// Save the resource type now, so if the resource gets destroyed
// before we process the order then we still know what resource
// type to look for more of
var type;
var cmpResourceSupply = QueryMiragedInterface(target, IID_ResourceSupply);
if (cmpResourceSupply)
type = cmpResourceSupply.GetType();
else
error("CanGather allowed gathering from invalid entity");
// Also save the target entity's template, so that if it's an animal,
// we won't go from hunting slow safe animals to dangerous fast ones
var cmpTemplateManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_TemplateManager);
var template = cmpTemplateManager.GetCurrentTemplateName(target);
if (template.indexOf("resource|") != -1)
template = template.slice(9);
let order = {
"target": target,
"type": type,
"template": template,
"force": force,
};
this.RememberTargetPosition(order);
order.initPos = order.lastPos;
this.AddOrder("Gather", order, queued);
};
/**
* Adds gather-near-position order to the queue, not forced, so it can be
* interrupted by attacks.
*/
UnitAI.prototype.GatherNearPosition = function(x, z, type, template, queued)
{
if (template.indexOf("resource|") != -1)
template = template.slice(9);
if (this.IsFormationController() || Engine.QueryInterface(this.entity, IID_ResourceGatherer))
this.AddOrder("GatherNearPosition", { "type": type, "template": template, "x": x, "z": z, "force": false }, queued);
else
this.AddOrder("Walk", { "x": x, "z": z, "force": false }, queued);
};
/**
* Adds heal order to the queue, forced by the player.
*/
UnitAI.prototype.Heal = function(target, queued)
{
if (!this.CanHeal(target))
{
this.WalkToTarget(target, queued);
return;
}
this.AddOrder("Heal", { "target": target, "force": true }, queued);
};
/**
* Adds return resource order to the queue, forced by the player.
*/
UnitAI.prototype.ReturnResource = function(target, queued)
{
if (!this.CanReturnResource(target, true))
{
this.WalkToTarget(target, queued);
return;
}
this.AddOrder("ReturnResource", { "target": target, "force": true }, queued);
};
UnitAI.prototype.CancelSetupTradeRoute = function(target)
{
let cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
if (!cmpTrader)
return;
cmpTrader.RemoveTargetMarket(target);
if (this.IsFormationController())
this.CallMemberFunction("CancelSetupTradeRoute", [target]);
}
/**
* Adds trade order to the queue. Either walk to the first market, or
* start a new route. Not forced, so it can be interrupted by attacks.
* The possible route may be given directly as a SetupTradeRoute argument
* if coming from a RallyPoint, or through this.expectedRoute if a user command.
*/
UnitAI.prototype.SetupTradeRoute = function(target, source, route, queued)
{
if (!this.CanTrade(target))
{
this.WalkToTarget(target, queued);
return;
}
// AI has currently no access to BackToWork
let cmpPlayer = QueryOwnerInterface(this.entity);
if (cmpPlayer && cmpPlayer.IsAI() && !this.IsFormationController() &&
this.workOrders.length && this.workOrders[0].type == "Trade")
{
let cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
if (cmpTrader.HasBothMarkets() &&
(cmpTrader.GetFirstMarket() == target && cmpTrader.GetSecondMarket() == source ||
cmpTrader.GetFirstMarket() == source && cmpTrader.GetSecondMarket() == target))
{
this.BackToWork();
return;
}
}
var marketsChanged = this.SetTargetMarket(target, source);
if (!marketsChanged)
return;
var cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
if (cmpTrader.HasBothMarkets())
{
let data = {
"target": cmpTrader.GetFirstMarket(),
"route": route,
"force": false
};
if (this.expectedRoute)
{
if (!route && this.expectedRoute.length)
data.route = this.expectedRoute.slice();
this.expectedRoute = undefined;
}
if (this.IsFormationController())
{
this.CallMemberFunction("AddOrder", ["Trade", data, queued]);
let cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
if (cmpFormation)
cmpFormation.Disband();
}
else
this.AddOrder("Trade", data, queued);
}
else
{
if (this.IsFormationController())
this.CallMemberFunction("WalkToTarget", [cmpTrader.GetFirstMarket(), queued]);
else
this.WalkToTarget(cmpTrader.GetFirstMarket(), queued);
this.expectedRoute = [];
}
};
UnitAI.prototype.SetTargetMarket = function(target, source)
{
var cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
if (!cmpTrader)
return false;
var marketsChanged = cmpTrader.SetTargetMarket(target, source);
if (this.IsFormationController())
this.CallMemberFunction("SetTargetMarket", [target, source]);
return marketsChanged;
};
UnitAI.prototype.SwitchMarketOrder = function(oldMarket, newMarket)
{
if (this.order && this.order.data && this.order.data.target && this.order.data.target == oldMarket)
this.order.data.target = newMarket;
};
UnitAI.prototype.MoveToMarket = function(targetMarket)
{
if (this.waypoints && this.waypoints.length > 1)
{
let point = this.waypoints.pop();
return this.MoveToPoint(point.x, point.z) || this.MoveToMarket(targetMarket);
}
this.waypoints = undefined;
return this.MoveToTargetRange(targetMarket, IID_Trader);
};
UnitAI.prototype.PerformTradeAndMoveToNextMarket = function(currentMarket)
{
if (!this.CanTrade(currentMarket))
{
this.StopTrading();
return;
}
if (!this.CheckTargetRange(currentMarket, IID_Trader))
{
if (!this.MoveToMarket(currentMarket)) // If the current market is not reached try again
this.StopTrading();
return;
}
let cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
let nextMarket = cmpTrader.PerformTrade(currentMarket);
let amount = cmpTrader.GetGoods().amount;
if (!nextMarket || !amount || !amount.traderGain)
{
this.StopTrading();
return;
}
this.order.data.target = nextMarket;
if (this.order.data.route && this.order.data.route.length)
{
this.waypoints = this.order.data.route.slice();
if (this.order.data.target == cmpTrader.GetSecondMarket())
this.waypoints.reverse();
this.waypoints.unshift(null); // additionnal dummy point for the market
}
if (this.MoveToMarket(nextMarket))
this.SetNextState("APPROACHINGMARKET");
else
this.StopTrading();
};
UnitAI.prototype.MarketRemoved = function(market)
{
if (this.order && this.order.data && this.order.data.target && this.order.data.target == market)
this.UnitFsm.ProcessMessage(this, { "type": "TradingCanceled", "market": market });
};
UnitAI.prototype.StopTrading = function()
{
this.StopMoving();
this.FinishOrder();
var cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
cmpTrader.StopTrading();
};
/**
* Adds repair/build order to the queue, forced by the player
* until the target is reached
*/
UnitAI.prototype.Repair = function(target, autocontinue, queued)
{
if (!this.CanRepair(target))
{
this.WalkToTarget(target, queued);
return;
}
this.AddOrder("Repair", { "target": target, "autocontinue": autocontinue, "force": true }, queued);
};
/**
* Adds flee order to the queue, not forced, so it can be
* interrupted by attacks.
*/
UnitAI.prototype.Flee = function(target, queued)
{
this.AddOrder("Flee", { "target": target, "force": false }, queued);
};
UnitAI.prototype.Cheer = function()
{
this.PushOrderFront("Cheer", { "force": false });
};
UnitAI.prototype.Pack = function(queued)
{
if (this.CanPack())
this.AddOrder("Pack", { "force": true }, queued);
};
UnitAI.prototype.Unpack = function(queued)
{
if (this.CanUnpack())
this.AddOrder("Unpack", { "force": true }, queued);
};
UnitAI.prototype.CancelPack = function(queued)
{
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
if (cmpPack && cmpPack.IsPacking() && !cmpPack.IsPacked())
this.AddOrder("CancelPack", { "force": true }, queued);
};
UnitAI.prototype.CancelUnpack = function(queued)
{
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
if (cmpPack && cmpPack.IsPacking() && cmpPack.IsPacked())
this.AddOrder("CancelUnpack", { "force": true }, queued);
};
UnitAI.prototype.SetStance = function(stance)
{
if (g_Stances[stance])
{
this.stance = stance;
Engine.PostMessage(this.entity, MT_UnitStanceChanged, { "to": this.stance });
}
else
error("UnitAI: Setting to invalid stance '"+stance+"'");
};
UnitAI.prototype.SwitchToStance = function(stance)
{
var cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
return;
var pos = cmpPosition.GetPosition();
this.SetHeldPosition(pos.x, pos.z);
this.SetStance(stance);
// Stop moving if switching to stand ground
// TODO: Also stop existing orders in a sensible way
if (stance == "standground")
this.StopMoving();
// Reset the range queries, since the range depends on stance.
this.SetupRangeQueries();
};
UnitAI.prototype.SetTurretStance = function()
{
this.previousStance = undefined;
if (this.GetStance().respondStandGround)
return;
for (let stance in g_Stances)
{
if (!g_Stances[stance].respondStandGround)
continue;
this.previousStance = this.GetStanceName();
this.SwitchToStance(stance);
return;
}
};
UnitAI.prototype.ResetTurretStance = function()
{
if (!this.previousStance)
return;
this.SwitchToStance(this.previousStance);
this.previousStance = undefined;
};
/**
* Resets the losRangeQuery.
* @return {boolean} - Whether there are targets in range that we ought to react upon.
*/
UnitAI.prototype.FindSightedEnemies = function()
{
if (!this.losRangeQuery)
return false;
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
return this.RespondToSightedEntities(cmpRangeManager.ResetActiveQuery(this.losRangeQuery));
};
/**
* Resets losHealRangeQuery, and if there are some targets in range that we can heal
* then we start healing and this returns true; otherwise, returns false.
*/
UnitAI.prototype.FindNewHealTargets = function()
{
if (!this.losHealRangeQuery)
return false;
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
return this.RespondToHealableEntities(cmpRangeManager.ResetActiveQuery(this.losHealRangeQuery));
};
/**
* Resets losAttackRangeQuery, and if there are some targets in range that we can
* attack then we start attacking and this returns true; otherwise, returns false.
*/
UnitAI.prototype.FindNewTargets = function()
{
if (!this.losAttackRangeQuery)
return false;
if (!this.GetStance().targetVisibleEnemies)
return false;
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
return this.AttackEntitiesByPreference(cmpRangeManager.ResetActiveQuery(this.losAttackRangeQuery));
};
UnitAI.prototype.FindWalkAndFightTargets = function()
{
if (this.IsFormationController())
{
var cmpUnitAI;
var cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
for (var ent of cmpFormation.members)
{
if (!(cmpUnitAI = Engine.QueryInterface(ent, IID_UnitAI)))
continue;
var targets = cmpUnitAI.GetTargetsFromUnit();
for (var targ of targets)
{
if (!cmpUnitAI.CanAttack(targ))
continue;
if (this.order.data.targetClasses)
{
var cmpIdentity = Engine.QueryInterface(targ, IID_Identity);
var targetClasses = this.order.data.targetClasses;
if (targetClasses.attack && cmpIdentity
&& !MatchesClassList(cmpIdentity.GetClassesList(), targetClasses.attack))
continue;
if (targetClasses.avoid && cmpIdentity
&& MatchesClassList(cmpIdentity.GetClassesList(), targetClasses.avoid))
continue;
// Only used by the AIs to prevent some choices of targets
if (targetClasses.vetoEntities && targetClasses.vetoEntities[targ])
continue;
}
this.PushOrderFront("Attack", { "target": targ, "force": false, "allowCapture": this.order.data.allowCapture });
return true;
}
}
return false;
}
var targets = this.GetTargetsFromUnit();
for (var targ of targets)
{
if (!this.CanAttack(targ))
continue;
if (this.order.data.targetClasses)
{
var cmpIdentity = Engine.QueryInterface(targ, IID_Identity);
var targetClasses = this.order.data.targetClasses;
if (cmpIdentity && targetClasses.attack
&& !MatchesClassList(cmpIdentity.GetClassesList(), targetClasses.attack))
continue;
if (cmpIdentity && targetClasses.avoid
&& MatchesClassList(cmpIdentity.GetClassesList(), targetClasses.avoid))
continue;
// Only used by the AIs to prevent some choices of targets
if (targetClasses.vetoEntities && targetClasses.vetoEntities[targ])
continue;
}
this.PushOrderFront("Attack", { "target": targ, "force": false, "allowCapture": this.order.data.allowCapture });
return true;
}
// healers on a walk-and-fight order should heal injured units
if (this.IsHealer())
return this.FindNewHealTargets();
return false;
};
UnitAI.prototype.GetTargetsFromUnit = function()
{
if (!this.losAttackRangeQuery)
return [];
if (!this.GetStance().targetVisibleEnemies)
return [];
let cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
if (!cmpAttack)
return [];
let attackfilter = function(e) {
let cmpOwnership = Engine.QueryInterface(e, IID_Ownership);
if (cmpOwnership && cmpOwnership.GetOwner() > 0)
return true;
let cmpUnitAI = Engine.QueryInterface(e, IID_UnitAI);
return cmpUnitAI && (!cmpUnitAI.IsAnimal() || cmpUnitAI.IsDangerousAnimal());
};
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
let entities = cmpRangeManager.ResetActiveQuery(this.losAttackRangeQuery);
let targets = entities.filter(function(v) { return cmpAttack.CanAttack(v) && attackfilter(v); })
.sort(function(a, b) { return cmpAttack.CompareEntitiesByPreference(a, b); });
return targets;
};
UnitAI.prototype.GetQueryRange = function(iid)
{
let ret = { "min": 0, "max": 0 };
let cmpVision = Engine.QueryInterface(this.entity, IID_Vision);
if (!cmpVision)
return ret;
let visionRange = cmpVision.GetRange();
if (iid === IID_Vision)
{
ret.max = visionRange;
return ret;
}
if (this.GetStance().respondStandGround)
{
let range = this.GetRange(iid);
if (!range)
return ret;
ret.min = range.min;
ret.max = Math.min(range.max, visionRange);
}
else if (this.GetStance().respondChase)
ret.max = visionRange;
else if (this.GetStance().respondHoldGround)
{
let range = this.GetRange(iid);
if (!range)
return ret;
ret.max = Math.min(range.max + visionRange / 2, visionRange);
}
// We probably have stance 'passive' and we wouldn't have a range,
// but as it is the default for healers we need to set it to something sane.
else if (iid === IID_Heal)
ret.max = visionRange;
return ret;
};
UnitAI.prototype.GetStance = function()
{
return g_Stances[this.stance];
};
UnitAI.prototype.GetSelectableStances = function()
{
if (this.IsTurret())
return [];
return Object.keys(g_Stances).filter(key => g_Stances[key].selectable);
};
UnitAI.prototype.GetStanceName = function()
{
return this.stance;
};
/*
* Make the unit walk at its normal pace.
*/
UnitAI.prototype.ResetSpeedMultiplier = function()
{
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (cmpUnitMotion)
cmpUnitMotion.SetSpeedMultiplier(1);
};
UnitAI.prototype.SetSpeedMultiplier = function(speed)
{
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (cmpUnitMotion)
cmpUnitMotion.SetSpeedMultiplier(speed);
};
/**
* Try to match the targets current movement speed.
*
* @param {number} target - The entity ID of the target to match.
* @param {boolean} mayRun - Whether the entity is allowed to run to match the speed.
*/
UnitAI.prototype.TryMatchTargetSpeed = function(target, mayRun = true)
{
let cmpUnitMotionTarget = Engine.QueryInterface(target, IID_UnitMotion);
if (cmpUnitMotionTarget)
{
let targetSpeed = cmpUnitMotionTarget.GetCurrentSpeed();
if (targetSpeed)
this.SetSpeedMultiplier(Math.min(mayRun ? this.GetRunMultiplier() : 1, targetSpeed / this.GetWalkSpeed()));
}
};
/*
* Remember the position of the target (in lastPos), if any, in case it disappears later
* and we want to head to its last known position.
* @param orderData - The order data to set this on. Defaults to this.order.data
*/
UnitAI.prototype.RememberTargetPosition = function(orderData)
{
if (!orderData)
orderData = this.order.data;
let cmpPosition = Engine.QueryInterface(orderData.target, IID_Position);
if (cmpPosition && cmpPosition.IsInWorld())
orderData.lastPos = cmpPosition.GetPosition();
};
UnitAI.prototype.SetHeldPosition = function(x, z)
{
this.heldPosition = {"x": x, "z": z};
};
UnitAI.prototype.SetHeldPositionOnEntity = function(entity)
{
var cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
if (!cmpPosition || !cmpPosition.IsInWorld())
return;
var pos = cmpPosition.GetPosition();
this.SetHeldPosition(pos.x, pos.z);
};
UnitAI.prototype.GetHeldPosition = function()
{
return this.heldPosition;
};
UnitAI.prototype.WalkToHeldPosition = function()
{
if (this.heldPosition)
{
this.AddOrder("Walk", { "x": this.heldPosition.x, "z": this.heldPosition.z, "force": false }, false);
return true;
}
return false;
};
//// Helper functions ////
/**
* General getter for ranges.
*
* @param {number} iid
* @param {string} type - [Optional]
* @return {Object | undefined} - The range in the form
* { "min": number, "max": number }
* Object."elevationBonus": number may be present when iid == IID_Attack.
* Returns undefined when the entity does not have the requested component.
*/
UnitAI.prototype.GetRange = function(iid, type)
{
let component = Engine.QueryInterface(this.entity, iid);
if (!component)
return undefined;
return component.GetRange(type);
}
UnitAI.prototype.CanAttack = function(target)
{
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
if (this.IsFormationController())
return true;
let cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
return cmpAttack && cmpAttack.CanAttack(target);
};
UnitAI.prototype.CanGarrison = function(target)
{
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
if (this.IsFormationController())
return true;
let cmpGarrisonHolder = Engine.QueryInterface(target, IID_GarrisonHolder);
if (!cmpGarrisonHolder)
return false;
let cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
if (!cmpOwnership || !(IsOwnedByPlayer(cmpOwnership.GetOwner(), target) || IsOwnedByMutualAllyOfPlayer(cmpOwnership.GetOwner(), target)))
return false;
return true;
};
UnitAI.prototype.CanGather = function(target)
{
if (this.IsTurret())
return false;
var cmpResourceSupply = QueryMiragedInterface(target, IID_ResourceSupply);
if (!cmpResourceSupply)
return false;
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
if (this.IsFormationController())
return true;
var cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
if (!cmpResourceGatherer)
return false;
if (!cmpResourceGatherer.GetTargetGatherRate(target))
return false;
// No need to verify ownership as we should be able to gather from
// a target regardless of ownership.
// No need to call "cmpResourceSupply.IsAvailable()" either because that
// would cause units to walk to full entities instead of choosing another one
// nearby to gather from, which is undesirable.
return true;
};
UnitAI.prototype.CanHeal = function(target)
{
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
if (this.IsFormationController())
return true;
let cmpHeal = Engine.QueryInterface(this.entity, IID_Heal);
return cmpHeal && cmpHeal.CanHeal(target);
};
/**
* Check if the entity can return carried resources at @param target
* @param checkCarriedResource check we are carrying resources
* @param cmpResourceGatherer if present, use this directly instead of re-querying.
*/
UnitAI.prototype.CanReturnResource = function(target, checkCarriedResource, cmpResourceGatherer = undefined)
{
if (this.IsTurret())
return false;
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
if (this.IsFormationController())
return true;
if (!cmpResourceGatherer)
{
cmpResourceGatherer = Engine.QueryInterface(this.entity, IID_ResourceGatherer);
if (!cmpResourceGatherer)
return false;
}
let cmpResourceDropsite = Engine.QueryInterface(target, IID_ResourceDropsite);
if (!cmpResourceDropsite)
return false;
if (checkCarriedResource)
{
let type = cmpResourceGatherer.GetMainCarryingType();
if (!type || !cmpResourceDropsite.AcceptsType(type))
return false;
}
let cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
if (cmpOwnership && IsOwnedByPlayer(cmpOwnership.GetOwner(), target))
return true;
let cmpPlayer = QueryOwnerInterface(this.entity);
return cmpPlayer && cmpPlayer.HasSharedDropsites() && cmpResourceDropsite.IsShared() &&
cmpOwnership && IsOwnedByMutualAllyOfPlayer(cmpOwnership.GetOwner(), target);
};
UnitAI.prototype.CanTrade = function(target)
{
if (this.IsTurret())
return false;
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
if (this.IsFormationController())
return true;
var cmpTrader = Engine.QueryInterface(this.entity, IID_Trader);
return cmpTrader && cmpTrader.CanTrade(target);
};
UnitAI.prototype.CanRepair = function(target)
{
if (this.IsTurret())
return false;
// Formation controllers should always respond to commands
// (then the individual units can make up their own minds)
if (this.IsFormationController())
return true;
// Verify that we're able to respond to Repair (Builder) commands
var cmpBuilder = Engine.QueryInterface(this.entity, IID_Builder);
if (!cmpBuilder)
return false;
var cmpFoundation = QueryMiragedInterface(target, IID_Foundation);
var cmpRepairable = Engine.QueryInterface(target, IID_Repairable);
if (!cmpFoundation && !cmpRepairable)
return false;
var cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
return cmpOwnership && IsOwnedByAllyOfPlayer(cmpOwnership.GetOwner(), target);
};
UnitAI.prototype.CanPack = function()
{
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
return cmpPack && !cmpPack.IsPacking() && !cmpPack.IsPacked();
};
UnitAI.prototype.CanUnpack = function()
{
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
return cmpPack && !cmpPack.IsPacking() && cmpPack.IsPacked();
};
UnitAI.prototype.IsPacking = function()
{
var cmpPack = Engine.QueryInterface(this.entity, IID_Pack);
return cmpPack && cmpPack.IsPacking();
};
//// Formation specific functions ////
UnitAI.prototype.IsAttackingAsFormation = function()
{
var cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
return cmpAttack && cmpAttack.CanAttackAsFormation()
&& this.GetCurrentState() == "FORMATIONCONTROLLER.COMBAT.ATTACKING";
};
//// Animal specific functions ////
UnitAI.prototype.MoveRandomly = function(distance)
{
// To minimize drift all across the map, animals describe circles
// approximated by polygons.
// And to avoid getting stuck in obstacles or narrow spaces, each side
// of the polygon is obtained by trying to go away from a point situated
// half a meter backwards of the current position, after rotation.
// We also add a fluctuation on the length of each side of the polygon (dist)
// which, in addition to making the move more random, helps escaping narrow spaces
// with bigger values of dist.
let cmpPosition = Engine.QueryInterface(this.entity, IID_Position);
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (!cmpPosition || !cmpPosition.IsInWorld() || !cmpUnitMotion)
return;
let pos = cmpPosition.GetPosition();
let ang = cmpPosition.GetRotation().y;
if (!this.roamAngle)
{
this.roamAngle = (randBool() ? 1 : -1) * Math.PI / 6;
ang -= this.roamAngle / 2;
this.startAngle = ang;
}
else if (Math.abs((ang - this.startAngle + Math.PI) % (2 * Math.PI) - Math.PI) < Math.abs(this.roamAngle / 2))
this.roamAngle *= randBool() ? 1 : -1;
let halfDelta = randFloat(this.roamAngle / 4, this.roamAngle * 3 / 4);
// First half rotation to decrease the impression of immediate rotation
ang += halfDelta;
cmpUnitMotion.FaceTowardsPoint(pos.x + 0.5 * Math.sin(ang), pos.z + 0.5 * Math.cos(ang));
// Then second half of the rotation
ang += halfDelta;
let dist = randFloat(0.5, 1.5) * distance;
cmpUnitMotion.MoveToPointRange(pos.x - 0.5 * Math.sin(ang), pos.z - 0.5 * Math.cos(ang), dist, -1);
};
UnitAI.prototype.SetFacePointAfterMove = function(val)
{
var cmpMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
if (cmpMotion)
cmpMotion.SetFacePointAfterMove(val);
};
UnitAI.prototype.GetFacePointAfterMove = function()
{
let cmpUnitMotion = Engine.QueryInterface(this.entity, IID_UnitMotion);
return cmpUnitMotion && cmpUnitMotion.GetFacePointAfterMove();
}
UnitAI.prototype.AttackEntitiesByPreference = function(ents)
{
if (!ents.length)
return false;
var cmpAttack = Engine.QueryInterface(this.entity, IID_Attack);
if (!cmpAttack)
return false;
var attackfilter = function(e) {
var cmpOwnership = Engine.QueryInterface(e, IID_Ownership);
if (cmpOwnership && cmpOwnership.GetOwner() > 0)
return true;
var cmpUnitAI = Engine.QueryInterface(e, IID_UnitAI);
return cmpUnitAI && (!cmpUnitAI.IsAnimal() || cmpUnitAI.IsDangerousAnimal());
};
let entsByPreferences = {};
let preferences = [];
let entsWithoutPref = [];
for (let ent of ents)
{
if (!attackfilter(ent))
continue;
let pref = cmpAttack.GetPreference(ent);
if (pref === null || pref === undefined)
entsWithoutPref.push(ent);
else if (!entsByPreferences[pref])
{
preferences.push(pref);
entsByPreferences[pref] = [ent];
}
else
entsByPreferences[pref].push(ent);
}
if (preferences.length)
{
preferences.sort((a, b) => a - b);
for (let pref of preferences)
if (this.RespondToTargetedEntities(entsByPreferences[pref]))
return true;
}
return this.RespondToTargetedEntities(entsWithoutPref);
};
/**
* Call UnitAI.funcname(args) on all formation members.
* @param resetWaitingEntities - If true, call ResetWaitingEntities first.
* If the controller wants to wait on its members to finish their order,
* this needs to be reset before sending new orders (in case they instafail)
* so it makes sense to do it here.
* Only set this to false if you're sure it's safe.
*/
UnitAI.prototype.CallMemberFunction = function(funcname, args, resetWaitingEntities = true)
{
var cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
if (!cmpFormation)
return;
if (resetWaitingEntities)
cmpFormation.ResetWaitingEntities();
cmpFormation.GetMembers().forEach(ent => {
let cmpUnitAI = Engine.QueryInterface(ent, IID_UnitAI);
cmpUnitAI[funcname].apply(cmpUnitAI, args);
});
};
/**
* Call obj.funcname(args) on UnitAI components owned by player in given range.
*/
UnitAI.prototype.CallPlayerOwnedEntitiesFunctionInRange = function(funcname, args, range)
{
let cmpOwnership = Engine.QueryInterface(this.entity, IID_Ownership);
if (!cmpOwnership)
return;
let owner = cmpOwnership.GetOwner();
if (owner == INVALID_PLAYER)
return;
let cmpRangeManager = Engine.QueryInterface(SYSTEM_ENTITY, IID_RangeManager);
let nearby = cmpRangeManager.ExecuteQuery(this.entity, 0, range, [owner], IID_UnitAI);
for (let i = 0; i < nearby.length; ++i)
{
let cmpUnitAI = Engine.QueryInterface(nearby[i], IID_UnitAI);
cmpUnitAI[funcname].apply(cmpUnitAI, args);
}
};
/**
* Call obj.functname(args) on UnitAI components of all formation members,
* and return true if all calls return true.
*/
UnitAI.prototype.TestAllMemberFunction = function(funcname, args)
{
var cmpFormation = Engine.QueryInterface(this.entity, IID_Formation);
if (!cmpFormation)
return false;
return cmpFormation.GetMembers().every(ent => {
var cmpUnitAI = Engine.QueryInterface(ent, IID_UnitAI);
return cmpUnitAI[funcname].apply(cmpUnitAI, args);
});
};
UnitAI.prototype.UnitFsm = new FSM(UnitAI.prototype.UnitFsmSpec);
Engine.RegisterComponentType(IID_UnitAI, "UnitAI", UnitAI);
Index: ps/trunk/binaries/data/mods/public/simulation/components/tests/test_GuiInterface.js
===================================================================
--- ps/trunk/binaries/data/mods/public/simulation/components/tests/test_GuiInterface.js (revision 24356)
+++ ps/trunk/binaries/data/mods/public/simulation/components/tests/test_GuiInterface.js (revision 24357)
@@ -1,600 +1,606 @@
Engine.LoadHelperScript("ObstructionSnap.js");
Engine.LoadHelperScript("Player.js");
Engine.LoadComponentScript("interfaces/AlertRaiser.js");
Engine.LoadComponentScript("interfaces/Auras.js");
Engine.LoadComponentScript("interfaces/Barter.js");
Engine.LoadComponentScript("interfaces/Builder.js");
Engine.LoadComponentScript("interfaces/Capturable.js");
Engine.LoadComponentScript("interfaces/CeasefireManager.js");
Engine.LoadComponentScript("interfaces/Resistance.js");
Engine.LoadComponentScript("interfaces/DeathDamage.js");
Engine.LoadComponentScript("interfaces/EndGameManager.js");
Engine.LoadComponentScript("interfaces/EntityLimits.js");
Engine.LoadComponentScript("interfaces/Foundation.js");
Engine.LoadComponentScript("interfaces/Garrisonable.js");
Engine.LoadComponentScript("interfaces/GarrisonHolder.js");
Engine.LoadComponentScript("interfaces/Gate.js");
Engine.LoadComponentScript("interfaces/Guard.js");
Engine.LoadComponentScript("interfaces/Heal.js");
Engine.LoadComponentScript("interfaces/Health.js");
Engine.LoadComponentScript("interfaces/Loot.js");
Engine.LoadComponentScript("interfaces/Market.js");
Engine.LoadComponentScript("interfaces/Pack.js");
Engine.LoadComponentScript("interfaces/ProductionQueue.js");
Engine.LoadComponentScript("interfaces/Promotion.js");
Engine.LoadComponentScript("interfaces/Repairable.js");
Engine.LoadComponentScript("interfaces/ResourceDropsite.js");
Engine.LoadComponentScript("interfaces/ResourceGatherer.js");
Engine.LoadComponentScript("interfaces/ResourceTrickle.js");
Engine.LoadComponentScript("interfaces/ResourceSupply.js");
Engine.LoadComponentScript("interfaces/TechnologyManager.js");
Engine.LoadComponentScript("interfaces/Trader.js");
Engine.LoadComponentScript("interfaces/TurretHolder.js");
Engine.LoadComponentScript("interfaces/Timer.js");
Engine.LoadComponentScript("interfaces/StatisticsTracker.js");
Engine.LoadComponentScript("interfaces/StatusEffectsReceiver.js");
Engine.LoadComponentScript("interfaces/UnitAI.js");
Engine.LoadComponentScript("interfaces/Upgrade.js");
Engine.LoadComponentScript("interfaces/BuildingAI.js");
Engine.LoadComponentScript("GuiInterface.js");
Resources = {
"GetCodes": () => ["food", "metal", "stone", "wood"],
"GetNames": () => ({
"food": "Food",
"metal": "Metal",
"stone": "Stone",
"wood": "Wood"
}),
"GetResource": resource => ({
"aiAnalysisInfluenceGroup":
resource == "food" ? "ignore" :
resource == "wood" ? "abundant" : "sparse"
})
};
var cmp = ConstructComponent(SYSTEM_ENTITY, "GuiInterface");
AddMock(SYSTEM_ENTITY, IID_Barter, {
"GetPrices": function() {
return {
"buy": { "food": 150 },
"sell": { "food": 25 }
};
}
});
AddMock(SYSTEM_ENTITY, IID_EndGameManager, {
"GetVictoryConditions": () => ["conquest", "wonder"],
"GetAlliedVictory": function() { return false; }
});
AddMock(SYSTEM_ENTITY, IID_PlayerManager, {
"GetNumPlayers": function() { return 2; },
"GetPlayerByID": function(id) { TS_ASSERT(id === 0 || id === 1); return 100 + id; },
"GetMaxWorldPopulation": function() {}
});
AddMock(SYSTEM_ENTITY, IID_RangeManager, {
"GetLosVisibility": function(ent, player) { return "visible"; },
"GetLosCircular": function() { return false; }
});
AddMock(SYSTEM_ENTITY, IID_TemplateManager, {
"GetCurrentTemplateName": function(ent) { return "example"; },
"GetTemplate": function(name) { return ""; }
});
AddMock(SYSTEM_ENTITY, IID_Timer, {
"GetTime": function() { return 0; },
"SetTimeout": function(ent, iid, funcname, time, data) { return 0; }
});
AddMock(100, IID_Player, {
"GetName": function() { return "Player 1"; },
"GetCiv": function() { return "gaia"; },
"GetColor": function() { return { "r": 1, "g": 1, "b": 1, "a": 1 }; },
"CanControlAllUnits": function() { return false; },
"GetPopulationCount": function() { return 10; },
"GetPopulationLimit": function() { return 20; },
"GetMaxPopulation": function() { return 200; },
"GetResourceCounts": function() { return { "food": 100 }; },
+ "GetResourceGatherers": function() { return { "food": 1 }; },
"GetPanelEntities": function() { return []; },
"IsTrainingBlocked": function() { return false; },
"GetState": function() { return "active"; },
"GetTeam": function() { return -1; },
"GetLockTeams": function() { return false; },
"GetCheatsEnabled": function() { return false; },
"GetDiplomacy": function() { return [-1, 1]; },
"IsAlly": function() { return false; },
"IsMutualAlly": function() { return false; },
"IsNeutral": function() { return false; },
"IsEnemy": function() { return true; },
"GetDisabledTemplates": function() { return {}; },
"GetDisabledTechnologies": function() { return {}; },
"CanBarter": function() { return false; },
"GetSpyCostMultiplier": function() { return 1; },
"HasSharedDropsites": function() { return false; },
"HasSharedLos": function() { return false; }
});
AddMock(100, IID_EntityLimits, {
"GetLimits": function() { return { "Foo": 10 }; },
"GetCounts": function() { return { "Foo": 5 }; },
"GetLimitChangers": function() {return { "Foo": {} }; }
});
AddMock(100, IID_TechnologyManager, {
"IsTechnologyResearched": tech => tech == "phase_village",
"GetQueuedResearch": () => new Map(),
"GetStartedTechs": () => new Set(),
"GetResearchedTechs": () => new Set(),
"GetClassCounts": () => ({}),
"GetTypeCountsByClass": () => ({})
});
AddMock(100, IID_StatisticsTracker, {
"GetBasicStatistics": function() {
return {
"resourcesGathered": {
"food": 100,
"wood": 0,
"metal": 0,
"stone": 0,
"vegetarianFood": 0
},
"percentMapExplored": 10
};
},
"GetSequences": function() {
return {
"unitsTrained": [0, 10],
"unitsLost": [0, 42],
"buildingsConstructed": [1, 3],
"buildingsCaptured": [3, 7],
"buildingsLost": [3, 10],
"civCentresBuilt": [4, 10],
"resourcesGathered": {
"food": [5, 100],
"wood": [0, 0],
"metal": [0, 0],
"stone": [0, 0],
"vegetarianFood": [0, 0]
},
"treasuresCollected": [1, 20],
"lootCollected": [0, 2],
"percentMapExplored": [0, 10],
"teamPercentMapExplored": [0, 10],
"percentMapControlled": [0, 10],
"teamPercentMapControlled": [0, 10],
"peakPercentOfMapControlled": [0, 10],
"teamPeakPercentOfMapControlled": [0, 10]
};
},
"IncreaseTrainedUnitsCounter": function() { return 1; },
"IncreaseConstructedBuildingsCounter": function() { return 1; },
"IncreaseBuiltCivCentresCounter": function() { return 1; }
});
AddMock(101, IID_Player, {
"GetName": function() { return "Player 2"; },
"GetCiv": function() { return "mace"; },
"GetColor": function() { return { "r": 1, "g": 0, "b": 0, "a": 1 }; },
"CanControlAllUnits": function() { return true; },
"GetPopulationCount": function() { return 40; },
"GetPopulationLimit": function() { return 30; },
"GetMaxPopulation": function() { return 300; },
"GetResourceCounts": function() { return { "food": 200 }; },
+ "GetResourceGatherers": function() { return { "food": 3 }; },
"GetPanelEntities": function() { return []; },
"IsTrainingBlocked": function() { return false; },
"GetState": function() { return "active"; },
"GetTeam": function() { return -1; },
"GetLockTeams": function() {return false; },
"GetCheatsEnabled": function() { return false; },
"GetDiplomacy": function() { return [-1, 1]; },
"IsAlly": function() { return true; },
"IsMutualAlly": function() {return false; },
"IsNeutral": function() { return false; },
"IsEnemy": function() { return false; },
"GetDisabledTemplates": function() { return {}; },
"GetDisabledTechnologies": function() { return {}; },
"CanBarter": function() { return false; },
"GetSpyCostMultiplier": function() { return 1; },
"HasSharedDropsites": function() { return false; },
"HasSharedLos": function() { return false; }
});
AddMock(101, IID_EntityLimits, {
"GetLimits": function() { return { "Bar": 20 }; },
"GetCounts": function() { return { "Bar": 0 }; },
"GetLimitChangers": function() {return { "Bar": {} }; }
});
AddMock(101, IID_TechnologyManager, {
"IsTechnologyResearched": tech => tech == "phase_village",
"GetQueuedResearch": () => new Map(),
"GetStartedTechs": () => new Set(),
"GetResearchedTechs": () => new Set(),
"GetClassCounts": () => ({}),
"GetTypeCountsByClass": () => ({})
});
AddMock(101, IID_StatisticsTracker, {
"GetBasicStatistics": function() {
return {
"resourcesGathered": {
"food": 100,
"wood": 0,
"metal": 0,
"stone": 0,
"vegetarianFood": 0
},
"percentMapExplored": 10
};
},
"GetSequences": function() {
return {
"unitsTrained": [0, 10],
"unitsLost": [0, 9],
"buildingsConstructed": [0, 5],
"buildingsCaptured": [0, 7],
"buildingsLost": [0, 4],
"civCentresBuilt": [0, 1],
"resourcesGathered": {
"food": [0, 100],
"wood": [0, 0],
"metal": [0, 0],
"stone": [0, 0],
"vegetarianFood": [0, 0]
},
"treasuresCollected": [0, 0],
"lootCollected": [0, 0],
"percentMapExplored": [0, 10],
"teamPercentMapExplored": [0, 10],
"percentMapControlled": [0, 10],
"teamPercentMapControlled": [0, 10],
"peakPercentOfMapControlled": [0, 10],
"teamPeakPercentOfMapControlled": [0, 10]
};
},
"IncreaseTrainedUnitsCounter": function() { return 1; },
"IncreaseConstructedBuildingsCounter": function() { return 1; },
"IncreaseBuiltCivCentresCounter": function() { return 1; }
});
// Note: property order matters when using TS_ASSERT_UNEVAL_EQUALS,
// because uneval preserves property order. So make sure this object
// matches the ordering in GuiInterface.
TS_ASSERT_UNEVAL_EQUALS(cmp.GetSimulationState(), {
"players": [
{
"name": "Player 1",
"civ": "gaia",
"color": { "r": 1, "g": 1, "b": 1, "a": 1 },
"controlsAll": false,
"popCount": 10,
"popLimit": 20,
"popMax": 200,
"panelEntities": [],
"resourceCounts": { "food": 100 },
+ "resourceGatherers": { "food": 1 },
"trainingBlocked": false,
"state": "active",
"team": -1,
"teamsLocked": false,
"cheatsEnabled": false,
"disabledTemplates": {},
"disabledTechnologies": {},
"hasSharedDropsites": false,
"hasSharedLos": false,
"spyCostMultiplier": 1,
"phase": "village",
"isAlly": [false, false],
"isMutualAlly": [false, false],
"isNeutral": [false, false],
"isEnemy": [true, true],
"entityLimits": { "Foo": 10 },
"entityCounts": { "Foo": 5 },
"entityLimitChangers": { "Foo": {} },
"researchQueued": new Map(),
"researchStarted": new Set(),
"researchedTechs": new Set(),
"classCounts": {},
"typeCountsByClass": {},
"canBarter": false,
"barterPrices": {
"buy": { "food": 150 },
"sell": { "food": 25 }
},
"statistics": {
"resourcesGathered": {
"food": 100,
"wood": 0,
"metal": 0,
"stone": 0,
"vegetarianFood": 0
},
"percentMapExplored": 10
}
},
{
"name": "Player 2",
"civ": "mace",
"color": { "r": 1, "g": 0, "b": 0, "a": 1 },
"controlsAll": true,
"popCount": 40,
"popLimit": 30,
"popMax": 300,
"panelEntities": [],
"resourceCounts": { "food": 200 },
+ "resourceGatherers": { "food": 3 },
"trainingBlocked": false,
"state": "active",
"team": -1,
"teamsLocked": false,
"cheatsEnabled": false,
"disabledTemplates": {},
"disabledTechnologies": {},
"hasSharedDropsites": false,
"hasSharedLos": false,
"spyCostMultiplier": 1,
"phase": "village",
"isAlly": [true, true],
"isMutualAlly": [false, false],
"isNeutral": [false, false],
"isEnemy": [false, false],
"entityLimits": { "Bar": 20 },
"entityCounts": { "Bar": 0 },
"entityLimitChangers": { "Bar": {} },
"researchQueued": new Map(),
"researchStarted": new Set(),
"researchedTechs": new Set(),
"classCounts": {},
"typeCountsByClass": {},
"canBarter": false,
"barterPrices": {
"buy": { "food": 150 },
"sell": { "food": 25 }
},
"statistics": {
"resourcesGathered": {
"food": 100,
"wood": 0,
"metal": 0,
"stone": 0,
"vegetarianFood": 0
},
"percentMapExplored": 10
}
}
],
"circularMap": false,
"timeElapsed": 0,
"victoryConditions": ["conquest", "wonder"],
"alliedVictory": false,
"maxWorldPopulation": undefined
});
TS_ASSERT_UNEVAL_EQUALS(cmp.GetExtendedSimulationState(), {
"players": [
{
"name": "Player 1",
"civ": "gaia",
"color": { "r": 1, "g": 1, "b": 1, "a": 1 },
"controlsAll": false,
"popCount": 10,
"popLimit": 20,
"popMax": 200,
"panelEntities": [],
"resourceCounts": { "food": 100 },
+ "resourceGatherers": { "food": 1 },
"trainingBlocked": false,
"state": "active",
"team": -1,
"teamsLocked": false,
"cheatsEnabled": false,
"disabledTemplates": {},
"disabledTechnologies": {},
"hasSharedDropsites": false,
"hasSharedLos": false,
"spyCostMultiplier": 1,
"phase": "village",
"isAlly": [false, false],
"isMutualAlly": [false, false],
"isNeutral": [false, false],
"isEnemy": [true, true],
"entityLimits": { "Foo": 10 },
"entityCounts": { "Foo": 5 },
"entityLimitChangers": { "Foo": {} },
"researchQueued": new Map(),
"researchStarted": new Set(),
"researchedTechs": new Set(),
"classCounts": {},
"typeCountsByClass": {},
"canBarter": false,
"barterPrices": {
"buy": { "food": 150 },
"sell": { "food": 25 }
},
"statistics": {
"resourcesGathered": {
"food": 100,
"wood": 0,
"metal": 0,
"stone": 0,
"vegetarianFood": 0
},
"percentMapExplored": 10
},
"sequences": {
"unitsTrained": [0, 10],
"unitsLost": [0, 42],
"buildingsConstructed": [1, 3],
"buildingsCaptured": [3, 7],
"buildingsLost": [3, 10],
"civCentresBuilt": [4, 10],
"resourcesGathered": {
"food": [5, 100],
"wood": [0, 0],
"metal": [0, 0],
"stone": [0, 0],
"vegetarianFood": [0, 0]
},
"treasuresCollected": [1, 20],
"lootCollected": [0, 2],
"percentMapExplored": [0, 10],
"teamPercentMapExplored": [0, 10],
"percentMapControlled": [0, 10],
"teamPercentMapControlled": [0, 10],
"peakPercentOfMapControlled": [0, 10],
"teamPeakPercentOfMapControlled": [0, 10]
}
},
{
"name": "Player 2",
"civ": "mace",
"color": { "r": 1, "g": 0, "b": 0, "a": 1 },
"controlsAll": true,
"popCount": 40,
"popLimit": 30,
"popMax": 300,
"panelEntities": [],
"resourceCounts": { "food": 200 },
+ "resourceGatherers": { "food": 3 },
"trainingBlocked": false,
"state": "active",
"team": -1,
"teamsLocked": false,
"cheatsEnabled": false,
"disabledTemplates": {},
"disabledTechnologies": {},
"hasSharedDropsites": false,
"hasSharedLos": false,
"spyCostMultiplier": 1,
"phase": "village",
"isAlly": [true, true],
"isMutualAlly": [false, false],
"isNeutral": [false, false],
"isEnemy": [false, false],
"entityLimits": { "Bar": 20 },
"entityCounts": { "Bar": 0 },
"entityLimitChangers": { "Bar": {} },
"researchQueued": new Map(),
"researchStarted": new Set(),
"researchedTechs": new Set(),
"classCounts": {},
"typeCountsByClass": {},
"canBarter": false,
"barterPrices": {
"buy": { "food": 150 },
"sell": { "food": 25 }
},
"statistics": {
"resourcesGathered": {
"food": 100,
"wood": 0,
"metal": 0,
"stone": 0,
"vegetarianFood": 0
},
"percentMapExplored": 10
},
"sequences": {
"unitsTrained": [0, 10],
"unitsLost": [0, 9],
"buildingsConstructed": [0, 5],
"buildingsCaptured": [0, 7],
"buildingsLost": [0, 4],
"civCentresBuilt": [0, 1],
"resourcesGathered": {
"food": [0, 100],
"wood": [0, 0],
"metal": [0, 0],
"stone": [0, 0],
"vegetarianFood": [0, 0]
},
"treasuresCollected": [0, 0],
"lootCollected": [0, 0],
"percentMapExplored": [0, 10],
"teamPercentMapExplored": [0, 10],
"percentMapControlled": [0, 10],
"teamPercentMapControlled": [0, 10],
"peakPercentOfMapControlled": [0, 10],
"teamPeakPercentOfMapControlled": [0, 10]
}
}
],
"circularMap": false,
"timeElapsed": 0,
"victoryConditions": ["conquest", "wonder"],
"alliedVictory": false,
"maxWorldPopulation": undefined
});
AddMock(10, IID_Builder, {
"GetEntitiesList": function() {
return ["test1", "test2"];
},
});
AddMock(10, IID_Health, {
"GetHitpoints": function() { return 50; },
"GetMaxHitpoints": function() { return 60; },
"IsRepairable": function() { return false; },
"IsUnhealable": function() { return false; }
});
AddMock(10, IID_Identity, {
"GetClassesList": function() { return ["class1", "class2"]; },
"GetRank": function() { return "foo"; },
"GetSelectionGroupName": function() { return "Selection Group Name"; },
"HasClass": function() { return true; },
"IsUndeletable": function() { return false; },
"IsControllable": function() { return true; },
"HasSomeFormation": function() { return false; },
"GetFormationsList": function() { return []; },
});
AddMock(10, IID_Position, {
"GetTurretParent": function() { return INVALID_ENTITY; },
"GetPosition": function() {
return { "x": 1, "y": 2, "z": 3 };
},
"IsInWorld": function() {
return true;
}
});
AddMock(10, IID_ResourceTrickle, {
"GetInterval": () => 1250,
"GetRates": () => ({ "food": 2, "wood": 3, "stone": 5, "metal": 9 })
});
// Note: property order matters when using TS_ASSERT_UNEVAL_EQUALS,
// because uneval preserves property order. So make sure this object
// matches the ordering in GuiInterface.
TS_ASSERT_UNEVAL_EQUALS(cmp.GetEntityState(-1, 10), {
"id": 10,
"player": INVALID_PLAYER,
"template": "example",
"identity": {
"rank": "foo",
"classes": ["class1", "class2"],
"selectionGroupName": "Selection Group Name",
"canDelete": true,
"hasSomeFormation": false,
"formations": [],
"controllable": true,
},
"position": { "x": 1, "y": 2, "z": 3 },
"hitpoints": 50,
"maxHitpoints": 60,
"needsRepair": false,
"needsHeal": true,
"builder": true,
"canGarrison": false,
"visibility": "visible",
"isBarterMarket": true,
"resourceTrickle": {
"interval": 1250,
"rates": { "food": 2, "wood": 3, "stone": 5, "metal": 9 }
}
});