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60 Commits
2.7.7 ... 2.7.8

Author SHA1 Message Date
TommyC81
4a406604bd Core modules formatting (#1670) 
* Update Fsm.lua

Code formatting and minor typo/documentation fixes.

* Update Goal.lua

Code formatting and minor typo/documentation fixes.

* Update Menu.lua

Code formatting and minor typo/documentation fixes.

* Update Message.lua

Code formatting and minor typo/documentation fixes.

* Update Report.lua

Code formatting and minor typo/documentation fixes.

* Update ScheduleDispatcher.lua

Code formatting and minor typo/documentation fixes.

* Update Scheduler.lua

Code formatting and minor typo/documentation fixes.

* Update Settings.lua

Code formatting and minor typo/documentation fixes.

* Update Spawn.lua

Code formatting and minor typo/documentation fixes.
 2021-12-20 12:59:56 +01:00
TommyC81
55cee46a8d Core code formatting and typo fixes. (#1669) 
* Update Beacon.lua

Code formatting and minor typo/text fixes.

* Update Database.lua

Code formatting and minor typo/text fixes.

* Update Event.lua

Code formatting and minor typo/text fixes.
 2021-12-19 08:47:07 +01:00
TommyC81
607c52c0b7 Update CSAR.lua (#1665) 
Code formatting and general typo/documentation fixes.
 2021-12-17 09:07:32 +01:00
TommyC81
2694321256 Update CTLD.lua (#1666) 
Code formatting. Minor typos and text fixes.
 2021-12-17 09:07:24 +01:00
TommyC81
e8e790102a Update Base.lua (#1667) 
Code Formatting. General whitespace and spelling.
 2021-12-17 09:07:13 +01:00
Applevangelist
9c5561921b Noise reducing measures 2021-12-15 13:46:07 +01:00
Applevangelist
78fab9ab0c CSAR - make beacon length configureable 2021-12-14 09:50:34 +01:00
TommyC81
058c750bc6 Update Set.lua (#1663) 
Additional minor code formatting and typo fixes.
 2021-12-13 16:52:01 +01:00
Applevangelist
f29da39dff CSAR - override suppressmessages for menu driven information 2021-12-12 19:48:36 +01:00
Applevangelist
624a7c70c9 CTLD - corrected landheight of dropped smoke 2021-12-12 19:30:33 +01:00
TommyC81
0447ee2d9e Update Airboss.lua (#1664) 
Code formatting. Typo fixing.
 2021-12-12 19:15:30 +01:00
TommyC81
456fcd38d0 Code and documentation tweaks. (#1662) 
* Update Point.lua

General code formatting.

* Update Set.lua

General code formatting.

* Update Positionable.lua

Code formatting, and documentation fixes.
 2021-12-12 13:53:04 +01:00
Applevangelist
a3cab7097a SET - Typos 2021-12-11 19:41:02 +01:00
Applevangelist
848e2f1294 SET - Added Zone Filter for STATIC 2021-12-11 14:24:20 +01:00
Applevangelist
ef4dc48ea1 CTLD - added option for smoke/flare at position 2021-12-11 14:14:44 +01:00
Applevangelist
2138a33292 CSAR fixed KM message 2021-12-10 12:02:50 +01:00
TommyC81
a59343b987 Code formatting, spelling and documentation fixes. (#1661) 
* Update Point.lua

Minor code formatting fix.

* Update Airboss.lua

Minor code formatting and documentation fixes.

* Update Set.lua

Code formatting, spelling and documentation fixes.

* Update ATIS.lua

Code formatting, spelling and documentation fixes.

* Update Task_A2A_Dispatcher.lua

Minor code formatting and documentation fixes. Added TODO re. possible unused variables.
 2021-12-09 17:51:38 +01:00
TommyC81
a4ca4bdc99 Code and documentation fixes (#1659) 
* Update .lua-format

Adjust for observed coding standards.

* Update ATIS.lua

Correct measurement units and spelling (also changed in Utils.lua).

* Update Utils.lua

Format the file, fix typos, adjust minor text. Rename "celcius" to "celsius". Rename "farenheit" to "fahrenheit".

* Update Warehouse.lua

Adjust measurement unit text.

* Update STTS.lua

Adjust formatting, minor typos, and fix error in documentation (missing blank rows) introduced in previous update.

* Update Range.lua

Adjust minor typos and code formatting. Adjust for celsius/fahrenheit typo correction.

* Update PseudoATC.lua

Adjust for celsius/fahrenheit typo correction in utils.lua.

* Update Point.lua

Code formatting, fix minor typos, adjust for celsius/fahrenheit corrrection in utils.lua.

* Update Range.lua

Minor documentation fix.
 2021-12-08 19:52:29 +01:00
TommyC81
a57b9a9081 Update Range.lua (#1658) 
Adjust some minor spelling and figure out the quirks of luadocumentor...
 2021-12-07 18:13:51 +01:00
Applevangelist
249a6af456 Some false values seem to be in need of being set explicitly 2021-12-06 15:16:01 +01:00
Applevangelist
18685d1a94 Update Utils.lua (#1655) 
Small bugfix for UTILS.LoadSetOfGroups
 2021-12-06 14:57:49 +01:00
TommyC81
493b090534 LuaFormatter, RANGE formatting, and minor code fixes. (#1653) 
* Create .lua-format

* Update Range.lua

Format code.

* Display distance in meters from bombtarget.

All other numbers, including menu lists etc. uses meters. Feet kept in parens.

* Fixed displaying of targetname when bombing.
 2021-12-06 14:57:36 +01:00
Applevangelist
389adab9b8 SET - slight change to remove function 2021-12-06 10:26:32 +01:00
TommyC81
6360b8c58f General documentation and code fixes (#1650) 
Documentation updates for correctness and clarity.
General code formatting updates.
Ajustment to POSITIONABLE:GetCoord to make use of existing POINT:UpdateFromVec3.
Added comments about clarifying the difference between POSITIONABLE:GetCoordinate() and POSITIONABLE:GetCoord() and to perhaps consider a renaming or merging the functions with an optional flag.
 2021-12-04 18:50:05 +01:00
TommyC81
b0818977cf Code formatting. (#1651) 
General code formatting and fixes of minor typos.
 2021-12-04 18:49:57 +01:00
TommyC81
32deb160ef Formatting and typos (#1652) 
* Formatting and typo fixes.

General formatting and typo fixes.

* Update STTS.lua

Keep class table on separate lines.
 2021-12-04 18:49:47 +01:00
Applevangelist
2ba5215036 Merge pull request #1649 from TommyC81/RANGE_FIXES 
Update Range.lua
 2021-12-02 19:25:42 +01:00
Tommy Carlsson
73ea4c7b32 Update Range.lua 
Fix documentation - including typos and updates to no longer correct text.
Remove duplicated RANGE.Defaults.goodthitrange value.
DCS seems to use headings 0-359 (i.e. <360), thus also deduct 360 from an exact 360 heading.
 2021-12-02 20:49:48 +04:00
Applevangelist
46c37ff06a Merge pull request #1648 from TommyC81/A2G_DISPATCHER_FIXES 
Update AI_A2G_Dispatcher.lua
 2021-12-01 11:54:56 +01:00
Tommy Carlsson
ff4708b624 Update AI_A2G_Dispatcher.lua 
General code formatting fixes, and correction of typos/examples.
 2021-12-01 13:41:27 +04:00
Applevangelist
82b2c84f13 Merge pull request #1647 from TommyC81/A2G_DISPATCHER_DOCUMENTATION_2 
Update AI_A2G_Dispatcher.lua
 2021-12-01 09:17:46 +01:00
Tommy Carlsson
48e8b1a9b3 Update AI_A2G_Dispatcher.lua 
More updates and fixes.

Update AI_A2G_Dispatcher.lua

General documentation updates.
 2021-12-01 11:34:18 +04:00
Applevangelist
1ad7c54ace Merge pull request #1645 from TommyC81/A2G_Dispatcher_documentation 
Update AI_A2G_Dispatcher.lua
 2021-11-30 17:02:40 +01:00
Tommy Carlsson
9998c86c1f Update AI_A2G_Dispatcher.lua 
Fix typos and incorrect references (leftovers) to A2A/CAP etc.
 2021-11-30 19:37:26 +04:00
Applevangelist
01a707ae0a Small changes in GROUP 2021-11-29 07:57:07 +01:00
Applevangelist
570e8388fc Bug fixes 2021-11-27 17:30:25 +01:00
Applevangelist
9c5b5d4633 CSAR - added changes by Shagrat for Casevac 
CSAR - don't make usePara default. Added coalition check if using the parachute landing event
 2021-11-14 13:34:23 +01:00
Applevangelist
822bf13626 Merge pull request #1625 from FlightControl-Master/Applevangelist-unit-1 
Wrapper Unit - fix for missile count
 2021-11-14 12:59:51 +01:00
Applevangelist
c520de0087 Wrapper Unit - fix for missile count 
Wrapper Unit - fix for missile count, issue #1624
 2021-11-14 12:57:00 +01:00
Applevangelist
0e9076efa3 SEAD - align to dev changes, allow callback on SEAD events 2021-11-11 16:02:13 +01:00
Applevangelist
74cd5e3387 MANTIS - added docu and addition os SEAD events 2021-11-11 16:02:13 +01:00
Applevangelist
65c92be09e Merge pull request #1621 from FlightControl-Master/Applevangelist-casevac 
Update CSAR.lua
 2021-11-06 15:30:15 +01:00
Applevangelist
8e776cb3ab Update CSAR.lua 
Adding CASEVAC option by Shagrat
 2021-11-06 15:29:09 +01:00
Applevangelist
ab6cd2b751 Fix cleanup exisiting crates 2021-10-31 11:51:31 +01:00
Applevangelist
18c3d990fc Merge pull request #1618 from rollnthndr/master 
Enabled SSML when using Google text-to-speech.
 2021-10-31 08:15:25 +01:00
Rolln
19d5cb8ecb Added a command line option that will enable 
SSML support when using Google text-to-speech.
 2021-10-30 23:35:27 -06:00
Applevangelist
2b56a78255 Merge pull request #1617 from Penecruz/master 
Airboss V/STOL updates
 2021-10-30 22:05:21 +02:00
Penecruz
176d9df476 Merge branch 'FlightControl-Master:master' into master 2021-10-31 06:59:50 +11:00
Penecruz
c94275cb8b Airboss V/STOL updates 
-Add additional Airboss V/STOL carrier HMAS Canberra L02
-Add Waveoff for AV-8B
-Add Cut Pass if Land without LSO clearance
-Changes to V/STOL groove timings
-Stabilise call when over the V/STOL landing spot
-larger abeam landing spot margin to allow decelerating to stable abeam and still be cleared to land
-Abeam area now extends further aft to allow LSO clearance 45-90 as per NATOPS
-Minor document changes
 2021-10-31 06:41:58 +11:00
Applevangelist
45dbce3677 Speedmax returning 0 not nil 2021-10-30 16:33:18 +02:00
Applevangelist
18745158a3 Speedmax returning 0 not nil 2021-10-30 16:33:14 +02:00
Applevangelist
98c6c88391 Completed GetSetComplement 2021-10-29 18:32:13 +02:00
Frank
2e4fd72781 Update Fox.lua 
Removed incomplete line `--@field #boolean`
 2021-10-28 10:18:43 +02:00
Applevangelist
80ced88ef1 Fix for docs build 2021-10-28 08:31:14 +02:00
Applevangelist
8af3f89c14 Adjustments for Forrestal by Pene 2021-10-24 14:35:55 +02:00
Applevangelist
fe3079caad Added Bell-47 2021-10-22 17:04:23 +02:00
Applevangelist
61ac6b4131 Added Bell-47 2021-10-22 17:04:19 +02:00
Frank
36cb189512 Merge pull request #1612 from FlightControl-Master/FF/MasterDevel 
AIRBOSS v1.2.0
 2021-10-20 19:55:19 +02:00
Frank
15f9843878 AIRBOSS v1.2.0 
- Added Forrestal carrier CV-59
 2021-10-16 12:11:34 +02:00
Frank
67f847dd16 Update Group.lua 
- Fixed SetInvisible and SetImmortal functions to acknowledge parameter false.
 2021-10-12 22:16:18 +02:00
43 changed files with 23064 additions and 22654 deletions
Expand all files Collapse all files

33
Moose Development/Moose/.lua-format Normal file
View File

@@ -0,0 +1,33 @@
# See https://github.com/Koihik/LuaFormatter
# Use '-- LuaFormatter off' and '-- LuaFormatter on' around code blocks to inhibit formatting
column_limit: 500
indent_width: 2
use_tab: false
continuation_indent_width: 2
keep_simple_control_block_one_line: false
keep_simple_function_one_line: false
align_args: true
break_after_functioncall_lp: false
break_before_functioncall_rp: false
align_parameter: true
chop_down_parameter: true
break_after_functiondef_lp: false
break_before_functiondef_rp: false
align_table_field: true
break_after_table_lb: true
break_before_table_rb: true
chop_down_table: true
chop_down_kv_table: true
column_table_limit: 500
table_sep: ','
extra_sep_at_table_end: true
break_after_operator: true
single_quote_to_double_quote: false
double_quote_to_single_quote: false
spaces_before_call: 1
spaces_inside_functiondef_parens: true
spaces_inside_functioncall_parens: true
spaces_inside_table_braces: true
spaces_around_equals_in_field: true
line_breaks_after_function_body: 1

500
Moose Development/Moose/AI/AI_A2G_Dispatcher.lua
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File diff suppressed because it is too large Load Diff

2
Moose Development/Moose/AI/AI_Air.lua
View File

@@ -585,7 +585,7 @@ function AI_AIR:onafterRTB( AIGroup, From, Event, To )
if AIGroup and AIGroup:IsAlive() then
self:I( "Group " .. AIGroup:GetName() .. " ... RTB! ( " .. self:GetState() .. " )" )
self:T( "Group " .. AIGroup:GetName() .. " ... RTB! ( " .. self:GetState() .. " )" )
self:ClearTargetDistance()
--AIGroup:ClearTasks()

719
Moose Development/Moose/Core/Base.lua
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File diff suppressed because it is too large Load Diff

303
Moose Development/Moose/Core/Beacon.lua
View File

@@ -1,9 +1,9 @@
--- **Core** - TACAN and other beacons.
--
--
-- ===
--
--
-- ## Features:
--
--
-- * Provide beacon functionality to assist pilots.
--
-- ===
@@ -14,34 +14,34 @@
-- @image Core_Radio.JPG
--- *In order for the light to shine so brightly, the darkness must be present.* -- Francis Bacon
--
--
-- After attaching a @{#BEACON} to your @{Wrapper.Positionable#POSITIONABLE}, you need to select the right function to activate the kind of beacon you want.
-- There are two types of BEACONs available : the AA TACAN Beacon and the general purpose Radio Beacon.
-- Note that in both case, you can set an optional parameter : the `BeaconDuration`. This can be very usefull to simulate the battery time if your BEACON is
-- attach to a cargo crate, for exemple.
--
-- attach to a cargo crate, for exemple.
--
-- ## AA TACAN Beacon usage
--
--
-- This beacon only works with airborne @{Wrapper.Unit#UNIT} or a @{Wrapper.Group#GROUP}. Use @{#BEACON:AATACAN}() to set the beacon parameters and start the beacon.
-- Use @#BEACON:StopAATACAN}() to stop it.
--
--
-- ## General Purpose Radio Beacon usage
--
--
-- This beacon will work with any @{Wrapper.Positionable#POSITIONABLE}, but **it won't follow the @{Wrapper.Positionable#POSITIONABLE}** ! This means that you should only use it with
-- @{Wrapper.Positionable#POSITIONABLE} that don't move, or move very slowly. Use @{#BEACON:RadioBeacon}() to set the beacon parameters and start the beacon.
-- Use @{#BEACON:StopRadioBeacon}() to stop it.
--
--
-- @type BEACON
-- @field #string ClassName Name of the class "BEACON".
-- @field Wrapper.Controllable#CONTROLLABLE Positionable The @{#CONTROLLABLE} that will receive radio capabilities.
-- @extends Core.Base#BASE
BEACON = {
ClassName = "BEACON",
ClassName = "BEACON",
Positionable = nil,
name = nil,
name = nil,
}
--- Beacon types supported by DCS.
--- Beacon types supported by DCS.
-- @type BEACON.Type
-- @field #number NULL
-- @field #number VOR
@@ -65,19 +65,19 @@ BEACON = {
-- @field #number ICLS_GLIDESLOPE
-- @field #number NAUTICAL_HOMER
BEACON.Type={
NULL = 0,
NULL = 0,
VOR = 1,
DME = 2,
VOR_DME = 3,
VOR_DME = 3,
TACAN = 4,
VORTAC = 5,
VORTAC = 5,
RSBN = 128,
BROADCAST_STATION = 1024,
BROADCAST_STATION = 1024,
HOMER = 8,
AIRPORT_HOMER = 4104,
AIRPORT_HOMER_WITH_MARKER = 4136,
AIRPORT_HOMER = 4104,
AIRPORT_HOMER_WITH_MARKER = 4136,
ILS_FAR_HOMER = 16408,
ILS_NEAR_HOMER = 16424,
ILS_NEAR_HOMER = 16424,
ILS_LOCALIZER = 16640,
ILS_GLIDESLOPE = 16896,
PRMG_LOCALIZER = 33024,
@@ -95,11 +95,11 @@ BEACON.Type={
-- @field #number TACAN TACtical Air Navigation system on ground.
-- @field #number TACAN_TANKER_X TACtical Air Navigation system for tankers on X band.
-- @field #number TACAN_TANKER_Y TACtical Air Navigation system for tankers on Y band.
-- @field #number VOR Very High Frequency Omni-Directional Range
-- @field #number VOR Very High Frequency Omnidirectional Range
-- @field #number ILS_LOCALIZER ILS localizer
-- @field #number ILS_GLIDESLOPE ILS glideslope.
-- @field #number ILS_GLIDESLOPE ILS glide slope.
-- @field #number PRGM_LOCALIZER PRGM localizer.
-- @field #number PRGM_GLIDESLOPE PRGM glideslope.
-- @field #number PRGM_GLIDESLOPE PRGM glide slope.
-- @field #number BROADCAST_STATION Broadcast station.
-- @field #number VORTAC Radio-based navigational aid for aircraft pilots consisting of a co-located VHF omnidirectional range (VOR) beacon and a tactical air navigation system (TACAN) beacon.
-- @field #number TACAN_AA_MODE_X TACtical Air Navigation for aircraft on X band.
@@ -108,13 +108,13 @@ BEACON.Type={
-- @field #number ICLS_LOCALIZER Carrier landing system.
-- @field #number ICLS_GLIDESLOPE Carrier landing system.
BEACON.System={
PAR_10 = 1,
RSBN_5 = 2,
TACAN = 3,
PAR_10 = 1,
RSBN_5 = 2,
TACAN = 3,
TACAN_TANKER_X = 4,
TACAN_TANKER_Y = 5,
VOR = 6,
ILS_LOCALIZER = 7,
VOR = 6,
ILS_LOCALIZER = 7,
ILS_GLIDESLOPE = 8,
PRMG_LOCALIZER = 9,
PRMG_GLIDESLOPE = 10,
@@ -131,28 +131,27 @@ BEACON.System={
-- If you want to create a BEACON, you probably should use @{Wrapper.Positionable#POSITIONABLE.GetBeacon}() instead.
-- @param #BEACON self
-- @param Wrapper.Positionable#POSITIONABLE Positionable The @{Positionable} that will receive radio capabilities.
-- @return #BEACON Beacon object or #nil if the positionable is invalid.
function BEACON:New(Positionable)
-- @return #BEACON Beacon object or #nil if the POSITIONABLE is invalid.
function BEACON:New( Positionable )
-- Inherit BASE.
local self=BASE:Inherit(self, BASE:New()) --#BEACON
local self = BASE:Inherit( self, BASE:New() ) -- #BEACON
-- Debug.
self:F(Positionable)
self:F( Positionable )
-- Set positionable.
if Positionable:GetPointVec2() then -- It's stupid, but the only way I found to make sure positionable is valid
if Positionable:GetPointVec2() then -- It's stupid, but the only way I found to make sure POSITIONABLE is valid
self.Positionable = Positionable
self.name=Positionable:GetName()
self:I(string.format("New BEACON %s", tostring(self.name)))
self.name = Positionable:GetName()
self:I( string.format( "New BEACON %s", tostring( self.name ) ) )
return self
end
self:E({"The passed positionable is invalid, no BEACON created", Positionable})
self:E( { "The passed POSITIONABLE is invalid, no BEACON created", Positionable } )
return nil
end
--- Activates a TACAN BEACON.
-- @param #BEACON self
-- @param #number Channel TACAN channel, i.e. the "10" part in "10Y".
@@ -162,53 +161,55 @@ end
-- @param #number Duration How long will the beacon last in seconds. Omit for forever.
-- @return #BEACON self
-- @usage
--
-- -- Let's create a TACAN Beacon for a tanker
-- local myUnit = UNIT:FindByName("MyUnit")
-- local myUnit = UNIT:FindByName("MyUnit")
-- local myBeacon = myUnit:GetBeacon() -- Creates the beacon
--
--
-- myBeacon:ActivateTACAN(20, "Y", "TEXACO", true) -- Activate the beacon
function BEACON:ActivateTACAN(Channel, Mode, Message, Bearing, Duration)
self:T({channel=Channel, mode=Mode, callsign=Message, bearing=Bearing, duration=Duration})
--
function BEACON:ActivateTACAN( Channel, Mode, Message, Bearing, Duration )
self:T( { channel = Channel, mode = Mode, callsign = Message, bearing = Bearing, duration = Duration } )
-- Get frequency.
local Frequency=UTILS.TACANToFrequency(Channel, Mode)
local Frequency = UTILS.TACANToFrequency( Channel, Mode )
-- Check.
if not Frequency then
self:E({"The passed TACAN channel is invalid, the BEACON is not emitting"})
if not Frequency then
self:E( { "The passed TACAN channel is invalid, the BEACON is not emitting" } )
return self
end
-- Beacon type.
local Type=BEACON.Type.TACAN
local Type = BEACON.Type.TACAN
-- Beacon system.
local System=BEACON.System.TACAN
local System = BEACON.System.TACAN
-- Check if unit is an aircraft and set system accordingly.
local AA=self.Positionable:IsAir()
local AA = self.Positionable:IsAir()
if AA then
System=5 --NOTE: 5 is how you cat the correct tanker behaviour! --BEACON.System.TACAN_TANKER
System = 5 -- NOTE: 5 is how you cat the correct tanker behaviour! --BEACON.System.TACAN_TANKER
-- Check if "Y" mode is selected for aircraft.
if Mode~="Y" then
self:E({"WARNING: The POSITIONABLE you want to attach the AA Tacan Beacon is an aircraft: Mode should Y !The BEACON is not emitting.", self.Positionable})
if Mode ~= "Y" then
self:E( { "WARNING: The POSITIONABLE you want to attach the AA TACAN Beacon is an aircraft: Mode should Y! The BEACON is not emitting.", self.Positionable } )
end
end
-- Attached unit.
local UnitID=self.Positionable:GetID()
local UnitID = self.Positionable:GetID()
-- Debug.
self:I({string.format("BEACON Activating TACAN %s: Channel=%d%s, Morse=%s, Bearing=%s, Duration=%s!", tostring(self.name), Channel, Mode, Message, tostring(Bearing), tostring(Duration))})
self:I( { string.format( "BEACON Activating TACAN %s: Channel=%d%s, Morse=%s, Bearing=%s, Duration=%s!", tostring( self.name ), Channel, Mode, Message, tostring( Bearing ), tostring( Duration ) ) } )
-- Start beacon.
self.Positionable:CommandActivateBeacon(Type, System, Frequency, UnitID, Channel, Mode, AA, Message, Bearing)
-- Stop sheduler.
self.Positionable:CommandActivateBeacon( Type, System, Frequency, UnitID, Channel, Mode, AA, Message, Bearing )
-- Stop scheduler.
if Duration then
self.Positionable:DeactivateBeacon(Duration)
self.Positionable:DeactivateBeacon( Duration )
end
return self
end
@@ -218,23 +219,23 @@ end
-- @param #string Callsign The Message that is going to be coded in Morse and broadcasted by the beacon.
-- @param #number Duration How long will the beacon last in seconds. Omit for forever.
-- @return #BEACON self
function BEACON:ActivateICLS(Channel, Callsign, Duration)
self:F({Channel=Channel, Callsign=Callsign, Duration=Duration})
function BEACON:ActivateICLS( Channel, Callsign, Duration )
self:F( { Channel = Channel, Callsign = Callsign, Duration = Duration } )
-- Attached unit.
local UnitID=self.Positionable:GetID()
local UnitID = self.Positionable:GetID()
-- Debug
self:T2({"ICLS BEACON started!"})
self:T2( { "ICLS BEACON started!" } )
-- Start beacon.
self.Positionable:CommandActivateICLS(Channel, UnitID, Callsign)
-- Stop sheduler
self.Positionable:CommandActivateICLS( Channel, UnitID, Callsign )
-- Stop scheduler
if Duration then -- Schedule the stop of the BEACON if asked by the MD
self.Positionable:DeactivateBeacon(Duration)
self.Positionable:DeactivateBeacon( Duration )
end
return self
end
@@ -246,27 +247,29 @@ end
-- @param #number BeaconDuration How long will the beacon last in seconds. Omit for forever.
-- @return #BEACON self
-- @usage
--
-- -- Let's create a TACAN Beacon for a tanker
-- local myUnit = UNIT:FindByName("MyUnit")
-- local myUnit = UNIT:FindByName("MyUnit")
-- local myBeacon = myUnit:GetBeacon() -- Creates the beacon
--
--
-- myBeacon:AATACAN(20, "TEXACO", true) -- Activate the beacon
function BEACON:AATACAN(TACANChannel, Message, Bearing, BeaconDuration)
self:F({TACANChannel, Message, Bearing, BeaconDuration})
--
function BEACON:AATACAN( TACANChannel, Message, Bearing, BeaconDuration )
self:F( { TACANChannel, Message, Bearing, BeaconDuration } )
local IsValid = true
if not self.Positionable:IsAir() then
self:E({"The POSITIONABLE you want to attach the AA Tacan Beacon is not an aircraft ! The BEACON is not emitting", self.Positionable})
self:E( { "The POSITIONABLE you want to attach the AA TACAN Beacon is not an aircraft! The BEACON is not emitting", self.Positionable } )
IsValid = false
end
local Frequency = self:_TACANToFrequency(TACANChannel, "Y")
if not Frequency then
self:E({"The passed TACAN channel is invalid, the BEACON is not emitting"})
local Frequency = self:_TACANToFrequency( TACANChannel, "Y" )
if not Frequency then
self:E( { "The passed TACAN channel is invalid, the BEACON is not emitting" } )
IsValid = false
end
-- I'm using the beacon type 4 (BEACON_TYPE_TACAN). For System, I'm using 5 (TACAN_TANKER_MODE_Y) if the bearing shows its bearing
-- or 14 (TACAN_AA_MODE_Y) if it does not
local System
@@ -275,27 +278,26 @@ function BEACON:AATACAN(TACANChannel, Message, Bearing, BeaconDuration)
else
System = 14
end
if IsValid then -- Starts the BEACON
self:T2({"AA TACAN BEACON started !"})
self.Positionable:SetCommand({
self:T2( { "AA TACAN BEACON started !" } )
self.Positionable:SetCommand( {
id = "ActivateBeacon",
params = {
type = 4,
system = System,
callsign = Message,
frequency = Frequency,
}
})
},
} )
if BeaconDuration then -- Schedule the stop of the BEACON if asked by the MD
SCHEDULER:New(nil,
function()
SCHEDULER:New( nil, function()
self:StopAATACAN()
end, {}, BeaconDuration)
end, {}, BeaconDuration )
end
end
return self
end
@@ -305,21 +307,19 @@ end
function BEACON:StopAATACAN()
self:F()
if not self.Positionable then
self:E({"Start the beacon first before stoping it !"})
self:E( { "Start the beacon first before stopping it!" } )
else
self.Positionable:SetCommand({
id = 'DeactivateBeacon',
params = {
}
})
self.Positionable:SetCommand( {
id = 'DeactivateBeacon',
params = {},
} )
end
end
--- Activates a general pupose Radio Beacon
--- Activates a general purpose Radio Beacon
-- This uses the very generic singleton function "trigger.action.radioTransmission()" provided by DCS to broadcast a sound file on a specific frequency.
-- Although any frequency could be used, only 2 DCS Modules can home on radio beacons at the time of writing : the Huey and the Mi-8.
-- They can home in on these specific frequencies :
-- They can home in on these specific frequencies :
-- * **Mi8**
-- * R-828 -> 20-60MHz
-- * ARKUD -> 100-150MHz (canal 1 : 114166, canal 2 : 114333, canal 3 : 114583, canal 4 : 121500, canal 5 : 123100, canal 6 : 124100) AM
@@ -342,55 +342,54 @@ end
--
-- -- Set the beacon and start it
-- UnitBeacon:RadioBeacon("MySoundFileSOS.ogg", 40, radio.modulation.FM, 20, 5*60)
function BEACON:RadioBeacon(FileName, Frequency, Modulation, Power, BeaconDuration)
self:F({FileName, Frequency, Modulation, Power, BeaconDuration})
function BEACON:RadioBeacon( FileName, Frequency, Modulation, Power, BeaconDuration )
self:F( { FileName, Frequency, Modulation, Power, BeaconDuration } )
local IsValid = false
-- Check the filename
if type(FileName) == "string" then
if FileName:find(".ogg") or FileName:find(".wav") then
if not FileName:find("l10n/DEFAULT/") then
if type( FileName ) == "string" then
if FileName:find( ".ogg" ) or FileName:find( ".wav" ) then
if not FileName:find( "l10n/DEFAULT/" ) then
FileName = "l10n/DEFAULT/" .. FileName
end
IsValid = true
end
end
if not IsValid then
self:E({"File name invalid. Maybe something wrong with the extension ? ", FileName})
self:E( { "File name invalid. Maybe something wrong with the extension? ", FileName } )
end
-- Check the Frequency
if type(Frequency) ~= "number" and IsValid then
self:E({"Frequency invalid. ", Frequency})
if type( Frequency ) ~= "number" and IsValid then
self:E( { "Frequency invalid. ", Frequency } )
IsValid = false
end
Frequency = Frequency * 1000000 -- Conversion to Hz
-- Check the modulation
if Modulation ~= radio.modulation.AM and Modulation ~= radio.modulation.FM and IsValid then --TODO Maybe make this future proof if ED decides to add an other modulation ?
self:E({"Modulation is invalid. Use DCS's enum radio.modulation.", Modulation})
if Modulation ~= radio.modulation.AM and Modulation ~= radio.modulation.FM and IsValid then -- TODO: Maybe make this future proof if ED decides to add an other modulation ?
self:E( { "Modulation is invalid. Use DCS's enum radio.modulation.", Modulation } )
IsValid = false
end
-- Check the Power
if type(Power) ~= "number" and IsValid then
self:E({"Power is invalid. ", Power})
if type( Power ) ~= "number" and IsValid then
self:E( { "Power is invalid. ", Power } )
IsValid = false
end
Power = math.floor(math.abs(Power)) --TODO Find what is the maximum power allowed by DCS and limit power to that
Power = math.floor( math.abs( Power ) ) -- TODO: Find what is the maximum power allowed by DCS and limit power to that
if IsValid then
self:T2({"Activating Beacon on ", Frequency, Modulation})
self:T2( { "Activating Beacon on ", Frequency, Modulation } )
-- Note that this is looped. I have to give this transmission a unique name, I use the class ID
trigger.action.radioTransmission(FileName, self.Positionable:GetPositionVec3(), Modulation, true, Frequency, Power, tostring(self.ID))
if BeaconDuration then -- Schedule the stop of the BEACON if asked by the MD
SCHEDULER:New( nil,
function()
self:StopRadioBeacon()
end, {}, BeaconDuration)
end
end
trigger.action.radioTransmission( FileName, self.Positionable:GetPositionVec3(), Modulation, true, Frequency, Power, tostring( self.ID ) )
if BeaconDuration then -- Schedule the stop of the BEACON if asked by the MD
SCHEDULER:New( nil, function()
self:StopRadioBeacon()
end, {}, BeaconDuration )
end
end
end
--- Stops the AA TACAN BEACON
@@ -399,7 +398,7 @@ end
function BEACON:StopRadioBeacon()
self:F()
-- The unique name of the transmission is the class ID
trigger.action.stopRadioTransmission(tostring(self.ID))
trigger.action.stopRadioTransmission( tostring( self.ID ) )
return self
end
@@ -407,26 +406,26 @@ end
-- @param #BEACON self
-- @param #number TACANChannel
-- @param #string TACANMode
-- @return #number Frequecy
-- @return #number Frequency
-- @return #nil if parameters are invalid
function BEACON:_TACANToFrequency(TACANChannel, TACANMode)
self:F3({TACANChannel, TACANMode})
function BEACON:_TACANToFrequency( TACANChannel, TACANMode )
self:F3( { TACANChannel, TACANMode } )
if type(TACANChannel) ~= "number" then
if type( TACANChannel ) ~= "number" then
if TACANMode ~= "X" and TACANMode ~= "Y" then
return nil -- error in arguments
end
end
-- This code is largely based on ED's code, in DCS World\Scripts\World\Radio\BeaconTypes.lua, line 137.
-- I have no idea what it does but it seems to work
-- This code is largely based on ED's code, in DCS World\Scripts\World\Radio\BeaconTypes.lua, line 137.
-- I have no idea what it does but it seems to work
local A = 1151 -- 'X', channel >= 64
local B = 64 -- channel >= 64
local B = 64 -- channel >= 64
if TACANChannel < 64 then
B = 1
end
if TACANMode == 'Y' then
A = 1025
if TACANChannel < 64 then
@@ -437,6 +436,6 @@ function BEACON:_TACANToFrequency(TACANChannel, TACANMode)
A = 962
end
end
return (A + TACANChannel - B) * 1000000
end
end

714
Moose Development/Moose/Core/Database.lua
View File

File diff suppressed because it is too large Load Diff

189
Moose Development/Moose/Core/Event.lua
View File

@@ -14,7 +14,7 @@
-- ![Objects](..\Presentations\EVENT\Dia2.JPG)
--
-- Within a running mission, various DCS events occur. Units are dynamically created, crash, die, shoot stuff, get hit etc.
-- This module provides a mechanism to dispatch those events occuring within your running mission, to the different objects orchestrating your mission.
-- This module provides a mechanism to dispatch those events occurring within your running mission, to the different objects orchestrating your mission.
--
-- ![Objects](..\Presentations\EVENT\Dia3.JPG)
--
@@ -141,7 +141,6 @@
-- EventData.IniUnit:SmokeGreen()
-- end
--
--
-- Find below an overview which events populate which information categories:
--
-- ![Objects](..\Presentations\EVENT\Dia14.JPG)
@@ -172,7 +171,6 @@
-- @module Core.Event
-- @image Core_Event.JPG
--- @type EVENT
-- @field #EVENT.Events Events
-- @extends Core.Base#BASE
@@ -194,7 +192,6 @@ world.event.S_EVENT_DELETE_ZONE_GOAL = world.event.S_EVENT_MAX + 1005
world.event.S_EVENT_REMOVE_UNIT = world.event.S_EVENT_MAX + 1006
world.event.S_EVENT_PLAYER_ENTER_AIRCRAFT = world.event.S_EVENT_MAX + 1007
--- The different types of events supported by MOOSE.
-- Use this structure to subscribe to events using the @{Core.Base#BASE.HandleEvent}() method.
-- @type EVENTS
@@ -227,13 +224,13 @@ EVENTS = {
MarkChange = world.event.S_EVENT_MARK_CHANGE,
MarkRemoved = world.event.S_EVENT_MARK_REMOVED,
-- Moose Events
NewCargo = world.event.S_EVENT_NEW_CARGO,
DeleteCargo = world.event.S_EVENT_DELETE_CARGO,
NewZone = world.event.S_EVENT_NEW_ZONE,
DeleteZone = world.event.S_EVENT_DELETE_ZONE,
NewZoneGoal = world.event.S_EVENT_NEW_ZONE_GOAL,
DeleteZoneGoal = world.event.S_EVENT_DELETE_ZONE_GOAL,
RemoveUnit = world.event.S_EVENT_REMOVE_UNIT,
NewCargo = world.event.S_EVENT_NEW_CARGO,
DeleteCargo = world.event.S_EVENT_DELETE_CARGO,
NewZone = world.event.S_EVENT_NEW_ZONE,
DeleteZone = world.event.S_EVENT_DELETE_ZONE,
NewZoneGoal = world.event.S_EVENT_NEW_ZONE_GOAL,
DeleteZoneGoal = world.event.S_EVENT_DELETE_ZONE_GOAL,
RemoveUnit = world.event.S_EVENT_REMOVE_UNIT,
PlayerEnterAircraft = world.event.S_EVENT_PLAYER_ENTER_AIRCRAFT,
-- Added with DCS 2.5.6
DetailedFailure = world.event.S_EVENT_DETAILED_FAILURE or -1, --We set this to -1 for backward compatibility to DCS 2.5.5 and earlier
@@ -304,8 +301,6 @@ EVENTS = {
-- @field Core.ZONE#ZONE Zone The zone object.
-- @field #string ZoneName The name of the zone.
local _EVENTMETA = {
[world.event.S_EVENT_SHOT] = {
Order = 1,
@@ -562,7 +557,6 @@ local _EVENTMETA = {
},
}
--- The Events structure
-- @type EVENT.Events
-- @field #number IniUnit
@@ -576,12 +570,11 @@ function EVENT:New()
local self = BASE:Inherit( self, BASE:New() )
-- Add world event handler.
self.EventHandler = world.addEventHandler(self)
self.EventHandler = world.addEventHandler( self )
return self
end
--- Initializes the Events structure for the event.
-- @param #EVENT self
-- @param DCS#world.event EventID Event ID.
@@ -595,7 +588,7 @@ function EVENT:Init( EventID, EventClass )
self.Events[EventID] = {}
end
-- Each event has a subtable of EventClasses, ordered by EventPriority.
-- Each event has a sub-table of EventClasses, ordered by EventPriority.
local EventPriority = EventClass:GetEventPriority()
if not self.Events[EventID][EventPriority] then
@@ -603,7 +596,7 @@ function EVENT:Init( EventID, EventClass )
end
if not self.Events[EventID][EventPriority][EventClass] then
self.Events[EventID][EventPriority][EventClass] = {}
self.Events[EventID][EventPriority][EventClass] = {}
end
return self.Events[EventID][EventPriority][EventClass]
@@ -614,7 +607,7 @@ end
-- @param Core.Base#BASE EventClass The self instance of the class for which the event is.
-- @param DCS#world.event EventID Event ID.
-- @return #EVENT self
function EVENT:RemoveEvent( EventClass, EventID )
function EVENT:RemoveEvent( EventClass, EventID )
-- Debug info.
self:F2( { "Removing subscription for class: ", EventClass:GetClassNameAndID() } )
@@ -638,7 +631,7 @@ end
-- @param Core.Base#BASE EventClass The self instance of the class for which the event is.
-- @param DCS#world.event EventID Event ID.
-- @return #EVENT.Events
function EVENT:Reset( EventObject ) --R2.1
function EVENT:Reset( EventObject ) -- R2.1
self:F( { "Resetting subscriptions for class: ", EventObject:GetClassNameAndID() } )
@@ -657,12 +650,11 @@ function EVENT:Reset( EventObject ) --R2.1
end
end
--- Clears all event subscriptions for a @{Core.Base#BASE} derived object.
-- @param #EVENT self
-- @param Core.Base#BASE EventClass The self class object for which the events are removed.
-- @return #EVENT self
function EVENT:RemoveAll(EventClass)
function EVENT:RemoveAll( EventClass )
local EventClassName = EventClass:GetClassNameAndID()
@@ -676,8 +668,6 @@ function EVENT:RemoveAll(EventClass)
return self
end
--- Create an OnDead event handler for a group
-- @param #EVENT self
-- @param #table EventTemplate
@@ -709,7 +699,6 @@ function EVENT:OnEventGeneric( EventFunction, EventClass, EventID )
return self
end
--- Set a new listener for an `S_EVENT_X` event for a UNIT.
-- @param #EVENT self
-- @param #string UnitName The name of the UNIT.
@@ -797,7 +786,6 @@ do -- OnDead
end
do -- OnLand
--- Create an OnLand event handler for a group
@@ -864,7 +852,7 @@ do -- Event Creation
id = EVENTS.NewCargo,
time = timer.getTime(),
cargo = Cargo,
}
}
world.onEvent( Event )
end
@@ -879,7 +867,7 @@ do -- Event Creation
id = EVENTS.DeleteCargo,
time = timer.getTime(),
cargo = Cargo,
}
}
world.onEvent( Event )
end
@@ -894,7 +882,7 @@ do -- Event Creation
id = EVENTS.NewZone,
time = timer.getTime(),
zone = Zone,
}
}
world.onEvent( Event )
end
@@ -909,7 +897,7 @@ do -- Event Creation
id = EVENTS.DeleteZone,
time = timer.getTime(),
zone = Zone,
}
}
world.onEvent( Event )
end
@@ -924,12 +912,11 @@ do -- Event Creation
id = EVENTS.NewZoneGoal,
time = timer.getTime(),
ZoneGoal = ZoneGoal,
}
}
world.onEvent( Event )
end
--- Creation of a ZoneGoal Deletion Event.
-- @param #EVENT self
-- @param Core.ZoneGoal#ZONE_GOAL ZoneGoal The ZoneGoal created.
@@ -940,12 +927,11 @@ do -- Event Creation
id = EVENTS.DeleteZoneGoal,
time = timer.getTime(),
ZoneGoal = ZoneGoal,
}
}
world.onEvent( Event )
end
--- Creation of a S_EVENT_PLAYER_ENTER_UNIT Event.
-- @param #EVENT self
-- @param Wrapper.Unit#UNIT PlayerUnit.
@@ -955,8 +941,8 @@ do -- Event Creation
local Event = {
id = EVENTS.PlayerEnterUnit,
time = timer.getTime(),
initiator = PlayerUnit:GetDCSObject()
}
initiator = PlayerUnit:GetDCSObject(),
}
world.onEvent( Event )
end
@@ -970,8 +956,8 @@ do -- Event Creation
local Event = {
id = EVENTS.PlayerEnterAircraft,
time = timer.getTime(),
initiator = PlayerUnit:GetDCSObject()
}
initiator = PlayerUnit:GetDCSObject(),
}
world.onEvent( Event )
end
@@ -993,14 +979,13 @@ function EVENT:onEvent( Event )
return errmsg
end
-- Get event meta data.
local EventMeta = _EVENTMETA[Event.id]
-- Check if this is a known event?
if EventMeta then
if self and self.Events and self.Events[Event.id] and self.MissionEnd==false and (Event.initiator~=nil or (Event.initiator==nil and Event.id~=EVENTS.PlayerLeaveUnit)) then
if self and self.Events and self.Events[Event.id] and self.MissionEnd == false and (Event.initiator ~= nil or (Event.initiator == nil and Event.id ~= EVENTS.PlayerLeaveUnit)) then
if Event.id and Event.id == EVENTS.MissionEnd then
self.MissionEnd = true
@@ -1024,9 +1009,9 @@ function EVENT:onEvent( Event )
if Event.IniDCSGroup and Event.IniDCSGroup:isExist() then
Event.IniDCSGroupName = Event.IniDCSGroup:getName()
Event.IniGroup = GROUP:FindByName( Event.IniDCSGroupName )
--if Event.IniGroup then
Event.IniGroupName = Event.IniDCSGroupName
--end
-- if Event.IniGroup then
Event.IniGroupName = Event.IniDCSGroupName
-- end
end
Event.IniPlayerName = Event.IniDCSUnit:getPlayerName()
Event.IniCoalition = Event.IniDCSUnit:getCoalition()
@@ -1036,23 +1021,23 @@ function EVENT:onEvent( Event )
if Event.IniObjectCategory == Object.Category.STATIC then
if Event.id==31 then
if Event.id == 31 then
-- Event.initiator is a Static object representing the pilot. But getName() errors due to DCS bug.
Event.IniDCSUnit = Event.initiator
local ID=Event.initiator.id_
Event.IniDCSUnitName = string.format("Ejected Pilot ID %s", tostring(ID))
local ID = Event.initiator.id_
Event.IniDCSUnitName = string.format( "Ejected Pilot ID %s", tostring( ID ) )
Event.IniUnitName = Event.IniDCSUnitName
Event.IniCoalition = 0
Event.IniCategory = 0
Event.IniCategory = 0
Event.IniTypeName = "Ejected Pilot"
elseif Event.id == 33 then -- ejection seat discarded
elseif Event.id == 33 then -- ejection seat discarded
Event.IniDCSUnit = Event.initiator
local ID=Event.initiator.id_
Event.IniDCSUnitName = string.format("Ejection Seat ID %s", tostring(ID))
local ID = Event.initiator.id_
Event.IniDCSUnitName = string.format( "Ejection Seat ID %s", tostring( ID ) )
Event.IniUnitName = Event.IniDCSUnitName
Event.IniCoalition = 0
Event.IniCategory = 0
Event.IniCategory = 0
Event.IniTypeName = "Ejection Seat"
else
Event.IniDCSUnit = Event.initiator
@@ -1088,7 +1073,7 @@ function EVENT:onEvent( Event )
Event.IniDCSUnit = Event.initiator
Event.IniDCSUnitName = Event.IniDCSUnit:getName()
Event.IniUnitName = Event.IniDCSUnitName
Event.IniUnit = AIRBASE:FindByName(Event.IniDCSUnitName)
Event.IniUnit = AIRBASE:FindByName( Event.IniDCSUnitName )
Event.IniCoalition = Event.IniDCSUnit:getCoalition()
Event.IniCategory = Event.IniDCSUnit:getDesc().category
Event.IniTypeName = Event.IniDCSUnit:getTypeName()
@@ -1109,9 +1094,9 @@ function EVENT:onEvent( Event )
if Event.TgtDCSGroup and Event.TgtDCSGroup:isExist() then
Event.TgtDCSGroupName = Event.TgtDCSGroup:getName()
Event.TgtGroup = GROUP:FindByName( Event.TgtDCSGroupName )
--if Event.TgtGroup then
Event.TgtGroupName = Event.TgtDCSGroupName
--end
-- if Event.TgtGroup then
Event.TgtGroupName = Event.TgtDCSGroupName
-- end
end
Event.TgtPlayerName = Event.TgtDCSUnit:getPlayerName()
Event.TgtCoalition = Event.TgtDCSUnit:getCoalition()
@@ -1130,18 +1115,18 @@ function EVENT:onEvent( Event )
Event.TgtCategory = Event.TgtDCSUnit:getDesc().category
Event.TgtTypeName = Event.TgtDCSUnit:getTypeName()
else
Event.TgtDCSUnitName = string.format("No target object for Event ID %s", tostring(Event.id))
Event.TgtDCSUnitName = string.format( "No target object for Event ID %s", tostring( Event.id ) )
Event.TgtUnitName = Event.TgtDCSUnitName
Event.TgtUnit = nil
Event.TgtCoalition = 0
Event.TgtCategory = 0
if Event.id == 6 then
Event.TgtTypeName = "Ejected Pilot"
Event.TgtDCSUnitName = string.format("Ejected Pilot ID %s", tostring(Event.IniDCSUnitName))
Event.TgtDCSUnitName = string.format( "Ejected Pilot ID %s", tostring( Event.IniDCSUnitName ) )
Event.TgtUnitName = Event.TgtDCSUnitName
elseif Event.id == 33 then
Event.TgtTypeName = "Ejection Seat"
Event.TgtDCSUnitName = string.format("Ejection Seat ID %s", tostring(Event.IniDCSUnitName))
Event.TgtDCSUnitName = string.format( "Ejection Seat ID %s", tostring( Event.IniDCSUnitName ) )
Event.TgtUnitName = Event.TgtDCSUnitName
else
Event.TgtTypeName = "Static"
@@ -1167,29 +1152,29 @@ function EVENT:onEvent( Event )
Event.WeaponCoalition = Event.WeaponUNIT and Event.Weapon:getCoalition()
Event.WeaponCategory = Event.WeaponUNIT and Event.Weapon:getDesc().category
Event.WeaponTypeName = Event.WeaponUNIT and Event.Weapon:getTypeName()
--Event.WeaponTgtDCSUnit = Event.Weapon:getTarget()
-- Event.WeaponTgtDCSUnit = Event.Weapon:getTarget()
end
-- Place should be given for takeoff and landing events as well as base captured. It should be a DCS airbase.
if Event.place then
if Event.id==EVENTS.LandingAfterEjection then
if Event.id == EVENTS.LandingAfterEjection then
-- Place is here the UNIT of which the pilot ejected.
--local name=Event.place:getName() -- This returns a DCS error "Airbase doesn't exit" :(
-- local name=Event.place:getName() -- This returns a DCS error "Airbase doesn't exit" :(
-- However, this is not a big thing, as the aircraft the pilot ejected from is usually long crashed before the ejected pilot touches the ground.
--Event.Place=UNIT:Find(Event.place)
-- Event.Place=UNIT:Find(Event.place)
else
Event.Place=AIRBASE:Find(Event.place)
Event.PlaceName=Event.Place:GetName()
Event.Place = AIRBASE:Find( Event.place )
Event.PlaceName = Event.Place:GetName()
end
end
-- Mark points.
if Event.idx then
Event.MarkID=Event.idx
Event.MarkVec3=Event.pos
Event.MarkCoordinate=COORDINATE:NewFromVec3(Event.pos)
Event.MarkText=Event.text
Event.MarkCoalition=Event.coalition
Event.MarkID = Event.idx
Event.MarkVec3 = Event.pos
Event.MarkCoordinate = COORDINATE:NewFromVec3( Event.pos )
Event.MarkText = Event.text
Event.MarkCoalition = Event.coalition
Event.MarkGroupID = Event.groupID
end
@@ -1218,9 +1203,9 @@ function EVENT:onEvent( Event )
-- Okay, we got the event from DCS. Now loop the SORTED self.EventSorted[] table for the received Event.id, and for each EventData registered, check if a function needs to be called.
for EventClass, EventData in pairs( self.Events[Event.id][EventPriority] ) do
--if Event.IniObjectCategory ~= Object.Category.STATIC then
-- if Event.IniObjectCategory ~= Object.Category.STATIC then
-- self:E( { "Evaluating: ", EventClass:GetClassNameAndID() } )
--end
-- end
Event.IniGroup = GROUP:FindByName( Event.IniDCSGroupName )
Event.TgtGroup = GROUP:FindByName( Event.TgtDCSGroupName )
@@ -1237,8 +1222,8 @@ function EVENT:onEvent( Event )
local UnitName = EventClass:GetName()
if ( EventMeta.Side == "I" and UnitName == Event.IniDCSUnitName ) or
( EventMeta.Side == "T" and UnitName == Event.TgtDCSUnitName ) then
if (EventMeta.Side == "I" and UnitName == Event.IniDCSUnitName) or
(EventMeta.Side == "T" and UnitName == Event.TgtDCSUnitName) then
-- First test if a EventFunction is Set, otherwise search for the default function
if EventData.EventFunction then
@@ -1247,15 +1232,14 @@ function EVENT:onEvent( Event )
self:F( { "Calling EventFunction for UNIT ", EventClass:GetClassNameAndID(), ", Unit ", Event.IniUnitName, EventPriority } )
end
local Result, Value = xpcall(
function()
return EventData.EventFunction( EventClass, Event )
end, ErrorHandler )
local Result, Value = xpcall( function()
return EventData.EventFunction( EventClass, Event )
end, ErrorHandler )
else
-- There is no EventFunction defined, so try to find if a default OnEvent function is defined on the object.
local EventFunction = EventClass[ EventMeta.Event ]
local EventFunction = EventClass[EventMeta.Event]
if EventFunction and type( EventFunction ) == "function" then
-- Now call the default event function.
@@ -1263,10 +1247,9 @@ function EVENT:onEvent( Event )
self:F( { "Calling " .. EventMeta.Event .. " for Class ", EventClass:GetClassNameAndID(), EventPriority } )
end
local Result, Value = xpcall(
function()
return EventFunction( EventClass, Event )
end, ErrorHandler )
local Result, Value = xpcall( function()
return EventFunction( EventClass, Event )
end, ErrorHandler )
end
end
end
@@ -1290,8 +1273,8 @@ function EVENT:onEvent( Event )
-- We can get the name of the EventClass, which is now always a GROUP object.
local GroupName = EventClass:GetName()
if ( EventMeta.Side == "I" and GroupName == Event.IniDCSGroupName ) or
( EventMeta.Side == "T" and GroupName == Event.TgtDCSGroupName ) then
if (EventMeta.Side == "I" and GroupName == Event.IniDCSGroupName) or
(EventMeta.Side == "T" and GroupName == Event.TgtDCSGroupName) then
-- First test if a EventFunction is Set, otherwise search for the default function
if EventData.EventFunction then
@@ -1300,15 +1283,14 @@ function EVENT:onEvent( Event )
self:F( { "Calling EventFunction for GROUP ", EventClass:GetClassNameAndID(), ", Unit ", Event.IniUnitName, EventPriority } )
end
local Result, Value = xpcall(
function()
return EventData.EventFunction( EventClass, Event, unpack( EventData.Params ) )
end, ErrorHandler )
local Result, Value = xpcall( function()
return EventData.EventFunction( EventClass, Event, unpack( EventData.Params ) )
end, ErrorHandler )
else
-- There is no EventFunction defined, so try to find if a default OnEvent function is defined on the object.
local EventFunction = EventClass[ EventMeta.Event ]
local EventFunction = EventClass[EventMeta.Event]
if EventFunction and type( EventFunction ) == "function" then
-- Now call the default event function.
@@ -1316,16 +1298,15 @@ function EVENT:onEvent( Event )
self:F( { "Calling " .. EventMeta.Event .. " for GROUP ", EventClass:GetClassNameAndID(), EventPriority } )
end
local Result, Value = xpcall(
function()
return EventFunction( EventClass, Event, unpack( EventData.Params ) )
end, ErrorHandler )
local Result, Value = xpcall( function()
return EventFunction( EventClass, Event, unpack( EventData.Params ) )
end, ErrorHandler )
end
end
end
else
-- The EventClass is not alive anymore, we remove it from the EventHandlers...
--self:RemoveEvent( EventClass, Event.id )
-- self:RemoveEvent( EventClass, Event.id )
end
else
@@ -1340,14 +1321,13 @@ function EVENT:onEvent( Event )
if Event.IniObjectCategory ~= 3 then
self:F2( { "Calling EventFunction for Class ", EventClass:GetClassNameAndID(), EventPriority } )
end
local Result, Value = xpcall(
function()
return EventData.EventFunction( EventClass, Event )
end, ErrorHandler )
local Result, Value = xpcall( function()
return EventData.EventFunction( EventClass, Event )
end, ErrorHandler )
else
-- There is no EventFunction defined, so try to find if a default OnEvent function is defined on the object.
local EventFunction = EventClass[ EventMeta.Event ]
local EventFunction = EventClass[EventMeta.Event]
if EventFunction and type( EventFunction ) == "function" then
-- Now call the default event function.
@@ -1355,11 +1335,10 @@ function EVENT:onEvent( Event )
self:F2( { "Calling " .. EventMeta.Event .. " for Class ", EventClass:GetClassNameAndID(), EventPriority } )
end
local Result, Value = xpcall(
function()
local Result, Value = EventFunction( EventClass, Event )
return Result, Value
end, ErrorHandler )
local Result, Value = xpcall( function()
local Result, Value = EventFunction( EventClass, Event )
return Result, Value
end, ErrorHandler )
end
end
@@ -1383,7 +1362,7 @@ function EVENT:onEvent( Event )
self:T( { EventMeta.Text, Event } )
end
else
self:E(string.format("WARNING: Could not get EVENTMETA data for event ID=%d! Is this an unknown/new DCS event?", tostring(Event.id)))
self:E( string.format( "WARNING: Could not get EVENTMETA data for event ID=%d! Is this an unknown/new DCS event?", tostring( Event.id ) ) )
end
Event = nil

905
Moose Development/Moose/Core/Fsm.lua
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File diff suppressed because it is too large Load Diff

89
Moose Development/Moose/Core/Goal.lua
View File

@@ -1,89 +1,87 @@
--- **Core** - Models the process to achieve goal(s).
--
-- ===
--
--
-- ## Features:
--
--
-- * Define the goal.
-- * Monitor the goal achievement.
-- * Manage goal contribution by players.
--
--
-- ===
--
--
-- Classes that implement a goal achievement, will derive from GOAL to implement the ways how the achievements can be realized.
--
--
-- ===
--
--
-- ### Author: **FlightControl**
-- ### Contributions: **funkyfranky**
--
--
-- ===
--
--
-- @module Core.Goal
-- @image Core_Goal.JPG
do -- Goal
--- @type GOAL
-- @extends Core.Fsm#FSM
--- Models processes that have an objective with a defined achievement. Derived classes implement the ways how the achievements can be realized.
--
--
-- # 1. GOAL constructor
--
--
-- * @{#GOAL.New}(): Creates a new GOAL object.
--
--
-- # 2. GOAL is a finite state machine (FSM).
--
--
-- ## 2.1. GOAL States
--
--
-- * **Pending**: The goal object is in progress.
-- * **Achieved**: The goal objective is Achieved.
--
--
-- ## 2.2. GOAL Events
--
--
-- * **Achieved**: Set the goal objective to Achieved.
--
--
-- # 3. Player contributions.
--
--
-- Goals are most of the time achieved by players. These player achievements can be registered as part of the goal achievement.
-- Use @{#GOAL.AddPlayerContribution}() to add a player contribution to the goal.
-- The player contributions are based on a points system, an internal counter per player.
-- So once the goal has been achieved, the player contributions can be queried using @{#GOAL.GetPlayerContributions}(),
-- So once the goal has been achieved, the player contributions can be queried using @{#GOAL.GetPlayerContributions}(),
-- that retrieves all contributions done by the players. For one player, the contribution can be queried using @{#GOAL.GetPlayerContribution}().
-- The total amount of player contributions can be queried using @{#GOAL.GetTotalContributions}().
--
--
-- # 4. Goal achievement.
--
--
-- Once the goal is achieved, the mission designer will need to trigger the goal achievement using the **Achieved** event.
-- The underlying 2 examples will achieve the goals for the `Goal` object:
--
--
-- Goal:Achieved() -- Achieve the goal immediately.
-- Goal:__Achieved( 30 ) -- Achieve the goal within 30 seconds.
--
--
-- # 5. Check goal achievement.
--
--
-- The method @{#GOAL.IsAchieved}() will return true if the goal is achieved (the trigger **Achieved** was executed).
-- You can use this method to check asynchronously if a goal has been achieved, for example using a scheduler.
--
--
-- @field #GOAL
GOAL = {
ClassName = "GOAL",
}
--- @field #table GOAL.Players
GOAL.Players = {}
--- @field #number GOAL.TotalContributions
GOAL.TotalContributions = 0
--- GOAL Constructor.
-- @param #GOAL self
-- @return #GOAL
function GOAL:New()
local self = BASE:Inherit( self, FSM:New() ) -- #GOAL
self:F( {} )
@@ -104,11 +102,10 @@ do -- Goal
-- @param #string From
-- @param #string Event
-- @param #string To
self:SetStartState( "Pending" )
self:AddTransition( "*", "Achieved", "Achieved" )
self:AddTransition( "*", "Achieved", "Achieved" )
--- Achieved Handler OnBefore for GOAL
-- @function [parent=#GOAL] OnBeforeAchieved
-- @param #GOAL self
@@ -116,47 +113,44 @@ do -- Goal
-- @param #string Event
-- @param #string To
-- @return #boolean
--- Achieved Handler OnAfter for GOAL
-- @function [parent=#GOAL] OnAfterAchieved
-- @param #GOAL self
-- @param #string From
-- @param #string Event
-- @param #string To
--- Achieved Trigger for GOAL
-- @function [parent=#GOAL] Achieved
-- @param #GOAL self
--- Achieved Asynchronous Trigger for GOAL
-- @function [parent=#GOAL] __Achieved
-- @param #GOAL self
-- @param #number Delay
self:SetEventPriority( 5 )
return self
end
--- Add a new contribution by a player.
-- @param #GOAL self
-- @param #string PlayerName The name of the player.
function GOAL:AddPlayerContribution( PlayerName )
self:F({PlayerName})
self:F( { PlayerName } )
self.Players[PlayerName] = self.Players[PlayerName] or 0
self.Players[PlayerName] = self.Players[PlayerName] + 1
self.TotalContributions = self.TotalContributions + 1
end
--- @param #GOAL self
-- @param #number Player contribution.
function GOAL:GetPlayerContribution( PlayerName )
return self.Players[PlayerName] or 0
return self.Players[PlayerName] or 0
end
--- Get the players who contributed to achieve the goal.
-- The result is a list of players, sorted by the name of the players.
-- @param #GOAL self
@@ -165,7 +159,6 @@ do -- Goal
return self.Players or {}
end
--- Gets the total contributions that happened to achieve the goal.
-- The result is a number.
-- @param #GOAL self
@@ -173,9 +166,7 @@ do -- Goal
function GOAL:GetTotalContributions()
return self.TotalContributions or 0
end
--- Validates if the goal is achieved.
-- @param #GOAL self
-- @return #boolean true if the goal is achieved.
@@ -183,4 +174,4 @@ do -- Goal
return self:Is( "Achieved" )
end
end
end

446
Moose Development/Moose/Core/Menu.lua
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File diff suppressed because it is too large Load Diff

318
Moose Development/Moose/Core/Message.lua
View File

@@ -1,18 +1,18 @@
--- **Core** - Informs the players using messages during a simulation.
--
--
-- ===
--
--
-- ## Features:
--
--
-- * A more advanced messaging system using the DCS message system.
-- * Time messages.
-- * Send messages based on a message type, which has a pre-defined duration that can be tweaked in SETTINGS.
-- * Send message to all players.
-- * Send messages to a coalition.
-- * Send messages to a specific group.
--
--
-- ===
--
--
-- @module Core.Message
-- @image Core_Message.JPG
@@ -23,14 +23,14 @@
--- Message System to display Messages to Clients, Coalitions or All.
-- Messages are shown on the display panel for an amount of seconds, and will then disappear.
-- Messages can contain a category which is indicating the category of the message.
--
--
-- ## MESSAGE construction
--
--
-- Messages are created with @{#MESSAGE.New}. Note that when the MESSAGE object is created, no message is sent yet.
-- To send messages, you need to use the To functions.
--
--
-- ## Send messages to an audience
--
--
-- Messages are sent:
--
-- * To a @{Client} using @{#MESSAGE.ToClient}().
@@ -39,26 +39,26 @@
-- * To the red coalition using @{#MESSAGE.ToRed}().
-- * To the blue coalition using @{#MESSAGE.ToBlue}().
-- * To all Players using @{#MESSAGE.ToAll}().
--
--
-- ## Send conditionally to an audience
--
--
-- Messages can be sent conditionally to an audience (when a condition is true):
--
--
-- * To all players using @{#MESSAGE.ToAllIf}().
-- * To a coalition using @{#MESSAGE.ToCoalitionIf}().
--
--
-- ===
--
--
-- ### Author: **FlightControl**
-- ### Contributions:
--
-- ### Contributions:
--
-- ===
--
--
-- @field #MESSAGE
MESSAGE = {
ClassName = "MESSAGE",
MessageCategory = 0,
MessageID = 0,
ClassName = "MESSAGE",
MessageCategory = 0,
MessageID = 0,
}
--- Message Types
@@ -68,10 +68,9 @@ MESSAGE.Type = {
Information = "Information",
Briefing = "Briefing Report",
Overview = "Overview Report",
Detailed = "Detailed Report"
Detailed = "Detailed Report",
}
--- Creates a new MESSAGE object. Note that these MESSAGE objects are not yet displayed on the display panel. You must use the functions @{ToClient} or @{ToCoalition} or @{ToAll} to send these Messages to the respective recipients.
-- @param self
-- @param #string MessageText is the text of the Message.
@@ -80,52 +79,52 @@ MESSAGE.Type = {
-- @param #boolean ClearScreen (optional) Clear all previous messages if true.
-- @return #MESSAGE
-- @usage
-- -- Create a series of new Messages.
-- -- MessageAll is meant to be sent to all players, for 25 seconds, and is classified as "Score".
-- -- MessageRED is meant to be sent to the RED players only, for 10 seconds, and is classified as "End of Mission", with ID "Win".
-- -- MessageClient1 is meant to be sent to a Client, for 25 seconds, and is classified as "Score", with ID "Score".
-- -- MessageClient1 is meant to be sent to a Client, for 25 seconds, and is classified as "Score", with ID "Score".
-- MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", 25, "End of Mission" )
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", 25, "Penalty" )
-- MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", 25, "Score" )
-- MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", 25, "Score")
--
-- -- Create a series of new Messages.
-- -- MessageAll is meant to be sent to all players, for 25 seconds, and is classified as "Score".
-- -- MessageRED is meant to be sent to the RED players only, for 10 seconds, and is classified as "End of Mission", with ID "Win".
-- -- MessageClient1 is meant to be sent to a Client, for 25 seconds, and is classified as "Score", with ID "Score".
-- -- MessageClient1 is meant to be sent to a Client, for 25 seconds, and is classified as "Score", with ID "Score".
-- MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", 25, "End of Mission" )
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", 25, "Penalty" )
-- MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", 25, "Score" )
-- MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", 25, "Score")
--
function MESSAGE:New( MessageText, MessageDuration, MessageCategory, ClearScreen )
local self = BASE:Inherit( self, BASE:New() )
self:F( { MessageText, MessageDuration, MessageCategory } )
local self = BASE:Inherit( self, BASE:New() )
self:F( { MessageText, MessageDuration, MessageCategory } )
self.MessageType = nil
-- When no MessageCategory is given, we don't show it as a title...
if MessageCategory and MessageCategory ~= "" then
if MessageCategory:sub(-1) ~= "\n" then
if MessageCategory and MessageCategory ~= "" then
if MessageCategory:sub( -1 ) ~= "\n" then
self.MessageCategory = MessageCategory .. ": "
else
self.MessageCategory = MessageCategory:sub( 1, -2 ) .. ":\n"
self.MessageCategory = MessageCategory:sub( 1, -2 ) .. ":\n"
end
else
self.MessageCategory = ""
end
self.ClearScreen=false
if ClearScreen~=nil then
self.ClearScreen=ClearScreen
self.ClearScreen = false
if ClearScreen ~= nil then
self.ClearScreen = ClearScreen
end
self.MessageDuration = MessageDuration or 5
self.MessageTime = timer.getTime()
self.MessageText = MessageText:gsub("^\n","",1):gsub("\n$","",1)
self.MessageSent = false
self.MessageGroup = false
self.MessageCoalition = false
self.MessageDuration = MessageDuration or 5
self.MessageTime = timer.getTime()
self.MessageText = MessageText:gsub( "^\n", "", 1 ):gsub( "\n$", "", 1 )
return self
self.MessageSent = false
self.MessageGroup = false
self.MessageCoalition = false
return self
end
--- Creates a new MESSAGE object of a certain type.
-- Note that these MESSAGE objects are not yet displayed on the display panel.
--- Creates a new MESSAGE object of a certain type.
-- Note that these MESSAGE objects are not yet displayed on the display panel.
-- You must use the functions @{ToClient} or @{ToCoalition} or @{ToAll} to send these Messages to the respective recipients.
-- The message display times are automatically defined based on the timing settings in the @{Settings} menu.
-- @param self
@@ -134,83 +133,83 @@ end
-- @param #boolean ClearScreen (optional) Clear all previous messages.
-- @return #MESSAGE
-- @usage
--
-- MessageAll = MESSAGE:NewType( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", MESSAGE.Type.Information )
-- MessageRED = MESSAGE:NewType( "To the RED Players: You receive a penalty because you've killed one of your own units", MESSAGE.Type.Information )
-- MessageClient1 = MESSAGE:NewType( "Congratulations, you've just hit a target", MESSAGE.Type.Update )
-- MessageClient2 = MESSAGE:NewType( "Congratulations, you've just killed a target", MESSAGE.Type.Update )
--
function MESSAGE:NewType( MessageText, MessageType, ClearScreen )
local self = BASE:Inherit( self, BASE:New() )
self:F( { MessageText } )
self.MessageType = MessageType
self.ClearScreen=false
if ClearScreen~=nil then
self.ClearScreen=ClearScreen
self.ClearScreen = false
if ClearScreen ~= nil then
self.ClearScreen = ClearScreen
end
self.MessageTime = timer.getTime()
self.MessageText = MessageText:gsub("^\n","",1):gsub("\n$","",1)
self.MessageText = MessageText:gsub( "^\n", "", 1 ):gsub( "\n$", "", 1 )
return self
end
--- Clears all previous messages from the screen before the new message is displayed. Not that this must come before all functions starting with ToX(), e.g. ToAll(), ToGroup() etc.
--- Clears all previous messages from the screen before the new message is displayed. Not that this must come before all functions starting with ToX(), e.g. ToAll(), ToGroup() etc.
-- @param #MESSAGE self
-- @return #MESSAGE
function MESSAGE:Clear()
self:F()
self.ClearScreen=true
self.ClearScreen = true
return self
end
--- Sends a MESSAGE to a Client Group. Note that the Group needs to be defined within the ME with the skillset "Client" or "Player".
-- @param #MESSAGE self
-- @param Wrapper.Client#CLIENT Client is the Group of the Client.
-- @param Core.Settings#SETTINGS Settings Settings used to display the message.
-- @return #MESSAGE
-- @usage
-- -- Send the 2 messages created with the @{New} method to the Client Group.
-- -- Note that the Message of MessageClient2 is overwriting the Message of MessageClient1.
-- ClientGroup = Group.getByName( "ClientGroup" )
--
-- MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" ):ToClient( ClientGroup )
-- MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" ):ToClient( ClientGroup )
-- or
-- MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" ):ToClient( ClientGroup )
-- MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" ):ToClient( ClientGroup )
-- or
-- MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" )
-- MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" )
-- MessageClient1:ToClient( ClientGroup )
-- MessageClient2:ToClient( ClientGroup )
-- -- Send the 2 messages created with the @{New} method to the Client Group.
-- -- Note that the Message of MessageClient2 is overwriting the Message of MessageClient1.
-- ClientGroup = Group.getByName( "ClientGroup" )
--
-- MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" ):ToClient( ClientGroup )
-- MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" ):ToClient( ClientGroup )
-- or
-- MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" ):ToClient( ClientGroup )
-- MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" ):ToClient( ClientGroup )
-- or
-- MessageClient1 = MESSAGE:New( "Congratulations, you've just hit a target", "Score", 25, "Score" )
-- MessageClient2 = MESSAGE:New( "Congratulations, you've just killed a target", "Score", 25, "Score" )
-- MessageClient1:ToClient( ClientGroup )
-- MessageClient2:ToClient( ClientGroup )
--
function MESSAGE:ToClient( Client, Settings )
self:F( Client )
self:F( Client )
if Client and Client:GetClientGroupID() then
if Client and Client:GetClientGroupID() then
if self.MessageType then
local Settings = Settings or ( Client and _DATABASE:GetPlayerSettings( Client:GetPlayerName() ) ) or _SETTINGS -- Core.Settings#SETTINGS
local Settings = Settings or (Client and _DATABASE:GetPlayerSettings( Client:GetPlayerName() )) or _SETTINGS -- Core.Settings#SETTINGS
self.MessageDuration = Settings:GetMessageTime( self.MessageType )
self.MessageCategory = "" -- self.MessageType .. ": "
end
if self.MessageDuration ~= 0 then
local ClientGroupID = Client:GetClientGroupID()
self:T( self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$","") .. " / " .. self.MessageDuration )
trigger.action.outTextForGroup( ClientGroupID, self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$",""), self.MessageDuration , self.ClearScreen)
end
end
return self
local ClientGroupID = Client:GetClientGroupID()
self:T( self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ) .. " / " .. self.MessageDuration )
trigger.action.outTextForGroup( ClientGroupID, self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ), self.MessageDuration, self.ClearScreen )
end
end
return self
end
--- Sends a MESSAGE to a Group.
--- Sends a MESSAGE to a Group.
-- @param #MESSAGE self
-- @param Wrapper.Group#GROUP Group to which the message is displayed.
-- @return #MESSAGE Message object.
@@ -218,74 +217,80 @@ function MESSAGE:ToGroup( Group, Settings )
self:F( Group.GroupName )
if Group then
if self.MessageType then
local Settings = Settings or ( Group and _DATABASE:GetPlayerSettings( Group:GetPlayerName() ) ) or _SETTINGS -- Core.Settings#SETTINGS
local Settings = Settings or (Group and _DATABASE:GetPlayerSettings( Group:GetPlayerName() )) or _SETTINGS -- Core.Settings#SETTINGS
self.MessageDuration = Settings:GetMessageTime( self.MessageType )
self.MessageCategory = "" -- self.MessageType .. ": "
end
if self.MessageDuration ~= 0 then
self:T( self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$","") .. " / " .. self.MessageDuration )
trigger.action.outTextForGroup( Group:GetID(), self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$",""), self.MessageDuration, self.ClearScreen )
self:T( self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ) .. " / " .. self.MessageDuration )
trigger.action.outTextForGroup( Group:GetID(), self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ), self.MessageDuration, self.ClearScreen )
end
end
return self
end
--- Sends a MESSAGE to the Blue coalition.
-- @param #MESSAGE self
-- @return #MESSAGE
-- @usage
-- -- Send a message created with the @{New} method to the BLUE coalition.
-- MessageBLUE = MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToBlue()
-- or
-- MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToBlue()
-- or
-- MessageBLUE = MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
-- MessageBLUE:ToBlue()
function MESSAGE:ToBlue()
self:F()
self:ToCoalition( coalition.side.BLUE )
return self
end
--- Sends a MESSAGE to the Red Coalition.
-- @param #MESSAGE self
-- @return #MESSAGE
-- @usage
-- -- Send a message created with the @{New} method to the RED coalition.
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToRed()
-- or
-- MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToRed()
-- or
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
-- MessageRED:ToRed()
function MESSAGE:ToRed( )
self:F()
--
-- -- Send a message created with the @{New} method to the BLUE coalition.
-- MessageBLUE = MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToBlue()
-- or
-- MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToBlue()
-- or
-- MessageBLUE = MESSAGE:New( "To the BLUE Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
-- MessageBLUE:ToBlue()
--
function MESSAGE:ToBlue()
self:F()
self:ToCoalition( coalition.side.RED )
return self
self:ToCoalition( coalition.side.BLUE )
return self
end
--- Sends a MESSAGE to a Coalition.
--- Sends a MESSAGE to the Red Coalition.
-- @param #MESSAGE self
-- @return #MESSAGE
-- @usage
--
-- -- Send a message created with the @{New} method to the RED coalition.
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToRed()
-- or
-- MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToRed()
-- or
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
-- MessageRED:ToRed()
--
function MESSAGE:ToRed()
self:F()
self:ToCoalition( coalition.side.RED )
return self
end
--- Sends a MESSAGE to a Coalition.
-- @param #MESSAGE self
-- @param #DCS.coalition.side CoalitionSide @{#DCS.coalition.side} to which the message is displayed.
-- @param Core.Settings#SETTINGS Settings (Optional) Settings for message display.
-- @return #MESSAGE Message object.
-- @usage
-- -- Send a message created with the @{New} method to the RED coalition.
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToCoalition( coalition.side.RED )
-- or
-- MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToCoalition( coalition.side.RED )
-- or
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
-- MessageRED:ToCoalition( coalition.side.RED )
--
-- -- Send a message created with the @{New} method to the RED coalition.
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToCoalition( coalition.side.RED )
-- or
-- MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" ):ToCoalition( coalition.side.RED )
-- or
-- MessageRED = MESSAGE:New( "To the RED Players: You receive a penalty because you've killed one of your own units", "Penalty", 25, "Score" )
-- MessageRED:ToCoalition( coalition.side.RED )
--
function MESSAGE:ToCoalition( CoalitionSide, Settings )
self:F( CoalitionSide )
self:F( CoalitionSide )
if self.MessageType then
local Settings = Settings or _SETTINGS -- Core.Settings#SETTINGS
@@ -293,20 +298,20 @@ function MESSAGE:ToCoalition( CoalitionSide, Settings )
self.MessageCategory = "" -- self.MessageType .. ": "
end
if CoalitionSide then
if CoalitionSide then
if self.MessageDuration ~= 0 then
self:T( self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$","") .. " / " .. self.MessageDuration )
trigger.action.outTextForCoalition( CoalitionSide, self.MessageText:gsub("\n$",""):gsub("\n$",""), self.MessageDuration, self.ClearScreen )
self:T( self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ) .. " / " .. self.MessageDuration )
trigger.action.outTextForCoalition( CoalitionSide, self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ), self.MessageDuration, self.ClearScreen )
end
end
return self
end
return self
end
--- Sends a MESSAGE to a Coalition if the given Condition is true.
--- Sends a MESSAGE to a Coalition if the given Condition is true.
-- @param #MESSAGE self
-- @param CoalitionSide needs to be filled out by the defined structure of the standard scripting engine @{coalition.side}.
-- @param #boolean Condition Sends the message only if the condition is true.
-- @param #boolean Condition Sends the message only if the condition is true.
-- @return #MESSAGE self
function MESSAGE:ToCoalitionIf( CoalitionSide, Condition )
self:F( CoalitionSide )
@@ -314,7 +319,7 @@ function MESSAGE:ToCoalitionIf( CoalitionSide, Condition )
if Condition and Condition == true then
self:ToCoalition( CoalitionSide )
end
return self
end
@@ -323,14 +328,16 @@ end
-- @param Core.Settings#Settings Settings (Optional) Settings for message display.
-- @return #MESSAGE
-- @usage
-- -- Send a message created to all players.
-- MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" ):ToAll()
-- or
-- MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" ):ToAll()
-- or
-- MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" )
-- MessageAll:ToAll()
function MESSAGE:ToAll(Settings)
--
-- -- Send a message created to all players.
-- MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" ):ToAll()
-- or
-- MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" ):ToAll()
-- or
-- MessageAll = MESSAGE:New( "To all Players: BLUE has won! Each player of BLUE wins 50 points!", "End of Mission", 25, "Win" )
-- MessageAll:ToAll()
--
function MESSAGE:ToAll( Settings )
self:F()
if self.MessageType then
@@ -340,14 +347,13 @@ function MESSAGE:ToAll(Settings)
end
if self.MessageDuration ~= 0 then
self:T( self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$","") .. " / " .. self.MessageDuration )
trigger.action.outText( self.MessageCategory .. self.MessageText:gsub("\n$",""):gsub("\n$",""), self.MessageDuration, self.ClearScreen )
self:T( self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ) .. " / " .. self.MessageDuration )
trigger.action.outText( self.MessageCategory .. self.MessageText:gsub( "\n$", "" ):gsub( "\n$", "" ), self.MessageDuration, self.ClearScreen )
end
return self
end
--- Sends a MESSAGE to all players if the given Condition is true.
-- @param #MESSAGE self
-- @return #MESSAGE
@@ -357,5 +363,5 @@ function MESSAGE:ToAllIf( Condition )
self:ToAll()
end
return self
return self
end

2115
Moose Development/Moose/Core/Point.lua
View File

File diff suppressed because it is too large Load Diff

27
Moose Development/Moose/Core/Report.lua
View File

@@ -1,13 +1,13 @@
--- **Core** - Provides a handy means to create messages and reports.
--
-- ===
--
--
-- ## Features:
--
--
-- * Create text blocks that are formatted.
-- * Create automatic indents.
-- * Variate the delimiters between reporting lines.
--
--
-- ===
--
-- ### Authors: FlightControl : Design & Programming
@@ -15,7 +15,6 @@
-- @module Core.Report
-- @image Core_Report.JPG
--- @type REPORT
-- @extends Core.Base#BASE
@@ -36,7 +35,7 @@ function REPORT:New( Title )
self.Report = {}
self:SetTitle( Title or "" )
self:SetTitle( Title or "" )
self:SetIndent( 3 )
return self
@@ -45,28 +44,26 @@ end
--- Has the REPORT Text?
-- @param #REPORT self
-- @return #boolean
function REPORT:HasText() --R2.1
function REPORT:HasText() -- R2.1
return #self.Report > 0
end
--- Set indent of a REPORT.
-- @param #REPORT self
-- @param #number Indent
-- @return #REPORT
function REPORT:SetIndent( Indent ) --R2.1
function REPORT:SetIndent( Indent ) -- R2.1
self.Indent = Indent
return self
end
--- Add a new line to a REPORT.
-- @param #REPORT self
-- @param #string Text
-- @return #REPORT
function REPORT:Add( Text )
self.Report[#self.Report+1] = Text
self.Report[#self.Report + 1] = Text
return self
end
@@ -76,17 +73,17 @@ end
-- @param #string Separator (optional) The start of each report line can begin with an optional separator character. This can be a "-", or "#", or "*". You're free to choose what you find the best.
-- @return #REPORT
function REPORT:AddIndent( Text, Separator )
self.Report[#self.Report+1] = ( ( Separator and Separator .. string.rep( " ", self.Indent - 1 ) ) or string.rep(" ", self.Indent ) ) .. Text:gsub("\n","\n"..string.rep( " ", self.Indent ) )
self.Report[#self.Report + 1] = ((Separator and Separator .. string.rep( " ", self.Indent - 1 )) or string.rep( " ", self.Indent )) .. Text:gsub( "\n", "\n" .. string.rep( " ", self.Indent ) )
return self
end
--- Produces the text of the report, taking into account an optional delimeter, which is \n by default.
--- Produces the text of the report, taking into account an optional delimiter, which is \n by default.
-- @param #REPORT self
-- @param #string Delimiter (optional) A delimiter text.
-- @return #string The report text.
function REPORT:Text( Delimiter )
Delimiter = Delimiter or "\n"
local ReportText = ( self.Title ~= "" and self.Title .. Delimiter or self.Title ) .. table.concat( self.Report, Delimiter ) or ""
local ReportText = (self.Title ~= "" and self.Title .. Delimiter or self.Title) .. table.concat( self.Report, Delimiter ) or ""
return ReportText
end
@@ -95,7 +92,7 @@ end
-- @param #string Title The title of the report.
-- @return #REPORT
function REPORT:SetTitle( Title )
self.Title = Title
self.Title = Title
return self
end

199
Moose Development/Moose/Core/ScheduleDispatcher.lua
View File

@@ -1,36 +1,36 @@
--- **Core** -- SCHEDULEDISPATCHER dispatches the different schedules.
--
--
-- ===
--
--
-- Takes care of the creation and dispatching of scheduled functions for SCHEDULER objects.
--
--
-- This class is tricky and needs some thorough explanation.
-- SCHEDULE classes are used to schedule functions for objects, or as persistent objects.
-- The SCHEDULEDISPATCHER class ensures that:
--
--
-- - Scheduled functions are planned according the SCHEDULER object parameters.
-- - Scheduled functions are repeated when requested, according the SCHEDULER object parameters.
-- - Scheduled functions are automatically removed when the schedule is finished, according the SCHEDULER object parameters.
--
--
-- The SCHEDULEDISPATCHER class will manage SCHEDULER object in memory during garbage collection:
--
--
-- - When a SCHEDULER object is not attached to another object (that is, it's first :Schedule() parameter is nil), then the SCHEDULER object is _persistent_ within memory.
-- - When a SCHEDULER object *is* attached to another object, then the SCHEDULER object is _not persistent_ within memory after a garbage collection!
--
-- The none persistency of SCHEDULERS attached to objects is required to allow SCHEDULER objects to be garbage collectged, when the parent object is also desroyed or nillified and garbage collected.
-- Even when there are pending timer scheduled functions to be executed for the SCHEDULER object,
--
-- The non-persistency of SCHEDULERS attached to objects is required to allow SCHEDULER objects to be garbage collected when the parent object is destroyed, or set to nil and garbage collected.
-- Even when there are pending timer scheduled functions to be executed for the SCHEDULER object,
-- these will not be executed anymore when the SCHEDULER object has been destroyed.
--
--
-- The SCHEDULEDISPATCHER allows multiple scheduled functions to be planned and executed for one SCHEDULER object.
-- The SCHEDULER object therefore keeps a table of "CallID's", which are returned after each planning of a new scheduled function by the SCHEDULEDISPATCHER.
-- The SCHEDULER object plans new scheduled functions through the @{Core.Scheduler#SCHEDULER.Schedule}() method.
-- The SCHEDULER object plans new scheduled functions through the @{Core.Scheduler#SCHEDULER.Schedule}() method.
-- The Schedule() method returns the CallID that is the reference ID for each planned schedule.
--
--
-- ===
--
--
-- ### Contributions: -
-- ### Authors: FlightControl : Design & Programming
--
--
-- @module Core.ScheduleDispatcher
-- @image Core_Schedule_Dispatcher.JPG
@@ -38,7 +38,7 @@
-- @type SCHEDULEDISPATCHER
-- @field #string ClassName Name of the class.
-- @field #number CallID Call ID counter.
-- @field #table PersistentSchedulers Persistant schedulers.
-- @field #table PersistentSchedulers Persistent schedulers.
-- @field #table ObjectSchedulers Schedulers that only exist as long as the master object exists.
-- @field #table Schedule Meta table setmetatable( {}, { __mode = "k" } ).
-- @extends Core.Base#BASE
@@ -46,11 +46,11 @@
--- The SCHEDULEDISPATCHER structure
-- @type SCHEDULEDISPATCHER
SCHEDULEDISPATCHER = {
ClassName = "SCHEDULEDISPATCHER",
CallID = 0,
PersistentSchedulers = {},
ObjectSchedulers = {},
Schedule = nil,
ClassName = "SCHEDULEDISPATCHER",
CallID = 0,
PersistentSchedulers = {},
ObjectSchedulers = {},
Schedule = nil,
}
--- Player data table holding all important parameters of each player.
@@ -58,7 +58,7 @@ SCHEDULEDISPATCHER = {
-- @field #function Function The schedule function to be called.
-- @field #table Arguments Schedule function arguments.
-- @field #number Start Start time in seconds.
-- @field #number Repeat Repeat time intervall in seconds.
-- @field #number Repeat Repeat time interval in seconds.
-- @field #number Randomize Randomization factor [0,1].
-- @field #number Stop Stop time in seconds.
-- @field #number StartTime Time in seconds when the scheduler is created.
@@ -77,7 +77,7 @@ end
--- Add a Schedule to the ScheduleDispatcher.
-- The development of this method was really tidy.
-- It is constructed as such that a garbage collection is executed on the weak tables, when the Scheduler is nillified.
-- It is constructed as such that a garbage collection is executed on the weak tables, when the Scheduler is set to nil.
-- Nothing of this code should be modified without testing it thoroughly.
-- @param #SCHEDULEDISPATCHER self
-- @param Core.Scheduler#SCHEDULER Scheduler Scheduler object.
@@ -85,7 +85,7 @@ end
-- @param #table ScheduleArguments Table of arguments passed to the ScheduleFunction.
-- @param #number Start Start time in seconds.
-- @param #number Repeat Repeat interval in seconds.
-- @param #number Randomize Radomization factor [0,1].
-- @param #number Randomize Randomization factor [0,1].
-- @param #number Stop Stop time in seconds.
-- @param #number TraceLevel Trace level [0,3].
-- @param Core.Fsm#FSM Fsm Finite state model.
@@ -95,39 +95,38 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
-- Increase counter.
self.CallID = self.CallID + 1
-- Create ID.
local CallID = self.CallID .. "#" .. ( Scheduler.MasterObject and Scheduler.MasterObject.GetClassNameAndID and Scheduler.MasterObject:GetClassNameAndID() or "" ) or ""
self:T2(string.format("Adding schedule #%d CallID=%s", self.CallID, CallID))
local CallID = self.CallID .. "#" .. (Scheduler.MasterObject and Scheduler.MasterObject.GetClassNameAndID and Scheduler.MasterObject:GetClassNameAndID() or "") or ""
self:T2( string.format( "Adding schedule #%d CallID=%s", self.CallID, CallID ) )
-- Initialize PersistentSchedulers
self.PersistentSchedulers = self.PersistentSchedulers or {}
-- Initialize the ObjectSchedulers array, which is a weakly coupled table.
-- If the object used as the key is nil, then the garbage collector will remove the item from the Functions array.
self.ObjectSchedulers = self.ObjectSchedulers or setmetatable( {}, { __mode = "v" } )
self.ObjectSchedulers = self.ObjectSchedulers or setmetatable( {}, { __mode = "v" } )
if Scheduler.MasterObject then
self.ObjectSchedulers[CallID] = Scheduler
self:F3( { CallID = CallID, ObjectScheduler = tostring(self.ObjectSchedulers[CallID]), MasterObject = tostring(Scheduler.MasterObject) } )
self:F3( { CallID = CallID, ObjectScheduler = tostring( self.ObjectSchedulers[CallID] ), MasterObject = tostring( Scheduler.MasterObject ) } )
else
self.PersistentSchedulers[CallID] = Scheduler
self:F3( { CallID = CallID, PersistentScheduler = self.PersistentSchedulers[CallID] } )
end
self.Schedule = self.Schedule or setmetatable( {}, { __mode = "k" } )
self.Schedule[Scheduler] = self.Schedule[Scheduler] or {}
self.Schedule[Scheduler][CallID] = {} --#SCHEDULEDISPATCHER.ScheduleData
self.Schedule[Scheduler][CallID] = {} -- #SCHEDULEDISPATCHER.ScheduleData
self.Schedule[Scheduler][CallID].Function = ScheduleFunction
self.Schedule[Scheduler][CallID].Arguments = ScheduleArguments
self.Schedule[Scheduler][CallID].StartTime = timer.getTime() + ( Start or 0 )
self.Schedule[Scheduler][CallID].StartTime = timer.getTime() + (Start or 0)
self.Schedule[Scheduler][CallID].Start = Start + 0.1
self.Schedule[Scheduler][CallID].Repeat = Repeat or 0
self.Schedule[Scheduler][CallID].Randomize = Randomize or 0
self.Schedule[Scheduler][CallID].Stop = Stop
-- This section handles the tracing of the scheduled calls.
-- Because these calls will be executed with a delay, we inspect the place where these scheduled calls are initiated.
-- The Info structure contains the output of the debug.getinfo() calls, which inspects the call stack for the function name, line number and source name.
@@ -149,10 +148,10 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
-- Therefore, in the call stack, at the TraceLevel these functions are mentioned as "tail calls", and the Info.name field will be nil as a result.
-- To obtain the correct function name for FSM object calls, the function is mentioned in the call stack at a higher stack level.
-- So when function name stored in Info.name is nil, then I inspect the function name within the call stack one level higher.
-- So this little piece of code does its magic wonderfully, preformance overhead is neglectible, as scheduled calls don't happen that often.
-- So this little piece of code does its magic wonderfully, performance overhead is negligible, as scheduled calls don't happen that often.
local Info = {}
if debug then
TraceLevel = TraceLevel or 2
Info = debug.getinfo( TraceLevel, "nlS" )
@@ -166,7 +165,7 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
--- Function passed to the DCS timer.scheduleFunction()
self.Schedule[Scheduler][CallID].CallHandler = function( Params )
local CallID = Params.CallID
local Info = Params.Info or {}
local Source = Info.source or "?"
@@ -180,27 +179,27 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
end
return errmsg
end
-- Get object or persistant scheduler object.
local Scheduler = self.ObjectSchedulers[CallID] --Core.Scheduler#SCHEDULER
-- Get object or persistent scheduler object.
local Scheduler = self.ObjectSchedulers[CallID] -- Core.Scheduler#SCHEDULER
if not Scheduler then
Scheduler = self.PersistentSchedulers[CallID]
end
--self:T3( { Scheduler = Scheduler } )
-- self:T3( { Scheduler = Scheduler } )
if Scheduler then
local MasterObject = tostring(Scheduler.MasterObject)
-- Schedule object.
local Schedule = self.Schedule[Scheduler][CallID] --#SCHEDULEDISPATCHER.ScheduleData
--self:T3( { Schedule = Schedule } )
local MasterObject = tostring( Scheduler.MasterObject )
local SchedulerObject = Scheduler.MasterObject --Scheduler.SchedulerObject Now is this the Maste or Scheduler object?
-- Schedule object.
local Schedule = self.Schedule[Scheduler][CallID] -- #SCHEDULEDISPATCHER.ScheduleData
-- self:T3( { Schedule = Schedule } )
local SchedulerObject = Scheduler.MasterObject -- Scheduler.SchedulerObject Now is this the Master or Scheduler object?
local ShowTrace = Scheduler.ShowTrace
local ScheduleFunction = Schedule.Function
local ScheduleArguments = Schedule.Arguments or {}
local Start = Schedule.Start
@@ -208,18 +207,17 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
local Randomize = Schedule.Randomize or 0
local Stop = Schedule.Stop or 0
local ScheduleID = Schedule.ScheduleID
local Prefix = ( Repeat == 0 ) and "--->" or "+++>"
local Prefix = (Repeat == 0) and "--->" or "+++>"
local Status, Result
--self:E( { SchedulerObject = SchedulerObject } )
-- self:E( { SchedulerObject = SchedulerObject } )
if SchedulerObject then
local function Timer()
if ShowTrace then
SchedulerObject:T( Prefix .. Name .. ":" .. Line .. " (" .. Source .. ")" )
end
return ScheduleFunction( SchedulerObject, unpack( ScheduleArguments ) )
return ScheduleFunction( SchedulerObject, unpack( ScheduleArguments ) )
end
Status, Result = xpcall( Timer, ErrorHandler )
else
@@ -227,40 +225,39 @@ function SCHEDULEDISPATCHER:AddSchedule( Scheduler, ScheduleFunction, ScheduleAr
if ShowTrace then
self:T( Prefix .. Name .. ":" .. Line .. " (" .. Source .. ")" )
end
return ScheduleFunction( unpack( ScheduleArguments ) )
return ScheduleFunction( unpack( ScheduleArguments ) )
end
Status, Result = xpcall( Timer, ErrorHandler )
end
local CurrentTime = timer.getTime()
local StartTime = Schedule.StartTime
-- Debug info.
self:F3( { CallID=CallID, ScheduleID=ScheduleID, Master = MasterObject, CurrentTime = CurrentTime, StartTime = StartTime, Start = Start, Repeat = Repeat, Randomize = Randomize, Stop = Stop } )
if Status and (( Result == nil ) or ( Result and Result ~= false ) ) then
if Repeat ~= 0 and ( ( Stop == 0 ) or ( Stop ~= 0 and CurrentTime <= StartTime + Stop ) ) then
local ScheduleTime = CurrentTime + Repeat + math.random(- ( Randomize * Repeat / 2 ), ( Randomize * Repeat / 2 )) + 0.0001 -- Accuracy
--self:T3( { Repeat = CallID, CurrentTime, ScheduleTime, ScheduleArguments } )
self:F3( { CallID = CallID, ScheduleID = ScheduleID, Master = MasterObject, CurrentTime = CurrentTime, StartTime = StartTime, Start = Start, Repeat = Repeat, Randomize = Randomize, Stop = Stop } )
if Status and ((Result == nil) or (Result and Result ~= false)) then
if Repeat ~= 0 and ((Stop == 0) or (Stop ~= 0 and CurrentTime <= StartTime + Stop)) then
local ScheduleTime = CurrentTime + Repeat + math.random( -(Randomize * Repeat / 2), (Randomize * Repeat / 2) ) + 0.0001 -- Accuracy
-- self:T3( { Repeat = CallID, CurrentTime, ScheduleTime, ScheduleArguments } )
return ScheduleTime -- returns the next time the function needs to be called.
else
self:Stop( Scheduler, CallID )
end
else
self:Stop( Scheduler, CallID )
end
else
self:I( "<<<>" .. Name .. ":" .. Line .. " (" .. Source .. ")" )
end
return nil
end
self:Start( Scheduler, CallID, Info )
return CallID
end
@@ -284,33 +281,33 @@ end
-- @param #string Info (Optional) Debug info.
function SCHEDULEDISPATCHER:Start( Scheduler, CallID, Info )
self:F2( { Start = CallID, Scheduler = Scheduler } )
if CallID then
local Schedule = self.Schedule[Scheduler][CallID] --#SCHEDULEDISPATCHER.ScheduleData
local Schedule = self.Schedule[Scheduler][CallID] -- #SCHEDULEDISPATCHER.ScheduleData
-- Only start when there is no ScheduleID defined!
-- This prevents to "Start" the scheduler twice with the same CallID...
if not Schedule.ScheduleID then
-- Current time in seconds.
local Tnow=timer.getTime()
Schedule.StartTime = Tnow -- Set the StartTime field to indicate when the scheduler started.
local Tnow = timer.getTime()
Schedule.StartTime = Tnow -- Set the StartTime field to indicate when the scheduler started.
-- Start DCS schedule function https://wiki.hoggitworld.com/view/DCS_func_scheduleFunction
Schedule.ScheduleID = timer.scheduleFunction(Schedule.CallHandler, { CallID = CallID, Info = Info }, Tnow + Schedule.Start)
self:T(string.format("Starting scheduledispatcher Call ID=%s ==> Schedule ID=%s", tostring(CallID), tostring(Schedule.ScheduleID)))
Schedule.ScheduleID = timer.scheduleFunction( Schedule.CallHandler, { CallID = CallID, Info = Info }, Tnow + Schedule.Start )
self:T( string.format( "Starting SCHEDULEDISPATCHER Call ID=%s ==> Schedule ID=%s", tostring( CallID ), tostring( Schedule.ScheduleID ) ) )
end
else
-- Recursive.
for CallID, Schedule in pairs( self.Schedule[Scheduler] or {} ) do
self:Start( Scheduler, CallID, Info ) -- Recursive
end
end
end
@@ -322,29 +319,29 @@ function SCHEDULEDISPATCHER:Stop( Scheduler, CallID )
self:F2( { Stop = CallID, Scheduler = Scheduler } )
if CallID then
local Schedule = self.Schedule[Scheduler][CallID] --#SCHEDULEDISPATCHER.ScheduleData
local Schedule = self.Schedule[Scheduler][CallID] -- #SCHEDULEDISPATCHER.ScheduleData
-- Only stop when there is a ScheduleID defined for the CallID. So, when the scheduler was stopped before, do nothing.
if Schedule.ScheduleID then
self:T(string.format("scheduledispatcher stopping scheduler CallID=%s, ScheduleID=%s", tostring(CallID), tostring(Schedule.ScheduleID)))
self:T( string.format( "SCHEDULEDISPATCHER stopping scheduler CallID=%s, ScheduleID=%s", tostring( CallID ), tostring( Schedule.ScheduleID ) ) )
-- Remove schedule function https://wiki.hoggitworld.com/view/DCS_func_removeFunction
timer.removeFunction(Schedule.ScheduleID)
timer.removeFunction( Schedule.ScheduleID )
Schedule.ScheduleID = nil
else
self:T(string.format("Error no ScheduleID for CallID=%s", tostring(CallID)))
self:T( string.format( "Error no ScheduleID for CallID=%s", tostring( CallID ) ) )
end
else
for CallID, Schedule in pairs( self.Schedule[Scheduler] or {} ) do
self:Stop( Scheduler, CallID ) -- Recursive
end
end
end
@@ -359,7 +356,7 @@ function SCHEDULEDISPATCHER:Clear( Scheduler )
end
end
--- Shopw tracing info.
--- Show tracing info.
-- @param #SCHEDULEDISPATCHER self
-- @param Core.Scheduler#SCHEDULER Scheduler Scheduler object.
function SCHEDULEDISPATCHER:ShowTrace( Scheduler )

218
Moose Development/Moose/Core/Scheduler.lua
View File

@@ -1,41 +1,41 @@
--- **Core** - Prepares and handles the execution of functions over scheduled time (intervals).
--
-- ===
--
--
-- ## Features:
--
--
-- * Schedule functions over time,
-- * optionally in an optional specified time interval,
-- * optionally **repeating** with a specified time repeat interval,
-- * optionally **randomizing** with a specified time interval randomization factor,
-- * optionally **stop** the repeating after a specified time interval.
-- * optionally in an optional specified time interval,
-- * optionally **repeating** with a specified time repeat interval,
-- * optionally **randomizing** with a specified time interval randomization factor,
-- * optionally **stop** the repeating after a specified time interval.
--
-- ===
--
--
-- # Demo Missions
--
--
-- ### [SCHEDULER Demo Missions source code](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/master-release/SCH%20-%20Scheduler)
--
--
-- ### [SCHEDULER Demo Missions, only for beta testers](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/master/SCH%20-%20Scheduler)
--
-- ### [ALL Demo Missions pack of the last release](https://github.com/FlightControl-Master/MOOSE_MISSIONS/releases)
--
-- ===
--
-- # YouTube Channel
--
-- ### [SCHEDULER YouTube Channel (none)]()
--
--
-- ===
--
-- ### Contributions:
--
-- # YouTube Channel
--
-- ### [SCHEDULER YouTube Channel (none)]()
--
-- ===
--
-- ### Contributions:
--
-- * FlightControl : Concept & Testing
--
-- ### Authors:
--
--
-- ### Authors:
--
-- * FlightControl : Design & Programming
--
--
-- ===
--
-- @module Core.Scheduler
@@ -48,62 +48,61 @@
-- @field #boolean ShowTrace Trace info if true.
-- @extends Core.Base#BASE
--- Creates and handles schedules over time, which allow to execute code at specific time intervals with randomization.
--
--
-- A SCHEDULER can manage **multiple** (repeating) schedules. Each planned or executing schedule has a unique **ScheduleID**.
-- The ScheduleID is returned when the method @{#SCHEDULER.Schedule}() is called.
-- It is recommended to store the ScheduleID in a variable, as it is used in the methods @{SCHEDULER.Start}() and @{SCHEDULER.Stop}(),
-- which can start and stop specific repeating schedules respectively within a SCHEDULER object.
--
-- ## SCHEDULER constructor
--
--
-- The SCHEDULER class is quite easy to use, but note that the New constructor has variable parameters:
--
--
-- The @{#SCHEDULER.New}() method returns 2 variables:
--
--
-- 1. The SCHEDULER object reference.
-- 2. The first schedule planned in the SCHEDULER object.
--
--
-- To clarify the different appliances, lets have a look at the following examples:
--
--
-- ### Construct a SCHEDULER object without a persistent schedule.
--
--
-- * @{#SCHEDULER.New}( nil ): Setup a new SCHEDULER object, which is persistently executed after garbage collection.
--
--
-- MasterObject = SCHEDULER:New()
-- SchedulerID = MasterObject:Schedule( nil, ScheduleFunction, {} )
--
--
-- The above example creates a new MasterObject, but does not schedule anything.
-- A separate schedule is created by using the MasterObject using the method :Schedule..., which returns a ScheduleID
--
--
-- ### Construct a SCHEDULER object without a volatile schedule, but volatile to the Object existence...
--
-- * @{#SCHEDULER.New}( Object ): Setup a new SCHEDULER object, which is linked to the Object. When the Object is nillified or destroyed, the SCHEDULER object will also be destroyed and stopped after garbage collection.
--
--
-- * @{#SCHEDULER.New}( Object ): Setup a new SCHEDULER object, which is linked to the Object. When the Object is set to nil or destroyed, the SCHEDULER object will also be destroyed and stopped after garbage collection.
--
-- ZoneObject = ZONE:New( "ZoneName" )
-- MasterObject = SCHEDULER:New( ZoneObject )
-- SchedulerID = MasterObject:Schedule( ZoneObject, ScheduleFunction, {} )
-- ...
-- ZoneObject = nil
-- garbagecollect()
--
--
-- The above example creates a new MasterObject, but does not schedule anything, and is bound to the existence of ZoneObject, which is a ZONE.
-- A separate schedule is created by using the MasterObject using the method :Schedule()..., which returns a ScheduleID
-- Later in the logic, the ZoneObject is put to nil, and garbage is collected.
-- As a result, the MasterObject will cancel any planned schedule.
--
--
-- ### Construct a SCHEDULER object with a persistent schedule.
--
--
-- * @{#SCHEDULER.New}( nil, Function, FunctionArguments, Start, ... ): Setup a new persistent SCHEDULER object, and start a new schedule for the Function with the defined FunctionArguments according the Start and sequent parameters.
--
--
-- MasterObject, SchedulerID = SCHEDULER:New( nil, ScheduleFunction, {} )
--
--
-- The above example creates a new MasterObject, and does schedule the first schedule as part of the call.
-- Note that 2 variables are returned here: MasterObject, ScheduleID...
--
--
-- ### Construct a SCHEDULER object without a schedule, but volatile to the Object existence...
--
--
-- * @{#SCHEDULER.New}( Object, Function, FunctionArguments, Start, ... ): Setup a new SCHEDULER object, linked to Object, and start a new schedule for the Function with the defined FunctionArguments according the Start and sequent parameters.
--
-- ZoneObject = ZONE:New( "ZoneName" )
@@ -112,13 +111,13 @@
-- ...
-- ZoneObject = nil
-- garbagecollect()
--
--
-- The above example creates a new MasterObject, and schedules a method call (ScheduleFunction),
-- and is bound to the existence of ZoneObject, which is a ZONE object (ZoneObject).
-- Both a MasterObject and a SchedulerID variable are returned.
-- Later in the logic, the ZoneObject is put to nil, and garbage is collected.
-- As a result, the MasterObject will cancel the planned schedule.
--
--
-- ## SCHEDULER timer stopping and (re-)starting.
--
-- The SCHEDULER can be stopped and restarted with the following methods:
@@ -133,70 +132,70 @@
-- MasterObject:Stop( SchedulerID )
-- ...
-- MasterObject:Start( SchedulerID )
--
--
-- The above example creates a new MasterObject, and does schedule the first schedule as part of the call.
-- Note that 2 variables are returned here: MasterObject, ScheduleID...
-- Later in the logic, the repeating schedule with SchedulerID is stopped.
-- A bit later, the repeating schedule with SchedulerId is (re)-started.
--
-- Note that 2 variables are returned here: MasterObject, ScheduleID...
-- Later in the logic, the repeating schedule with SchedulerID is stopped.
-- A bit later, the repeating schedule with SchedulerId is (re)-started.
--
-- ## Create a new schedule
--
-- With the method @{#SCHEDULER.Schedule}() a new time event can be scheduled.
--
-- With the method @{#SCHEDULER.Schedule}() a new time event can be scheduled.
-- This method is used by the :New() constructor when a new schedule is planned.
--
--
-- Consider the following code fragment of the SCHEDULER object creation.
--
--
-- ZoneObject = ZONE:New( "ZoneName" )
-- MasterObject = SCHEDULER:New( ZoneObject )
--
-- Several parameters can be specified that influence the behaviour of a Schedule.
--
--
-- Several parameters can be specified that influence the behavior of a Schedule.
--
-- ### A single schedule, immediately executed
--
--
-- SchedulerID = MasterObject:Schedule( ZoneObject, ScheduleFunction, {} )
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within milleseconds ...
--
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within milliseconds ...
--
-- ### A single schedule, planned over time
--
--
-- SchedulerID = MasterObject:Schedule( ZoneObject, ScheduleFunction, {}, 10 )
--
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within 10 seconds ...
--
--
-- ### A schedule with a repeating time interval, planned over time
--
--
-- SchedulerID = MasterObject:Schedule( ZoneObject, ScheduleFunction, {}, 10, 60 )
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within 10 seconds,
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within 10 seconds,
-- and repeating 60 every seconds ...
--
--
-- ### A schedule with a repeating time interval, planned over time, with time interval randomization
--
--
-- SchedulerID = MasterObject:Schedule( ZoneObject, ScheduleFunction, {}, 10, 60, 0.5 )
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within 10 seconds,
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within 10 seconds,
-- and repeating 60 seconds, with a 50% time interval randomization ...
-- So the repeating time interval will be randomized using the **0.5**,
-- and will calculate between **60 - ( 60 * 0.5 )** and **60 + ( 60 * 0.5 )** for each repeat,
-- So the repeating time interval will be randomized using the **0.5**,
-- and will calculate between **60 - ( 60 * 0.5 )** and **60 + ( 60 * 0.5 )** for each repeat,
-- which is in this example between **30** and **90** seconds.
--
--
-- ### A schedule with a repeating time interval, planned over time, with time interval randomization, and stop after a time interval
--
--
-- SchedulerID = MasterObject:Schedule( ZoneObject, ScheduleFunction, {}, 10, 60, 0.5, 300 )
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within 10 seconds,
--
-- The above example schedules a new ScheduleFunction call to be executed asynchronously, within 10 seconds,
-- The schedule will repeat every 60 seconds.
-- So the repeating time interval will be randomized using the **0.5**,
-- and will calculate between **60 - ( 60 * 0.5 )** and **60 + ( 60 * 0.5 )** for each repeat,
-- So the repeating time interval will be randomized using the **0.5**,
-- and will calculate between **60 - ( 60 * 0.5 )** and **60 + ( 60 * 0.5 )** for each repeat,
-- which is in this example between **30** and **90** seconds.
-- The schedule will stop after **300** seconds.
--
--
-- @field #SCHEDULER
SCHEDULER = {
ClassName = "SCHEDULER",
Schedules = {},
MasterObject = nil,
ShowTrace = nil,
ClassName = "SCHEDULER",
Schedules = {},
MasterObject = nil,
ShowTrace = nil,
}
--- SCHEDULER constructor.
@@ -211,15 +210,15 @@ SCHEDULER = {
-- @return #SCHEDULER self.
-- @return #table The ScheduleID of the planned schedule.
function SCHEDULER:New( MasterObject, SchedulerFunction, SchedulerArguments, Start, Repeat, RandomizeFactor, Stop )
local self = BASE:Inherit( self, BASE:New() ) -- #SCHEDULER
self:F2( { Start, Repeat, RandomizeFactor, Stop } )
local ScheduleID = nil
self.MasterObject = MasterObject
self.ShowTrace = false
if SchedulerFunction then
ScheduleID = self:Schedule( MasterObject, SchedulerFunction, SchedulerArguments, Start, Repeat, RandomizeFactor, Stop, 3 )
end
@@ -235,7 +234,7 @@ end
-- @param #number Start Specifies the amount of seconds that will be waited before the scheduling is started, and the event function is called.
-- @param #number Repeat Specifies the time interval in seconds when the scheduler will call the event function.
-- @param #number RandomizeFactor Specifies a randomization factor between 0 and 1 to randomize the Repeat.
-- @param #number Stop Time interval in seconds after which the scheduler will be stoppe.
-- @param #number Stop Time interval in seconds after which the scheduler will be stopped.
-- @param #number TraceLevel Trace level [0,3]. Default 3.
-- @param Core.Fsm#FSM Fsm Finite state model.
-- @return #table The ScheduleID of the planned schedule.
@@ -245,28 +244,27 @@ function SCHEDULER:Schedule( MasterObject, SchedulerFunction, SchedulerArguments
-- Debug info.
local ObjectName = "-"
if MasterObject and MasterObject.ClassName and MasterObject.ClassID then
if MasterObject and MasterObject.ClassName and MasterObject.ClassID then
ObjectName = MasterObject.ClassName .. MasterObject.ClassID
end
self:F3( { "Schedule :", ObjectName, tostring( MasterObject ), Start, Repeat, RandomizeFactor, Stop } )
self:F3( { "Schedule :", ObjectName, tostring( MasterObject ), Start, Repeat, RandomizeFactor, Stop } )
-- Set master object.
self.MasterObject = MasterObject
-- Add schedule.
local ScheduleID = _SCHEDULEDISPATCHER:AddSchedule(
self,
SchedulerFunction,
SchedulerArguments,
Start,
Repeat,
RandomizeFactor,
Stop,
TraceLevel or 3,
Fsm
)
self.Schedules[#self.Schedules+1] = ScheduleID
local ScheduleID = _SCHEDULEDISPATCHER:AddSchedule( self,
SchedulerFunction,
SchedulerArguments,
Start,
Repeat,
RandomizeFactor,
Stop,
TraceLevel or 3,
Fsm
)
self.Schedules[#self.Schedules + 1] = ScheduleID
return ScheduleID
end
@@ -276,7 +274,7 @@ end
-- @param #string ScheduleID (Optional) The ScheduleID of the planned (repeating) schedule.
function SCHEDULER:Start( ScheduleID )
self:F3( { ScheduleID } )
self:T(string.format("Starting scheduler ID=%s", tostring(ScheduleID)))
self:T( string.format( "Starting scheduler ID=%s", tostring( ScheduleID ) ) )
_SCHEDULEDISPATCHER:Start( self, ScheduleID )
end
@@ -285,7 +283,7 @@ end
-- @param #string ScheduleID (Optional) The ScheduleID of the planned (repeating) schedule.
function SCHEDULER:Stop( ScheduleID )
self:F3( { ScheduleID } )
self:T(string.format("Stopping scheduler ID=%s", tostring(ScheduleID)))
self:T( string.format( "Stopping scheduler ID=%s", tostring( ScheduleID ) ) )
_SCHEDULEDISPATCHER:Stop( self, ScheduleID )
end
@@ -294,15 +292,15 @@ end
-- @param #string ScheduleID (optional) The ScheduleID of the planned (repeating) schedule.
function SCHEDULER:Remove( ScheduleID )
self:F3( { ScheduleID } )
self:T(string.format("Removing scheduler ID=%s", tostring(ScheduleID)))
self:T( string.format( "Removing scheduler ID=%s", tostring( ScheduleID ) ) )
_SCHEDULEDISPATCHER:RemoveSchedule( self, ScheduleID )
end
--- Clears all pending schedules.
-- @param #SCHEDULER self
function SCHEDULER:Clear()
self:F3( )
self:T(string.format("Clearing scheduler"))
self:F3()
self:T( string.format( "Clearing scheduler" ) )
_SCHEDULEDISPATCHER:Clear( self )
end

1672
Moose Development/Moose/Core/Set.lua
View File

File diff suppressed because it is too large Load Diff

235
Moose Development/Moose/Core/Settings.lua
View File

@@ -29,15 +29,14 @@
-- @module Core.Settings
-- @image Core_Settings.JPG
--- @type SETTINGS
-- @extends Core.Base#BASE
--- Takes care of various settings that influence the behaviour of certain functionalities and classes within the MOOSE framework.
--- Takes care of various settings that influence the behavior of certain functionalities and classes within the MOOSE framework.
--
-- ===
--
-- The SETTINGS class takes care of various settings that influence the behaviour of certain functionalities and classes within the MOOSE framework.
-- The SETTINGS class takes care of various settings that influence the behavior of certain functionalities and classes within the MOOSE framework.
-- SETTINGS can work on 2 levels:
--
-- - **Default settings**: A running mission has **Default settings**.
@@ -59,7 +58,7 @@
--
-- A menu is created automatically per Command Center that allows to modify the **Default** settings.
-- So, when joining a CC unit, a menu will be available that allows to change the settings parameters **FOR ALL THE PLAYERS**!
-- Note that the **Default settings** will only be used when a player has not choosen its own settings.
-- Note that the **Default settings** will only be used when a player has not chosen its own settings.
--
-- ## 2.2) Player settings menu
--
@@ -69,7 +68,7 @@
--
-- ## 2.3) Show or Hide the Player Setting menus
--
-- Of course, it may be requried not to show any setting menus. In this case, a method is available on the **\_SETTINGS object**.
-- Of course, it may be required not to show any setting menus. In this case, a method is available on the **\_SETTINGS object**.
-- Use @{#SETTINGS.SetPlayerMenuOff}() to hide the player menus, and use @{#SETTINGS.SetPlayerMenuOn}() show the player menus.
-- Note that when this method is used, any player already in a slot will not have its menus visibility changed.
-- The option will only have effect when a player enters a new slot or changes a slot.
@@ -94,8 +93,8 @@
--
-- - A2G BR: [Bearing Range](https://en.wikipedia.org/wiki/Bearing_(navigation)).
-- - A2G MGRS: The [Military Grid Reference System](https://en.wikipedia.org/wiki/Military_Grid_Reference_System). The accuracy can also be adapted.
-- - A2G LL DMS: Lattitude Longitude [Degrees Minutes Seconds](https://en.wikipedia.org/wiki/Geographic_coordinate_conversion). The accuracy can also be adapted.
-- - A2G LL DDM: Lattitude Longitude [Decimal Degrees Minutes](https://en.wikipedia.org/wiki/Decimal_degrees). The accuracy can also be adapted.
-- - A2G LL DMS: Latitude Longitude [Degrees Minutes Seconds](https://en.wikipedia.org/wiki/Geographic_coordinate_conversion). The accuracy can also be adapted.
-- - A2G LL DDM: Latitude Longitude [Decimal Degrees Minutes](https://en.wikipedia.org/wiki/Decimal_degrees). The accuracy can also be adapted.
--
-- ### 3.1.2) A2G coordinates setting **menu**
--
@@ -183,7 +182,7 @@
-- The settings can be changed by using the **Default settings menu** on the Command Center or the **Player settings menu** on the Player Slot.
--
-- Each Message Type has specific timings that will be applied when the message is displayed.
-- The Settings Menu will provide for each Message Type a selection of proposed durations from which can be choosen.
-- The Settings Menu will provide for each Message Type a selection of proposed durations from which can be chosen.
-- So the player can choose its own amount of seconds how long a message should be displayed of a certain type.
-- Note that **Update** messages can be chosen not to be displayed at all!
--
@@ -196,7 +195,7 @@
--
-- ## 3.5) **Era** of the battle
--
-- The threat level metric is scaled according the era of the battle. A target that is AAA, will pose a much greather threat in WWII than on modern warfare.
-- The threat level metric is scaled according the era of the battle. A target that is AAA, will pose a much greater threat in WWII than on modern warfare.
-- Therefore, there are 4 era that are defined within the settings:
--
-- - **WWII** era: Use for warfare with equipment during the world war II time.
@@ -213,8 +212,8 @@
SETTINGS = {
ClassName = "SETTINGS",
ShowPlayerMenu = true,
MenuShort = false,
MenuStatic = false,
MenuShort = false,
MenuStatic = false,
}
SETTINGS.__Enum = {}
@@ -231,7 +230,6 @@ SETTINGS.__Enum.Era = {
Modern = 4,
}
do -- SETTINGS
--- SETTINGS constructor.
@@ -268,14 +266,14 @@ do -- SETTINGS
-- Short text are better suited for, e.g., VR.
-- @param #SETTINGS self
-- @param #boolean onoff If *true* use short menu texts. If *false* long ones (default).
function SETTINGS:SetMenutextShort(onoff)
function SETTINGS:SetMenutextShort( onoff )
_SETTINGS.MenuShort = onoff
end
--- Set menu to be static.
-- @param #SETTINGS self
-- @param #boolean onoff If *true* menu is static. If *false* menu will be updated after changes (default).
function SETTINGS:SetMenuStatic(onoff)
function SETTINGS:SetMenuStatic( onoff )
_SETTINGS.MenuStatic = onoff
end
@@ -289,7 +287,7 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if metric.
function SETTINGS:IsMetric()
return ( self.Metric ~= nil and self.Metric == true ) or ( self.Metric == nil and _SETTINGS:IsMetric() )
return (self.Metric ~= nil and self.Metric == true) or (self.Metric == nil and _SETTINGS:IsMetric())
end
--- Sets the SETTINGS imperial.
@@ -302,7 +300,7 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if imperial.
function SETTINGS:IsImperial()
return ( self.Metric ~= nil and self.Metric == false ) or ( self.Metric == nil and _SETTINGS:IsMetric() )
return (self.Metric ~= nil and self.Metric == false) or (self.Metric == nil and _SETTINGS:IsMetric())
end
--- Sets the SETTINGS LL accuracy.
@@ -344,13 +342,12 @@ do -- SETTINGS
self.MessageTypeTimings[MessageType] = MessageTime
end
--- Gets the SETTINGS Message Display Timing of a MessageType
-- @param #SETTINGS self
-- @param Core.Message#MESSAGE MessageType The type of the message.
-- @return #number
function SETTINGS:GetMessageTime( MessageType )
return ( self.MessageTypeTimings and self.MessageTypeTimings[MessageType] ) or _SETTINGS:GetMessageTime( MessageType )
return (self.MessageTypeTimings and self.MessageTypeTimings[MessageType]) or _SETTINGS:GetMessageTime( MessageType )
end
--- Sets A2G LL DMS
@@ -371,14 +368,14 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if LL DMS
function SETTINGS:IsA2G_LL_DMS()
return ( self.A2GSystem and self.A2GSystem == "LL DMS" ) or ( not self.A2GSystem and _SETTINGS:IsA2G_LL_DMS() )
return (self.A2GSystem and self.A2GSystem == "LL DMS") or (not self.A2GSystem and _SETTINGS:IsA2G_LL_DMS())
end
--- Is LL DDM
-- @param #SETTINGS self
-- @return #boolean true if LL DDM
function SETTINGS:IsA2G_LL_DDM()
return ( self.A2GSystem and self.A2GSystem == "LL DDM" ) or ( not self.A2GSystem and _SETTINGS:IsA2G_LL_DDM() )
return (self.A2GSystem and self.A2GSystem == "LL DDM") or (not self.A2GSystem and _SETTINGS:IsA2G_LL_DDM())
end
--- Sets A2G MGRS
@@ -392,7 +389,7 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if MGRS
function SETTINGS:IsA2G_MGRS()
return ( self.A2GSystem and self.A2GSystem == "MGRS" ) or ( not self.A2GSystem and _SETTINGS:IsA2G_MGRS() )
return (self.A2GSystem and self.A2GSystem == "MGRS") or (not self.A2GSystem and _SETTINGS:IsA2G_MGRS())
end
--- Sets A2G BRA
@@ -406,7 +403,7 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if BRA
function SETTINGS:IsA2G_BR()
return ( self.A2GSystem and self.A2GSystem == "BR" ) or ( not self.A2GSystem and _SETTINGS:IsA2G_BR() )
return (self.A2GSystem and self.A2GSystem == "BR") or (not self.A2GSystem and _SETTINGS:IsA2G_BR())
end
--- Sets A2A BRA
@@ -420,7 +417,7 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if BRA
function SETTINGS:IsA2A_BRAA()
return ( self.A2ASystem and self.A2ASystem == "BRAA" ) or ( not self.A2ASystem and _SETTINGS:IsA2A_BRAA() )
return (self.A2ASystem and self.A2ASystem == "BRAA") or (not self.A2ASystem and _SETTINGS:IsA2A_BRAA())
end
--- Sets A2A BULLS
@@ -434,7 +431,7 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if BULLS
function SETTINGS:IsA2A_BULLS()
return ( self.A2ASystem and self.A2ASystem == "BULLS" ) or ( not self.A2ASystem and _SETTINGS:IsA2A_BULLS() )
return (self.A2ASystem and self.A2ASystem == "BULLS") or (not self.A2ASystem and _SETTINGS:IsA2A_BULLS())
end
--- Sets A2A LL DMS
@@ -455,14 +452,14 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if LL DMS
function SETTINGS:IsA2A_LL_DMS()
return ( self.A2ASystem and self.A2ASystem == "LL DMS" ) or ( not self.A2ASystem and _SETTINGS:IsA2A_LL_DMS() )
return (self.A2ASystem and self.A2ASystem == "LL DMS") or (not self.A2ASystem and _SETTINGS:IsA2A_LL_DMS())
end
--- Is LL DDM
-- @param #SETTINGS self
-- @return #boolean true if LL DDM
function SETTINGS:IsA2A_LL_DDM()
return ( self.A2ASystem and self.A2ASystem == "LL DDM" ) or ( not self.A2ASystem and _SETTINGS:IsA2A_LL_DDM() )
return (self.A2ASystem and self.A2ASystem == "LL DDM") or (not self.A2ASystem and _SETTINGS:IsA2A_LL_DDM())
end
--- Sets A2A MGRS
@@ -476,7 +473,7 @@ do -- SETTINGS
-- @param #SETTINGS self
-- @return #boolean true if MGRS
function SETTINGS:IsA2A_MGRS()
return ( self.A2ASystem and self.A2ASystem == "MGRS" ) or ( not self.A2ASystem and _SETTINGS:IsA2A_MGRS() )
return (self.A2ASystem and self.A2ASystem == "MGRS") or (not self.A2ASystem and _SETTINGS:IsA2A_MGRS())
end
--- @param #SETTINGS self
@@ -495,37 +492,37 @@ do -- SETTINGS
-- A2G Coordinate System
-------
local text="A2G Coordinate System"
local text = "A2G Coordinate System"
if _SETTINGS.MenuShort then
text="A2G Coordinates"
text = "A2G Coordinates"
end
local A2GCoordinateMenu = MENU_GROUP:New( MenuGroup, text, SettingsMenu ):SetTime( MenuTime )
-- Set LL DMS
if not self:IsA2G_LL_DMS() then
local text="Lat/Lon Degree Min Sec (LL DMS)"
local text = "Lat/Lon Degree Min Sec (LL DMS)"
if _SETTINGS.MenuShort then
text="LL DMS"
text = "LL DMS"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, A2GCoordinateMenu, self.A2GMenuSystem, self, MenuGroup, RootMenu, "LL DMS" ):SetTime( MenuTime )
end
-- Set LL DDM
if not self:IsA2G_LL_DDM() then
local text="Lat/Lon Degree Dec Min (LL DDM)"
local text = "Lat/Lon Degree Dec Min (LL DDM)"
if _SETTINGS.MenuShort then
text="LL DDM"
text = "LL DDM"
end
MENU_GROUP_COMMAND:New( MenuGroup, "Lat/Lon Degree Dec Min (LL DDM)", A2GCoordinateMenu, self.A2GMenuSystem, self, MenuGroup, RootMenu, "LL DDM" ):SetTime( MenuTime )
end
-- Set LL DMS accuracy.
if self:IsA2G_LL_DDM() then
local text1="LL DDM Accuracy 1"
local text2="LL DDM Accuracy 2"
local text3="LL DDM Accuracy 3"
local text1 = "LL DDM Accuracy 1"
local text2 = "LL DDM Accuracy 2"
local text3 = "LL DDM Accuracy 3"
if _SETTINGS.MenuShort then
text1="LL DDM"
text1 = "LL DDM"
end
MENU_GROUP_COMMAND:New( MenuGroup, "LL DDM Accuracy 1", A2GCoordinateMenu, self.MenuLL_DDM_Accuracy, self, MenuGroup, RootMenu, 1 ):SetTime( MenuTime )
MENU_GROUP_COMMAND:New( MenuGroup, "LL DDM Accuracy 2", A2GCoordinateMenu, self.MenuLL_DDM_Accuracy, self, MenuGroup, RootMenu, 2 ):SetTime( MenuTime )
@@ -534,18 +531,18 @@ do -- SETTINGS
-- Set BR.
if not self:IsA2G_BR() then
local text="Bearing, Range (BR)"
local text = "Bearing, Range (BR)"
if _SETTINGS.MenuShort then
text="BR"
text = "BR"
end
MENU_GROUP_COMMAND:New( MenuGroup, text , A2GCoordinateMenu, self.A2GMenuSystem, self, MenuGroup, RootMenu, "BR" ):SetTime( MenuTime )
MENU_GROUP_COMMAND:New( MenuGroup, text, A2GCoordinateMenu, self.A2GMenuSystem, self, MenuGroup, RootMenu, "BR" ):SetTime( MenuTime )
end
-- Set MGRS.
if not self:IsA2G_MGRS() then
local text="Military Grid (MGRS)"
local text = "Military Grid (MGRS)"
if _SETTINGS.MenuShort then
text="MGRS"
text = "MGRS"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, A2GCoordinateMenu, self.A2GMenuSystem, self, MenuGroup, RootMenu, "MGRS" ):SetTime( MenuTime )
end
@@ -563,24 +560,24 @@ do -- SETTINGS
-- A2A Coordinate System
-------
local text="A2A Coordinate System"
local text = "A2A Coordinate System"
if _SETTINGS.MenuShort then
text="A2A Coordinates"
text = "A2A Coordinates"
end
local A2ACoordinateMenu = MENU_GROUP:New( MenuGroup, text, SettingsMenu ):SetTime( MenuTime )
if not self:IsA2A_LL_DMS() then
local text="Lat/Lon Degree Min Sec (LL DMS)"
local text = "Lat/Lon Degree Min Sec (LL DMS)"
if _SETTINGS.MenuShort then
text="LL DMS"
text = "LL DMS"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, A2ACoordinateMenu, self.A2AMenuSystem, self, MenuGroup, RootMenu, "LL DMS" ):SetTime( MenuTime )
end
if not self:IsA2A_LL_DDM() then
local text="Lat/Lon Degree Dec Min (LL DDM)"
local text = "Lat/Lon Degree Dec Min (LL DDM)"
if _SETTINGS.MenuShort then
text="LL DDM"
text = "LL DDM"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, A2ACoordinateMenu, self.A2AMenuSystem, self, MenuGroup, RootMenu, "LL DDM" ):SetTime( MenuTime )
end
@@ -593,25 +590,25 @@ do -- SETTINGS
end
if not self:IsA2A_BULLS() then
local text="Bullseye (BULLS)"
local text = "Bullseye (BULLS)"
if _SETTINGS.MenuShort then
text="Bulls"
text = "Bulls"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, A2ACoordinateMenu, self.A2AMenuSystem, self, MenuGroup, RootMenu, "BULLS" ):SetTime( MenuTime )
end
if not self:IsA2A_BRAA() then
local text="Bearing Range Altitude Aspect (BRAA)"
local text = "Bearing Range Altitude Aspect (BRAA)"
if _SETTINGS.MenuShort then
text="BRAA"
text = "BRAA"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, A2ACoordinateMenu, self.A2AMenuSystem, self, MenuGroup, RootMenu, "BRAA" ):SetTime( MenuTime )
end
if not self:IsA2A_MGRS() then
local text="Military Grid (MGRS)"
local text = "Military Grid (MGRS)"
if _SETTINGS.MenuShort then
text="MGRS"
text = "MGRS"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, A2ACoordinateMenu, self.A2AMenuSystem, self, MenuGroup, RootMenu, "MGRS" ):SetTime( MenuTime )
end
@@ -624,31 +621,31 @@ do -- SETTINGS
MENU_GROUP_COMMAND:New( MenuGroup, "MGRS Accuracy 5", A2ACoordinateMenu, self.MenuMGRS_Accuracy, self, MenuGroup, RootMenu, 5 ):SetTime( MenuTime )
end
local text="Measures and Weights System"
local text = "Measures and Weights System"
if _SETTINGS.MenuShort then
text="Unit System"
text = "Unit System"
end
local MetricsMenu = MENU_GROUP:New( MenuGroup, text, SettingsMenu ):SetTime( MenuTime )
if self:IsMetric() then
local text="Imperial (Miles,Feet)"
local text = "Imperial (Miles,Feet)"
if _SETTINGS.MenuShort then
text="Imperial"
text = "Imperial"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, MetricsMenu, self.MenuMWSystem, self, MenuGroup, RootMenu, false ):SetTime( MenuTime )
end
if self:IsImperial() then
local text="Metric (Kilometers,Meters)"
local text = "Metric (Kilometers,Meters)"
if _SETTINGS.MenuShort then
text="Metric"
text = "Metric"
end
MENU_GROUP_COMMAND:New( MenuGroup, text, MetricsMenu, self.MenuMWSystem, self, MenuGroup, RootMenu, true ):SetTime( MenuTime )
end
local text="Messages and Reports"
local text = "Messages and Reports"
if _SETTINGS.MenuShort then
text="Messages & Reports"
text = "Messages & Reports"
end
local MessagesMenu = MENU_GROUP:New( MenuGroup, text, SettingsMenu ):SetTime( MenuTime )
@@ -689,7 +686,6 @@ do -- SETTINGS
MENU_GROUP_COMMAND:New( MenuGroup, "2 minutes", DetailedReportsMenu, self.MenuMessageTimingsSystem, self, MenuGroup, RootMenu, MESSAGE.Type.DetailedReportsMenu, 120 ):SetTime( MenuTime )
MENU_GROUP_COMMAND:New( MenuGroup, "3 minutes", DetailedReportsMenu, self.MenuMessageTimingsSystem, self, MenuGroup, RootMenu, MESSAGE.Type.DetailedReportsMenu, 180 ):SetTime( MenuTime )
SettingsMenu:Remove( MenuTime )
return self
@@ -733,11 +729,11 @@ do -- SETTINGS
self.PlayerMenu = PlayerMenu
self:I(string.format("Setting menu for player %s", tostring(PlayerName)))
self:I( string.format( "Setting menu for player %s", tostring( PlayerName ) ) )
local submenu = MENU_GROUP:New( PlayerGroup, "LL Accuracy", PlayerMenu )
MENU_GROUP_COMMAND:New( PlayerGroup, "LL 0 Decimals", submenu, self.MenuGroupLL_DDM_AccuracySystem, self, PlayerUnit, PlayerGroup, PlayerName, 0 )
MENU_GROUP_COMMAND:New( PlayerGroup, "LL 1 Decimal", submenu, self.MenuGroupLL_DDM_AccuracySystem, self, PlayerUnit, PlayerGroup, PlayerName, 1 )
MENU_GROUP_COMMAND:New( PlayerGroup, "LL 1 Decimal", submenu, self.MenuGroupLL_DDM_AccuracySystem, self, PlayerUnit, PlayerGroup, PlayerName, 1 )
MENU_GROUP_COMMAND:New( PlayerGroup, "LL 2 Decimals", submenu, self.MenuGroupLL_DDM_AccuracySystem, self, PlayerUnit, PlayerGroup, PlayerName, 2 )
MENU_GROUP_COMMAND:New( PlayerGroup, "LL 3 Decimals", submenu, self.MenuGroupLL_DDM_AccuracySystem, self, PlayerUnit, PlayerGroup, PlayerName, 3 )
MENU_GROUP_COMMAND:New( PlayerGroup, "LL 4 Decimals", submenu, self.MenuGroupLL_DDM_AccuracySystem, self, PlayerUnit, PlayerGroup, PlayerName, 4 )
@@ -754,40 +750,40 @@ do -- SETTINGS
-- A2G Coordinate System
------
local text="A2G Coordinate System"
local text = "A2G Coordinate System"
if _SETTINGS.MenuShort then
text="A2G Coordinates"
text = "A2G Coordinates"
end
local A2GCoordinateMenu = MENU_GROUP:New( PlayerGroup, text, PlayerMenu )
if not self:IsA2G_LL_DMS() or _SETTINGS.MenuStatic then
local text="Lat/Lon Degree Min Sec (LL DMS)"
local text = "Lat/Lon Degree Min Sec (LL DMS)"
if _SETTINGS.MenuShort then
text="A2G LL DMS"
text = "A2G LL DMS"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2GCoordinateMenu, self.MenuGroupA2GSystem, self, PlayerUnit, PlayerGroup, PlayerName, "LL DMS" )
end
if not self:IsA2G_LL_DDM() or _SETTINGS.MenuStatic then
local text="Lat/Lon Degree Dec Min (LL DDM)"
local text = "Lat/Lon Degree Dec Min (LL DDM)"
if _SETTINGS.MenuShort then
text="A2G LL DDM"
text = "A2G LL DDM"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2GCoordinateMenu, self.MenuGroupA2GSystem, self, PlayerUnit, PlayerGroup, PlayerName, "LL DDM" )
end
if not self:IsA2G_BR() or _SETTINGS.MenuStatic then
local text="Bearing, Range (BR)"
local text = "Bearing, Range (BR)"
if _SETTINGS.MenuShort then
text="A2G BR"
text = "A2G BR"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2GCoordinateMenu, self.MenuGroupA2GSystem, self, PlayerUnit, PlayerGroup, PlayerName, "BR" )
end
if not self:IsA2G_MGRS() or _SETTINGS.MenuStatic then
local text="Military Grid (MGRS)"
local text = "Military Grid (MGRS)"
if _SETTINGS.MenuShort then
text="A2G MGRS"
text = "A2G MGRS"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2GCoordinateMenu, self.MenuGroupA2GSystem, self, PlayerUnit, PlayerGroup, PlayerName, "MGRS" )
end
@@ -796,49 +792,48 @@ do -- SETTINGS
-- A2A Coordinates Menu
------
local text="A2A Coordinate System"
local text = "A2A Coordinate System"
if _SETTINGS.MenuShort then
text="A2A Coordinates"
text = "A2A Coordinates"
end
local A2ACoordinateMenu = MENU_GROUP:New( PlayerGroup, text, PlayerMenu )
if not self:IsA2A_LL_DMS() or _SETTINGS.MenuStatic then
local text="Lat/Lon Degree Min Sec (LL DMS)"
local text = "Lat/Lon Degree Min Sec (LL DMS)"
if _SETTINGS.MenuShort then
text="A2A LL DMS"
text = "A2A LL DMS"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2ACoordinateMenu, self.MenuGroupA2GSystem, self, PlayerUnit, PlayerGroup, PlayerName, "LL DMS" )
end
if not self:IsA2A_LL_DDM() or _SETTINGS.MenuStatic then
local text="Lat/Lon Degree Dec Min (LL DDM)"
local text = "Lat/Lon Degree Dec Min (LL DDM)"
if _SETTINGS.MenuShort then
text="A2A LL DDM"
text = "A2A LL DDM"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2ACoordinateMenu, self.MenuGroupA2ASystem, self, PlayerUnit, PlayerGroup, PlayerName, "LL DDM" )
end
if not self:IsA2A_BULLS() or _SETTINGS.MenuStatic then
local text="Bullseye (BULLS)"
local text = "Bullseye (BULLS)"
if _SETTINGS.MenuShort then
text="A2A BULLS"
text = "A2A BULLS"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2ACoordinateMenu, self.MenuGroupA2ASystem, self, PlayerUnit, PlayerGroup, PlayerName, "BULLS" )
end
if not self:IsA2A_BRAA() or _SETTINGS.MenuStatic then
local text="Bearing Range Altitude Aspect (BRAA)"
local text = "Bearing Range Altitude Aspect (BRAA)"
if _SETTINGS.MenuShort then
text="A2A BRAA"
text = "A2A BRAA"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2ACoordinateMenu, self.MenuGroupA2ASystem, self, PlayerUnit, PlayerGroup, PlayerName, "BRAA" )
end
if not self:IsA2A_MGRS() or _SETTINGS.MenuStatic then
local text="Military Grid (MGRS)"
local text = "Military Grid (MGRS)"
if _SETTINGS.MenuShort then
text="A2A MGRS"
text = "A2A MGRS"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, A2ACoordinateMenu, self.MenuGroupA2ASystem, self, PlayerUnit, PlayerGroup, PlayerName, "MGRS" )
end
@@ -847,24 +842,24 @@ do -- SETTINGS
-- Unit system
---
local text="Measures and Weights System"
local text = "Measures and Weights System"
if _SETTINGS.MenuShort then
text="Unit System"
text = "Unit System"
end
local MetricsMenu = MENU_GROUP:New( PlayerGroup, text, PlayerMenu )
if self:IsMetric() or _SETTINGS.MenuStatic then
local text="Imperial (Miles,Feet)"
local text = "Imperial (Miles,Feet)"
if _SETTINGS.MenuShort then
text="Imperial"
text = "Imperial"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, MetricsMenu, self.MenuGroupMWSystem, self, PlayerUnit, PlayerGroup, PlayerName, false )
end
if self:IsImperial() or _SETTINGS.MenuStatic then
local text="Metric (Kilometers,Meters)"
local text = "Metric (Kilometers,Meters)"
if _SETTINGS.MenuShort then
text="Metric"
text = "Metric"
end
MENU_GROUP_COMMAND:New( PlayerGroup, text, MetricsMenu, self.MenuGroupMWSystem, self, PlayerUnit, PlayerGroup, PlayerName, true )
end
@@ -873,9 +868,9 @@ do -- SETTINGS
-- Messages and Reports
---
local text="Messages and Reports"
local text = "Messages and Reports"
if _SETTINGS.MenuShort then
text="Messages & Reports"
text = "Messages & Reports"
end
local MessagesMenu = MENU_GROUP:New( PlayerGroup, text, PlayerMenu )
@@ -935,39 +930,38 @@ do -- SETTINGS
return self
end
--- @param #SETTINGS self
function SETTINGS:A2GMenuSystem( MenuGroup, RootMenu, A2GSystem )
self.A2GSystem = A2GSystem
MESSAGE:New( string.format("Settings: Default A2G coordinate system set to %s for all players!", A2GSystem ), 5 ):ToAll()
MESSAGE:New( string.format( "Settings: Default A2G coordinate system set to %s for all players!", A2GSystem ), 5 ):ToAll()
self:SetSystemMenu( MenuGroup, RootMenu )
end
--- @param #SETTINGS self
function SETTINGS:A2AMenuSystem( MenuGroup, RootMenu, A2ASystem )
self.A2ASystem = A2ASystem
MESSAGE:New( string.format("Settings: Default A2A coordinate system set to %s for all players!", A2ASystem ), 5 ):ToAll()
MESSAGE:New( string.format( "Settings: Default A2A coordinate system set to %s for all players!", A2ASystem ), 5 ):ToAll()
self:SetSystemMenu( MenuGroup, RootMenu )
end
--- @param #SETTINGS self
function SETTINGS:MenuLL_DDM_Accuracy( MenuGroup, RootMenu, LL_Accuracy )
self.LL_Accuracy = LL_Accuracy
MESSAGE:New( string.format("Settings: Default LL accuracy set to %s for all players!", LL_Accuracy ), 5 ):ToAll()
MESSAGE:New( string.format( "Settings: Default LL accuracy set to %s for all players!", LL_Accuracy ), 5 ):ToAll()
self:SetSystemMenu( MenuGroup, RootMenu )
end
--- @param #SETTINGS self
function SETTINGS:MenuMGRS_Accuracy( MenuGroup, RootMenu, MGRS_Accuracy )
self.MGRS_Accuracy = MGRS_Accuracy
MESSAGE:New( string.format("Settings: Default MGRS accuracy set to %s for all players!", MGRS_Accuracy ), 5 ):ToAll()
MESSAGE:New( string.format( "Settings: Default MGRS accuracy set to %s for all players!", MGRS_Accuracy ), 5 ):ToAll()
self:SetSystemMenu( MenuGroup, RootMenu )
end
--- @param #SETTINGS self
function SETTINGS:MenuMWSystem( MenuGroup, RootMenu, MW )
self.Metric = MW
MESSAGE:New( string.format("Settings: Default measurement format set to %s for all players!", MW and "Metric" or "Imperial" ), 5 ):ToAll()
MESSAGE:New( string.format( "Settings: Default measurement format set to %s for all players!", MW and "Metric" or "Imperial" ), 5 ):ToAll()
self:SetSystemMenu( MenuGroup, RootMenu )
end
@@ -980,12 +974,12 @@ do -- SETTINGS
do
--- @param #SETTINGS self
function SETTINGS:MenuGroupA2GSystem( PlayerUnit, PlayerGroup, PlayerName, A2GSystem )
BASE:E( {self, PlayerUnit:GetName(), A2GSystem} )
BASE:E( { self, PlayerUnit:GetName(), A2GSystem } )
self.A2GSystem = A2GSystem
MESSAGE:New( string.format( "Settings: A2G format set to %s for player %s.", A2GSystem, PlayerName ), 5 ):ToGroup( PlayerGroup )
if _SETTINGS.MenuStatic==false then
self:RemovePlayerMenu(PlayerUnit)
self:SetPlayerMenu(PlayerUnit)
if _SETTINGS.MenuStatic == false then
self:RemovePlayerMenu( PlayerUnit )
self:SetPlayerMenu( PlayerUnit )
end
end
@@ -993,9 +987,9 @@ do -- SETTINGS
function SETTINGS:MenuGroupA2ASystem( PlayerUnit, PlayerGroup, PlayerName, A2ASystem )
self.A2ASystem = A2ASystem
MESSAGE:New( string.format( "Settings: A2A format set to %s for player %s.", A2ASystem, PlayerName ), 5 ):ToGroup( PlayerGroup )
if _SETTINGS.MenuStatic==false then
self:RemovePlayerMenu(PlayerUnit)
self:SetPlayerMenu(PlayerUnit)
if _SETTINGS.MenuStatic == false then
self:RemovePlayerMenu( PlayerUnit )
self:SetPlayerMenu( PlayerUnit )
end
end
@@ -1003,9 +997,9 @@ do -- SETTINGS
function SETTINGS:MenuGroupLL_DDM_AccuracySystem( PlayerUnit, PlayerGroup, PlayerName, LL_Accuracy )
self.LL_Accuracy = LL_Accuracy
MESSAGE:New( string.format( "Settings: LL format accuracy set to %d decimal places for player %s.", LL_Accuracy, PlayerName ), 5 ):ToGroup( PlayerGroup )
if _SETTINGS.MenuStatic==false then
self:RemovePlayerMenu(PlayerUnit)
self:SetPlayerMenu(PlayerUnit)
if _SETTINGS.MenuStatic == false then
self:RemovePlayerMenu( PlayerUnit )
self:SetPlayerMenu( PlayerUnit )
end
end
@@ -1013,9 +1007,9 @@ do -- SETTINGS
function SETTINGS:MenuGroupMGRS_AccuracySystem( PlayerUnit, PlayerGroup, PlayerName, MGRS_Accuracy )
self.MGRS_Accuracy = MGRS_Accuracy
MESSAGE:New( string.format( "Settings: MGRS format accuracy set to %d for player %s.", MGRS_Accuracy, PlayerName ), 5 ):ToGroup( PlayerGroup )
if _SETTINGS.MenuStatic==false then
self:RemovePlayerMenu(PlayerUnit)
self:SetPlayerMenu(PlayerUnit)
if _SETTINGS.MenuStatic == false then
self:RemovePlayerMenu( PlayerUnit )
self:SetPlayerMenu( PlayerUnit )
end
end
@@ -1023,9 +1017,9 @@ do -- SETTINGS
function SETTINGS:MenuGroupMWSystem( PlayerUnit, PlayerGroup, PlayerName, MW )
self.Metric = MW
MESSAGE:New( string.format( "Settings: Measurement format set to %s for player %s.", MW and "Metric" or "Imperial", PlayerName ), 5 ):ToGroup( PlayerGroup )
if _SETTINGS.MenuStatic==false then
self:RemovePlayerMenu(PlayerUnit)
self:SetPlayerMenu(PlayerUnit)
if _SETTINGS.MenuStatic == false then
self:RemovePlayerMenu( PlayerUnit )
self:SetPlayerMenu( PlayerUnit )
end
end
@@ -1055,7 +1049,6 @@ do -- SETTINGS
end
--- Configures the era of the mission to be Cold war.
-- @param #SETTINGS self
-- @return #SETTINGS self
@@ -1065,7 +1058,6 @@ do -- SETTINGS
end
--- Configures the era of the mission to be Modern war.
-- @param #SETTINGS self
-- @return #SETTINGS self
@@ -1075,7 +1067,4 @@ do -- SETTINGS
end
end

2964
Moose Development/Moose/Core/Spawn.lua
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File diff suppressed because it is too large Load Diff

6
Moose Development/Moose/Functional/Fox.lua
View File

@@ -23,7 +23,6 @@
-- @module Functional.FOX
-- @image Functional_FOX.png
--- FOX class.
-- @type FOX
-- @field #string ClassName Name of the class.
@@ -47,8 +46,7 @@
-- @field #number dt10 Time step [sec] for missile position updates if distance to target > 10 km and < 50 km. Default 1 sec.
-- @field #number dt05 Time step [sec] for missile position updates if distance to target > 5 km and < 10 km. Default 0.5 sec.
-- @field #number dt01 Time step [sec] for missile position updates if distance to target > 1 km and < 5 km. Default 0.1 sec.
-- @field #number dt00 Time step [sec] for missile position updates if distance to target < 1 km. Default 0.01 sec.
-- @field #boolean
-- @field #number dt00 Time step [sec] for missile position updates if distance to target < 1 km. Default 0.01 sec.
-- @extends Core.Fsm#FSM
--- Fox 3!
@@ -1813,4 +1811,4 @@ end
---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

510
Moose Development/Moose/Functional/Mantis.lua
View File

File diff suppressed because it is too large Load Diff

2
Moose Development/Moose/Functional/PseudoATC.lua
View File

@@ -742,7 +742,7 @@ function PSEUDOATC:ReportWeather(GID, UID, position, location)
local T=position:GetTemperature()
-- Correct unit system.
local _T=string.format('%d°F', UTILS.CelciusToFarenheit(T))
local _T=string.format('%d°F', UTILS.CelsiusToFahrenheit(T))
if settings:IsMetric() then
_T=string.format('%d°C', T)
end

2495
Moose Development/Moose/Functional/Range.lua
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File diff suppressed because it is too large Load Diff

236
Moose Development/Moose/Functional/Sead.lua
View File

@@ -1,56 +1,64 @@
--- **Functional** -- Make SAM sites execute evasive and defensive behaviour when being fired upon.
--
--
-- ===
--
--
-- ## Features:
--
--
-- * When SAM sites are being fired upon, the SAMs will take evasive action will reposition themselves when possible.
-- * When SAM sites are being fired upon, the SAMs will take defensive action by shutting down their radars.
--
-- * SEAD calculates the time it takes for a HARM to reach the target - and will attempt to minimize the shut-down time.
-- * Detection and evasion of shots has a random component based on the skill level of the SAM groups.
--
-- ===
--
--
-- ## Missions:
--
--
-- [SEV - SEAD Evasion](https://github.com/FlightControl-Master/MOOSE_MISSIONS/tree/master/SEV%20-%20SEAD%20Evasion)
--
--
-- ===
--
--
-- ### Authors: **FlightControl**, **applevangelist**
--
-- Last Update: Aug 2021
--
--
-- Last Update: Nov 2021
--
-- ===
--
--
-- @module Functional.Sead
-- @image SEAD.JPG
---
---
-- @type SEAD
-- @extends Core.Base#BASE
--- Make SAM sites execute evasive and defensive behaviour when being fired upon.
--
--
-- This class is very easy to use. Just setup a SEAD object by using @{#SEAD.New}() and SAMs will evade and take defensive action when being fired upon.
-- Once a HARM attack is detected, SEAD will shut down the radars of the attacked SAM site and take evasive action by moving the SAM
-- vehicles around (*if* they are drivable, that is). There's a component of randomness in detection and evasion, which is based on the
-- skill set of the SAM set (the higher the skill, the more likely). When a missile is fired from far away, the SAM will stay active for a
-- period of time to stay defensive, before it takes evasive actions.
--
-- # Constructor:
--
--
-- Use the @{#SEAD.New}() constructor to create a new SEAD object.
--
--
-- SEAD_RU_SAM_Defenses = SEAD:New( { 'RU SA-6 Kub', 'RU SA-6 Defenses', 'RU MI-26 Troops', 'RU Attack Gori' } )
--
--
-- @field #SEAD
SEAD = {
ClassName = "SEAD",
ClassName = "SEAD",
TargetSkill = {
Average = { Evade = 30, DelayOn = { 40, 60 } } ,
Good = { Evade = 20, DelayOn = { 30, 50 } } ,
High = { Evade = 15, DelayOn = { 20, 40 } } ,
Excellent = { Evade = 10, DelayOn = { 10, 30 } }
},
Excellent = { Evade = 10, DelayOn = { 10, 30 } }
},
SEADGroupPrefixes = {},
SuppressedGroups = {},
EngagementRange = 75, -- default 75% engagement range Feature Request #1355
Padding = 10,
CallBack = nil,
UseCallBack = false,
}
--- Missile enumerators
@@ -69,7 +77,7 @@ SEAD = {
["X_31"] = "X_31",
["Kh25"] = "Kh25",
}
--- Missile enumerators - from DCS ME and Wikipedia
-- @field HarmData
SEAD.HarmData = {
@@ -86,14 +94,14 @@ SEAD = {
["X_31"] = {150, 3},
["Kh25"] = {25, 0.8},
}
--- Creates the main object which is handling defensive actions for SA sites or moving SA vehicles.
-- When an anti radiation missile is fired (KH-58, KH-31P, KH-31A, KH-25MPU, HARM missiles), the SA will shut down their radars and will take evasive actions...
-- Chances are big that the missile will miss.
-- @param #SEAD self
-- @param #table SEADGroupPrefixes Table of #string entries or single #string, which is a table of Prefixes of the SA Groups in the DCS mission editor on which evasive actions need to be taken.
-- @param #number Padding (Optional) Extra number of seconds to add to radar switch-back-on time
-- @return SEAD
-- @return #SEAD self
-- @usage
-- -- CCCP SEAD Defenses
-- -- Defends the Russian SA installations from SEAD attacks.
@@ -102,7 +110,7 @@ function SEAD:New( SEADGroupPrefixes, Padding )
local self = BASE:Inherit( self, BASE:New() )
self:F( SEADGroupPrefixes )
if type( SEADGroupPrefixes ) == 'table' then
for SEADGroupPrefixID, SEADGroupPrefix in pairs( SEADGroupPrefixes ) do
self.SEADGroupPrefixes[SEADGroupPrefix] = SEADGroupPrefix
@@ -110,25 +118,29 @@ function SEAD:New( SEADGroupPrefixes, Padding )
else
self.SEADGroupPrefixes[SEADGroupPrefixes] = SEADGroupPrefixes
end
local padding = Padding or 10
if padding < 10 then padding = 10 end
self.Padding = padding
self.UseEmissionsOnOff = false
self.CallBack = nil
self.UseCallBack = false
self:HandleEvent( EVENTS.Shot, self.HandleEventShot )
self:I("*** SEAD - Started Version 0.3.1")
self:I("*** SEAD - Started Version 0.3.3")
return self
end
--- Update the active SEAD Set
--- Update the active SEAD Set (while running)
-- @param #SEAD self
-- @param #table SEADGroupPrefixes The prefixes to add, note: can also be a single #string
-- @return #SEAD self
function SEAD:UpdateSet( SEADGroupPrefixes )
self:T( SEADGroupPrefixes )
if type( SEADGroupPrefixes ) == 'table' then
for SEADGroupPrefixID, SEADGroupPrefix in pairs( SEADGroupPrefixes ) do
self.SEADGroupPrefixes[SEADGroupPrefix] = SEADGroupPrefix
@@ -142,8 +154,8 @@ end
--- Sets the engagement range of the SAMs. Defaults to 75% to make it more deadly. Feature Request #1355
-- @param #SEAD self
-- @param #number range Set the engagement range in percent, e.g. 50
-- @return self
-- @param #number range Set the engagement range in percent, e.g. 55 (default 75)
-- @return #SEAD self
function SEAD:SetEngagementRange(range)
self:T( { range } )
range = range or 75
@@ -157,7 +169,8 @@ end
--- Set the padding in seconds, which extends the radar off time calculated by SEAD
-- @param #SEAD self
-- @param #number Padding Extra number of seconds to add for the switch-on
-- @param #number Padding Extra number of seconds to add for the switch-on (default 10 seconds)
-- @return #SEAD self
function SEAD:SetPadding(Padding)
self:T( { Padding } )
local padding = Padding or 10
@@ -166,56 +179,80 @@ function SEAD:SetPadding(Padding)
return self
end
--- Check if a known HARM was fired
-- @param #SEAD self
-- @param #string WeaponName
-- @return #boolean Returns true for a match
-- @return #string name Name of hit in table
function SEAD:_CheckHarms(WeaponName)
self:T( { WeaponName } )
local hit = false
local name = ""
for _,_name in pairs (SEAD.Harms) do
if string.find(WeaponName,_name,1) then
hit = true
name = _name
break
end
end
return hit, name
end
--- Set SEAD to use emissions on/off in addition to alarm state.
-- @param #SEAD self
-- @param #boolean Switch True for on, false for off.
-- @return #SEAD self
function SEAD:SwitchEmissions(Switch)
self:T({Switch})
self.UseEmissionsOnOff = Switch
return self
end
--- (Internal) Return distance in meters between two coordinates or -1 on error.
-- @param #SEAD self
-- @param Core.Point#COORDINATE _point1 Coordinate one
-- @param Core.Point#COORDINATE _point2 Coordinate two
-- @return #number Distance in meters
function SEAD:_GetDistance(_point1, _point2)
self:T("_GetDistance")
if _point1 and _point2 then
local distance1 = _point1:Get2DDistance(_point2)
local distance2 = _point1:DistanceFromPointVec2(_point2)
--self:T({dist1=distance1, dist2=distance2})
if distance1 and type(distance1) == "number" then
return distance1
elseif distance2 and type(distance2) == "number" then
return distance2
else
self:E("*****Cannot calculate distance!")
self:E({_point1,_point2})
return -1
--- Add an object to call back when going evasive.
-- @param #SEAD self
-- @param #table Object The object to call. Needs to have object functions as follows:
-- `:SeadSuppressionPlanned(Group, Name, SuppressionStartTime, SuppressionEndTime)`
-- `:SeadSuppressionStart(Group, Name)`,
-- `:SeadSuppressionEnd(Group, Name)`,
-- @return #SEAD self
function SEAD:AddCallBack(Object)
self:T({Class=Object.ClassName})
self.CallBack = Object
self.UseCallBack = true
return self
end
--- (Internal) Check if a known HARM was fired
-- @param #SEAD self
-- @param #string WeaponName
-- @return #boolean Returns true for a match
-- @return #string name Name of hit in table
function SEAD:_CheckHarms(WeaponName)
self:T( { WeaponName } )
local hit = false
local name = ""
for _,_name in pairs (SEAD.Harms) do
if string.find(WeaponName,_name,1) then
hit = true
name = _name
break
end
end
return hit, name
end
--- (Internal) Return distance in meters between two coordinates or -1 on error.
-- @param #SEAD self
-- @param Core.Point#COORDINATE _point1 Coordinate one
-- @param Core.Point#COORDINATE _point2 Coordinate two
-- @return #number Distance in meters
function SEAD:_GetDistance(_point1, _point2)
self:T("_GetDistance")
if _point1 and _point2 then
local distance1 = _point1:Get2DDistance(_point2)
local distance2 = _point1:DistanceFromPointVec2(_point2)
--self:T({dist1=distance1, dist2=distance2})
if distance1 and type(distance1) == "number" then
return distance1
elseif distance2 and type(distance2) == "number" then
return distance2
else
self:E("******Cannot calculate distance!")
self:E("*****Cannot calculate distance!")
self:E({_point1,_point2})
return -1
end
else
self:E("******Cannot calculate distance!")
self:E({_point1,_point2})
return -1
end
--- Detects if an SAM site was shot with an anti radiation missile. In this case, take evasive actions based on the skill level set within the ME.
-- @see SEAD
-- @param #SEAD
end
--- (Internal) Detects if an SAM site was shot with an anti radiation missile. In this case, take evasive actions based on the skill level set within the ME.
-- @param #SEAD self
-- @param Core.Event#EVENTDATA EventData
-- @return #SEAD self
function SEAD:HandleEventShot( EventData )
self:T( { EventData.id } )
local SEADPlane = EventData.IniUnit -- Wrapper.Unit#UNIT
@@ -227,7 +264,7 @@ function SEAD:HandleEventShot( EventData )
self:T( "*** SEAD - Missile Launched = " .. SEADWeaponName)
--self:T({ SEADWeapon })
if self:_CheckHarms(SEADWeaponName) then
self:T( '*** SEAD - Weapon Match' )
local _targetskill = "Random"
@@ -245,13 +282,13 @@ function SEAD:HandleEventShot( EventData )
-- see if we are shot at
local SEADGroupFound = false
for SEADGroupPrefixID, SEADGroupPrefix in pairs( self.SEADGroupPrefixes ) do
self:T( SEADGroupPrefix )
self:T( _targetgroupname, SEADGroupPrefix )
if string.find( _targetgroupname, SEADGroupPrefix, 1, true ) then
SEADGroupFound = true
self:T( '*** SEAD - Group Match Found' )
break
end
end
end
if SEADGroupFound == true then -- yes we are being attacked
if _targetskill == "Random" then -- when skill is random, choose a skill
local Skills = { "Average", "Good", "High", "Excellent" }
@@ -282,45 +319,66 @@ function SEAD:HandleEventShot( EventData )
else
_distance = 0
end
self:T( string.format("*** SEAD - target skill %s, distance %dkm, reach %dkm, tti %dsec", _targetskill, _distance,reach,_tti ))
if reach >= _distance then
self:T("*** SEAD - Shot in Reach")
local function SuppressionStart(args)
self:T(string.format("*** SEAD - %s Radar Off & Relocating",args[2]))
local grp = args[1] -- Wrapper.Group#GROUP
grp:OptionAlarmStateGreen()
local name = args[2] -- #string Group Name
if self.UseEmissionsOnOff then
grp:EnableEmission(false)
end
grp:OptionAlarmStateGreen() -- needed else we cannot move around
grp:RelocateGroundRandomInRadius(20,300,false,false,"Diamond")
if self.UseCallBack then
local object = self.CallBack
object:SeadSuppressionStart(grp,name)
end
end
local function SuppressionStop(args)
self:T(string.format("*** SEAD - %s Radar On",args[2]))
local grp = args[1] -- Wrapper.Group#GROUP
grp:OptionAlarmStateRed()
local name = args[2] -- #string Group Nam
if self.UseEmissionsOnOff then
grp:EnableEmission(true)
end
grp:OptionAlarmStateAuto()
grp:OptionEngageRange(self.EngagementRange)
self.SuppressedGroups[args[2]] = false
self.SuppressedGroups[name] = false
if self.UseCallBack then
local object = self.CallBack
object:SeadSuppressionEnd(grp,name)
end
end
-- randomize switch-on time
local delay = math.random(self.TargetSkill[_targetskill].DelayOn[1], self.TargetSkill[_targetskill].DelayOn[2])
if delay > _tti then delay = delay / 2 end -- speed up
if _tti > (3*delay) then delay = (_tti / 2) * 0.9 end -- shot from afar
local SuppressionStartTime = timer.getTime() + delay
local SuppressionStartTime = timer.getTime() + delay
local SuppressionEndTime = timer.getTime() + _tti + self.Padding
if not self.SuppressedGroups[_targetgroupname] then
self:T(string.format("*** SEAD - %s | Parameters TTI %ds | Switch-Off in %ds",_targetgroupname,_tti,delay))
timer.scheduleFunction(SuppressionStart,{_targetgroup,_targetgroupname},SuppressionStartTime)
timer.scheduleFunction(SuppressionStop,{_targetgroup,_targetgroupname},SuppressionEndTime)
self.SuppressedGroups[_targetgroupname] = true
if self.UseCallBack then
local object = self.CallBack
object:SeadSuppressionPlanned(_targetgroup,_targetgroupname,SuppressionStartTime,SuppressionEndTime)
end
end
end
end
end
end
end
return self
end

2
Moose Development/Moose/Functional/Warehouse.lua
View File

@@ -1601,7 +1601,7 @@ WAREHOUSE = {
-- @field #number range Range of the unit in meters.
-- @field #number speedmax Maximum speed in km/h the group can do.
-- @field #number size Maximum size in length and with of the asset in meters.
-- @field #number weight The weight of the whole asset group in kilo gramms.
-- @field #number weight The weight of the whole asset group in kilograms.
-- @field DCS#Object.Desc DCSdesc All DCS descriptors.
-- @field #WAREHOUSE.Attribute attribute Generalized attribute of the group.
-- @field #table cargobay Array of cargo bays of all units in an asset group.

1788
Moose Development/Moose/Ops/ATIS.lua
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12316
Moose Development/Moose/Ops/Airboss.lua
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1944
Moose Development/Moose/Ops/CSAR.lua
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6492
Moose Development/Moose/Ops/CTLD.lua
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2
Moose Development/Moose/Ops/RescueHelo.lua
View File

@@ -802,7 +802,7 @@ function RESCUEHELO:_OnEventCrashOrEject(EventData)
-- Debug.
local text=string.format("Unit %s crashed or ejected.", unitname)
MESSAGE:New(text, 10, "DEBUG"):ToAllIf(self.Debug)
self:I(self.lid..text)
self:T(self.lid..text)
-- Get coordinate of unit.
local coord=unit:GetCoordinate()

11
Moose Development/Moose/Sound/SRS.lua
View File

@@ -88,10 +88,19 @@
--
-- Use a specific "culture" with the @{#MSRS.SetCulture} function, e.g. `:SetCulture("en-US")` or `:SetCulture("de-DE")`.
--
-- ## Set Google
--
-- Use Google's text-to-speech engine with the @{#MSRS.SetGoogle} function, e.g. ':SetGoogle()'.
-- By enabling this it also allows you to utilize SSML in your text for added flexibilty.
-- For more information on setting up a cloud account, visit: https://cloud.google.com/text-to-speech
-- Google's supported SSML reference: https://cloud.google.com/text-to-speech/docs/ssml
--
-- ## Set Voice
--
-- Use a specifc voice with the @{#MSRS.SetVoice} function, e.g, `:SetVoice("Microsoft Hedda Desktop")`.
-- Note that this must be installed on your windows system.
-- If enabling SetGoogle(), you can use voices provided by Google
-- Google's supported voices: https://cloud.google.com/text-to-speech/docs/voices
--
-- ## Set Coordinate
--
@@ -678,7 +687,7 @@ function MSRS:_GetCommand(freqs, modus, coal, gender, voice, culture, volume, sp
-- Set google.
if self.google then
command=command..string.format(' -G "%s"', self.google)
command=command..string.format(' --ssml -G "%s"', self.google)
end
-- Debug output.

244
Moose Development/Moose/Tasking/Task_A2A.lua
View File

@@ -1,13 +1,13 @@
--- **Tasking** - The TASK_A2A models tasks for players in Air to Air engagements.
--
--
-- ===
--
--
-- ### Author: **FlightControl**
--
-- ### Contributions:
--
--
-- ### Contributions:
--
-- ===
--
--
-- @module Tasking.Task_A2A
-- @image MOOSE.JPG
@@ -35,12 +35,12 @@ do -- TASK_A2A
-- * @{#TASK_A2A.SetScoreOnDestroy}(): Set a score when a target in scope of the A2A attack, has been destroyed.
-- * @{#TASK_A2A.SetScoreOnSuccess}(): Set a score when all the targets in scope of the A2A attack, have been destroyed.
-- * @{#TASK_A2A.SetPenaltyOnFailed}(): Set a penalty when the A2A attack has failed.
--
--
-- @field #TASK_A2A
TASK_A2A = {
ClassName = "TASK_A2A",
ClassName = "TASK_A2A"
}
--- Instantiates a new TASK_A2A.
-- @param #TASK_A2A self
-- @param Tasking.Mission#MISSION Mission
@@ -54,51 +54,49 @@ do -- TASK_A2A
function TASK_A2A:New( Mission, SetAttack, TaskName, TargetSetUnit, TaskType, TaskBriefing )
local self = BASE:Inherit( self, TASK:New( Mission, SetAttack, TaskName, TaskType, TaskBriefing ) ) -- Tasking.Task#TASK_A2A
self:F()
self.TargetSetUnit = TargetSetUnit
self.TaskType = TaskType
local Fsm = self:GetUnitProcess()
Fsm:AddTransition( "Assigned", "RouteToRendezVous", "RoutingToRendezVous" )
Fsm:AddProcess ( "RoutingToRendezVous", "RouteToRendezVousPoint", ACT_ROUTE_POINT:New(), { Arrived = "ArriveAtRendezVous" } )
Fsm:AddProcess ( "RoutingToRendezVous", "RouteToRendezVousZone", ACT_ROUTE_ZONE:New(), { Arrived = "ArriveAtRendezVous" } )
Fsm:AddProcess( "RoutingToRendezVous", "RouteToRendezVousPoint", ACT_ROUTE_POINT:New(), { Arrived = "ArriveAtRendezVous" } )
Fsm:AddProcess( "RoutingToRendezVous", "RouteToRendezVousZone", ACT_ROUTE_ZONE:New(), { Arrived = "ArriveAtRendezVous" } )
Fsm:AddTransition( { "Arrived", "RoutingToRendezVous" }, "ArriveAtRendezVous", "ArrivedAtRendezVous" )
Fsm:AddTransition( { "ArrivedAtRendezVous", "HoldingAtRendezVous" }, "Engage", "Engaging" )
Fsm:AddTransition( { "ArrivedAtRendezVous", "HoldingAtRendezVous" }, "HoldAtRendezVous", "HoldingAtRendezVous" )
Fsm:AddProcess ( "Engaging", "Account", ACT_ACCOUNT_DEADS:New(), {} )
Fsm:AddProcess( "Engaging", "Account", ACT_ACCOUNT_DEADS:New(), {} )
Fsm:AddTransition( "Engaging", "RouteToTarget", "Engaging" )
Fsm:AddProcess( "Engaging", "RouteToTargetZone", ACT_ROUTE_ZONE:New(), {} )
Fsm:AddProcess( "Engaging", "RouteToTargetPoint", ACT_ROUTE_POINT:New(), {} )
Fsm:AddTransition( "Engaging", "RouteToTargets", "Engaging" )
-- Fsm:AddTransition( "Accounted", "DestroyedAll", "Accounted" )
-- Fsm:AddTransition( "Accounted", "Success", "Success" )
-- Fsm:AddTransition( "Accounted", "DestroyedAll", "Accounted" )
-- Fsm:AddTransition( "Accounted", "Success", "Success" )
Fsm:AddTransition( "Rejected", "Reject", "Aborted" )
Fsm:AddTransition( "Failed", "Fail", "Failed" )
---- @param #FSM_PROCESS self
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param #TASK_CARGO Task
function Fsm:OnLeaveAssigned( TaskUnit, Task )
self:F( { TaskUnit = TaskUnit, Task = Task and Task:GetClassNameAndID() } )
self:SelectAction()
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task_A2A#TASK_A2A Task
function Fsm:onafterRouteToRendezVous( TaskUnit, Task )
self:F( { TaskUnit = TaskUnit, Task = Task and Task:GetClassNameAndID() } )
-- Determine the first Unit from the self.RendezVousSetUnit
if Task:GetRendezVousZone( TaskUnit ) then
self:__RouteToRendezVousZone( 0.1 )
else
@@ -110,36 +108,36 @@ do -- TASK_A2A
end
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task#TASK_A2A Task
function Fsm:OnAfterArriveAtRendezVous( TaskUnit, Task )
self:F( { TaskUnit = TaskUnit, Task = Task and Task:GetClassNameAndID() } )
-- Determine the first Unit from the self.TargetSetUnit
self:__Engage( 0.1 )
self:__Engage( 0.1 )
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task#TASK_A2A Task
function Fsm:onafterEngage( TaskUnit, Task )
self:F( { self } )
self:__Account( 0.1 )
self:__RouteToTarget(0.1 )
self:__RouteToTarget( 0.1 )
self:__RouteToTargets( -10 )
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task_A2A#TASK_A2A Task
function Fsm:onafterRouteToTarget( TaskUnit, Task )
self:F( { TaskUnit = TaskUnit, Task = Task and Task:GetClassNameAndID() } )
-- Determine the first Unit from the self.TargetSetUnit
if Task:GetTargetZone( TaskUnit ) then
self:__RouteToTargetZone( 0.1 )
else
@@ -152,8 +150,8 @@ do -- TASK_A2A
self:__RouteToTargetPoint( 0.1 )
end
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task_A2A#TASK_A2A Task
@@ -165,20 +163,18 @@ do -- TASK_A2A
end
self:__RouteToTargets( -10 )
end
return self
end
--- @param #TASK_A2A self
-- @param Core.Set#SET_UNIT TargetSetUnit The set of targets.
function TASK_A2A:SetTargetSetUnit( TargetSetUnit )
self.TargetSetUnit = TargetSetUnit
end
--- @param #TASK_A2A self
function TASK_A2A:GetPlannedMenuText()
return self:GetStateString() .. " - " .. self:GetTaskName() .. " ( " .. self.TargetSetUnit:GetUnitTypesText() .. " )"
@@ -188,34 +184,32 @@ do -- TASK_A2A
-- @param Core.Point#COORDINATE RendezVousCoordinate The Coordinate object referencing to the 2D point where the RendezVous point is located on the map.
-- @param #number RendezVousRange The RendezVousRange that defines when the player is considered to have arrived at the RendezVous point.
-- @param Wrapper.Unit#UNIT TaskUnit
function TASK_A2A:SetRendezVousCoordinate( RendezVousCoordinate, RendezVousRange, TaskUnit )
function TASK_A2A:SetRendezVousCoordinate( RendezVousCoordinate, RendezVousRange, TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteRendezVous = ProcessUnit:GetProcess( "RoutingToRendezVous", "RouteToRendezVousPoint" ) -- Actions.Act_Route#ACT_ROUTE_POINT
ActRouteRendezVous:SetCoordinate( RendezVousCoordinate )
ActRouteRendezVous:SetRange( RendezVousRange )
end
--- @param #TASK_A2A self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @return Core.Point#COORDINATE The Coordinate object referencing to the 2D point where the RendezVous point is located on the map.
-- @return #number The RendezVousRange that defines when the player is considered to have arrived at the RendezVous point.
function TASK_A2A:GetRendezVousCoordinate( TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteRendezVous = ProcessUnit:GetProcess( "RoutingToRendezVous", "RouteToRendezVousPoint" ) -- Actions.Act_Route#ACT_ROUTE_POINT
return ActRouteRendezVous:GetCoordinate(), ActRouteRendezVous:GetRange()
end
--- @param #TASK_A2A self
-- @param Core.Zone#ZONE_BASE RendezVousZone The Zone object where the RendezVous is located on the map.
-- @param Wrapper.Unit#UNIT TaskUnit
function TASK_A2A:SetRendezVousZone( RendezVousZone, TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteRendezVous = ProcessUnit:GetProcess( "RoutingToRendezVous", "RouteToRendezVousZone" ) -- Actions.Act_Route#ACT_ROUTE_ZONE
@@ -232,18 +226,17 @@ do -- TASK_A2A
local ActRouteRendezVous = ProcessUnit:GetProcess( "RoutingToRendezVous", "RouteToRendezVousZone" ) -- Actions.Act_Route#ACT_ROUTE_ZONE
return ActRouteRendezVous:GetZone()
end
--- @param #TASK_A2A self
-- @param Core.Point#COORDINATE TargetCoordinate The Coordinate object where the Target is located on the map.
-- @param Wrapper.Unit#UNIT TaskUnit
function TASK_A2A:SetTargetCoordinate( TargetCoordinate, TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteTarget = ProcessUnit:GetProcess( "Engaging", "RouteToTargetPoint" ) -- Actions.Act_Route#ACT_ROUTE_POINT
ActRouteTarget:SetCoordinate( TargetCoordinate )
end
--- @param #TASK_A2A self
-- @param Wrapper.Unit#UNIT TaskUnit
@@ -256,18 +249,16 @@ do -- TASK_A2A
return ActRouteTarget:GetCoordinate()
end
--- @param #TASK_A2A self
-- @param Core.Zone#ZONE_BASE TargetZone The Zone object where the Target is located on the map.
-- @param Wrapper.Unit#UNIT TaskUnit
function TASK_A2A:SetTargetZone( TargetZone, Altitude, Heading, TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteTarget = ProcessUnit:GetProcess( "Engaging", "RouteToTargetZone" ) -- Actions.Act_Route#ACT_ROUTE_ZONE
ActRouteTarget:SetZone( TargetZone, Altitude, Heading )
end
--- @param #TASK_A2A self
-- @param Wrapper.Unit#UNIT TaskUnit
@@ -281,45 +272,43 @@ do -- TASK_A2A
end
function TASK_A2A:SetGoalTotal()
self.GoalTotal = self.TargetSetUnit:Count()
end
function TASK_A2A:GetGoalTotal()
return self.GoalTotal
end
--- Return the relative distance to the target vicinity from the player, in order to sort the targets in the reports per distance from the threats.
-- @param #TASK_A2A self
function TASK_A2A:ReportOrder( ReportGroup )
self:UpdateTaskInfo( self.DetectedItem )
self:UpdateTaskInfo( self.DetectedItem )
local Coordinate = self.TaskInfo:GetData( "Coordinate" )
local Distance = ReportGroup:GetCoordinate():Get2DDistance( Coordinate )
return Distance
end
--- This method checks every 10 seconds if the goal has been reached of the task.
-- @param #TASK_A2A self
function TASK_A2A:onafterGoal( TaskUnit, From, Event, To )
local TargetSetUnit = self.TargetSetUnit -- Core.Set#SET_UNIT
if TargetSetUnit:Count() == 0 then
self:Success()
end
self:__Goal( -10 )
end
--- @param #TASK_A2A self
function TASK_A2A:UpdateTaskInfo( DetectedItem )
if self:IsStatePlanned() or self:IsStateAssigned() then
local TargetCoordinate = DetectedItem and self.Detection:GetDetectedItemCoordinate( DetectedItem ) or self.TargetSetUnit:GetFirst():GetCoordinate()
local TargetCoordinate = DetectedItem and self.Detection:GetDetectedItemCoordinate( DetectedItem ) or self.TargetSetUnit:GetFirst():GetCoordinate()
self.TaskInfo:AddTaskName( 0, "MSOD" )
self.TaskInfo:AddCoordinate( TargetCoordinate, 1, "SOD" )
@@ -343,12 +332,12 @@ do -- TASK_A2A
end
end
self.TaskInfo:AddTargetCount( DetectedItemsCount, 11, "O", true )
self.TaskInfo:AddTargets( DetectedItemsCount, ReportTypes:Text( ", " ), 20, "D", true )
self.TaskInfo:AddTargets( DetectedItemsCount, ReportTypes:Text( ", " ), 20, "D", true )
else
local DetectedItemsCount = self.TargetSetUnit:Count()
local DetectedItemsTypes = self.TargetSetUnit:GetTypeNames()
self.TaskInfo:AddTargetCount( DetectedItemsCount, 11, "O", true )
self.TaskInfo:AddTargets( DetectedItemsCount, DetectedItemsTypes, 20, "D", true )
self.TaskInfo:AddTargets( DetectedItemsCount, DetectedItemsTypes, 20, "D", true )
end
end
end
@@ -359,8 +348,8 @@ do -- TASK_A2A
-- @param Tasking.CommandCenter#COMMANDCENTER CommandCenter The command center.
-- @param Wrapper.Group#GROUP TaskGroup The player group.
function TASK_A2A:GetAutoAssignPriority( AutoAssignMethod, CommandCenter, TaskGroup )
if AutoAssignMethod == COMMANDCENTER.AutoAssignMethods.Random then
if AutoAssignMethod == COMMANDCENTER.AutoAssignMethods.Random then
return math.random( 1, 9 )
elseif AutoAssignMethod == COMMANDCENTER.AutoAssignMethods.Distance then
local Coordinate = self.TaskInfo:GetData( "Coordinate" )
@@ -373,8 +362,7 @@ do -- TASK_A2A
return 0
end
end
end
do -- TASK_A2A_INTERCEPT
@@ -384,44 +372,39 @@ do -- TASK_A2A_INTERCEPT
-- @extends Tasking.Task#TASK
--- Defines an intercept task for a human player to be executed.
-- When enemy planes need to be intercepted by human players, use this task type to urgen the players to get out there!
--
-- The TASK_A2A_INTERCEPT is used by the @{Tasking.Task_A2A_Dispatcher#TASK_A2A_DISPATCHER} to automatically create intercept tasks
-- When enemy planes need to be intercepted by human players, use this task type to urge the players to get out there!
--
-- The TASK_A2A_INTERCEPT is used by the @{Tasking.Task_A2A_Dispatcher#TASK_A2A_DISPATCHER} to automatically create intercept tasks
-- based on detected airborne enemy targets intruding friendly airspace.
--
--
-- The task is defined for a @{Tasking.Mission#MISSION}, where a friendly @{Core.Set#SET_GROUP} consisting of GROUPs with one human players each, is intercepting the targets.
-- The task is given a name and a briefing, that is used in the menu structure and in the reporting.
--
--
-- @field #TASK_A2A_INTERCEPT
TASK_A2A_INTERCEPT = {
ClassName = "TASK_A2A_INTERCEPT",
ClassName = "TASK_A2A_INTERCEPT"
}
--- Instantiates a new TASK_A2A_INTERCEPT.
-- @param #TASK_A2A_INTERCEPT self
-- @param Tasking.Mission#MISSION Mission
-- @param Core.Set#SET_GROUP SetGroup The set of groups for which the Task can be assigned.
-- @param #string TaskName The name of the Task.
-- @param Core.Set#SET_UNIT TargetSetUnit
-- @param Core.Set#SET_UNIT TargetSetUnit
-- @param #string TaskBriefing The briefing of the task.
-- @return #TASK_A2A_INTERCEPT
function TASK_A2A_INTERCEPT:New( Mission, SetGroup, TaskName, TargetSetUnit, TaskBriefing )
local self = BASE:Inherit( self, TASK_A2A:New( Mission, SetGroup, TaskName, TargetSetUnit, "INTERCEPT", TaskBriefing ) ) -- #TASK_A2A_INTERCEPT
self:F()
Mission:AddTask( self )
self:SetBriefing(
TaskBriefing or
"Intercept incoming intruders.\n"
)
self:SetBriefing( TaskBriefing or "Intercept incoming intruders.\n" )
return self
end
--- Set a score when a target in scope of the A2A attack, has been destroyed .
--- Set a score when a target in scope of the A2A attack, has been destroyed.
-- @param #TASK_A2A_INTERCEPT self
-- @param #string PlayerName The name of the player.
-- @param #number Score The score in points to be granted when task process has been achieved.
@@ -433,7 +416,7 @@ do -- TASK_A2A_INTERCEPT
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScoreProcess( "Engaging", "Account", "AccountForPlayer", "Player " .. PlayerName .. " has intercepted a target.", Score )
return self
end
@@ -449,7 +432,7 @@ do -- TASK_A2A_INTERCEPT
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Success", "All targets have been successfully intercepted!", Score )
return self
end
@@ -465,14 +448,12 @@ do -- TASK_A2A_INTERCEPT
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Failed", "The intercept has failed!", Penalty )
return self
end
end
do -- TASK_A2A_SWEEP
--- The TASK_A2A_SWEEP class
@@ -484,20 +465,18 @@ do -- TASK_A2A_SWEEP
-- A sweep task needs to be given when targets were detected but somehow the detection was lost.
-- Most likely, these enemy planes are hidden in the mountains or are flying under radar.
-- These enemy planes need to be sweeped by human players, and use this task type to urge the players to get out there and find those enemy fighters.
--
-- The TASK_A2A_SWEEP is used by the @{Tasking.Task_A2A_Dispatcher#TASK_A2A_DISPATCHER} to automatically create sweep tasks
--
-- The TASK_A2A_SWEEP is used by the @{Tasking.Task_A2A_Dispatcher#TASK_A2A_DISPATCHER} to automatically create sweep tasks
-- based on detected airborne enemy targets intruding friendly airspace, for which the detection has been lost for more than 60 seconds.
--
--
-- The task is defined for a @{Tasking.Mission#MISSION}, where a friendly @{Core.Set#SET_GROUP} consisting of GROUPs with one human players each, is sweeping the targets.
-- The task is given a name and a briefing, that is used in the menu structure and in the reporting.
--
--
-- @field #TASK_A2A_SWEEP
TASK_A2A_SWEEP = {
ClassName = "TASK_A2A_SWEEP",
ClassName = "TASK_A2A_SWEEP"
}
--- Instantiates a new TASK_A2A_SWEEP.
-- @param #TASK_A2A_SWEEP self
-- @param Tasking.Mission#MISSION Mission
@@ -509,29 +488,26 @@ do -- TASK_A2A_SWEEP
function TASK_A2A_SWEEP:New( Mission, SetGroup, TaskName, TargetSetUnit, TaskBriefing )
local self = BASE:Inherit( self, TASK_A2A:New( Mission, SetGroup, TaskName, TargetSetUnit, "SWEEP", TaskBriefing ) ) -- #TASK_A2A_SWEEP
self:F()
Mission:AddTask( self )
self:SetBriefing(
TaskBriefing or
"Perform a fighter sweep. Incoming intruders were detected and could be hiding at the location.\n"
)
self:SetBriefing( TaskBriefing or "Perform a fighter sweep. Incoming intruders were detected and could be hiding at the location.\n" )
return self
end
end
--- @param #TASK_A2A_SWEEP self
function TASK_A2A_SWEEP:onafterGoal( TaskUnit, From, Event, To )
local TargetSetUnit = self.TargetSetUnit -- Core.Set#SET_UNIT
if TargetSetUnit:Count() == 0 then
self:Success()
end
self:__Goal( -10 )
end
--- Set a score when a target in scope of the A2A attack, has been destroyed .
--- Set a score when a target in scope of the A2A attack, has been destroyed.
-- @param #TASK_A2A_SWEEP self
-- @param #string PlayerName The name of the player.
-- @param #number Score The score in points to be granted when task process has been achieved.
@@ -543,7 +519,7 @@ do -- TASK_A2A_SWEEP
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScoreProcess( "Engaging", "Account", "AccountForPlayer", "Player " .. PlayerName .. " has sweeped a target.", Score )
return self
end
@@ -559,7 +535,7 @@ do -- TASK_A2A_SWEEP
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Success", "All targets have been successfully sweeped!", Score )
return self
end
@@ -575,13 +551,12 @@ do -- TASK_A2A_SWEEP
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Failed", "The sweep has failed!", Penalty )
return self
end
end
do -- TASK_A2A_ENGAGE
--- The TASK_A2A_ENGAGE class
@@ -591,42 +566,37 @@ do -- TASK_A2A_ENGAGE
--- Defines an engage task for a human player to be executed.
-- When enemy planes are close to human players, use this task type is used urge the players to get out there!
--
-- The TASK_A2A_ENGAGE is used by the @{Tasking.Task_A2A_Dispatcher#TASK_A2A_DISPATCHER} to automatically create engage tasks
--
-- The TASK_A2A_ENGAGE is used by the @{Tasking.Task_A2A_Dispatcher#TASK_A2A_DISPATCHER} to automatically create engage tasks
-- based on detected airborne enemy targets intruding friendly airspace.
--
--
-- The task is defined for a @{Tasking.Mission#MISSION}, where a friendly @{Core.Set#SET_GROUP} consisting of GROUPs with one human players each, is engaging the targets.
-- The task is given a name and a briefing, that is used in the menu structure and in the reporting.
--
--
-- @field #TASK_A2A_ENGAGE
TASK_A2A_ENGAGE = {
ClassName = "TASK_A2A_ENGAGE",
ClassName = "TASK_A2A_ENGAGE"
}
--- Instantiates a new TASK_A2A_ENGAGE.
-- @param #TASK_A2A_ENGAGE self
-- @param Tasking.Mission#MISSION Mission
-- @param Core.Set#SET_GROUP SetGroup The set of groups for which the Task can be assigned.
-- @param #string TaskName The name of the Task.
-- @param Core.Set#SET_UNIT TargetSetUnit
-- @param Core.Set#SET_UNIT TargetSetUnit
-- @param #string TaskBriefing The briefing of the task.
-- @return #TASK_A2A_ENGAGE self
function TASK_A2A_ENGAGE:New( Mission, SetGroup, TaskName, TargetSetUnit, TaskBriefing )
local self = BASE:Inherit( self, TASK_A2A:New( Mission, SetGroup, TaskName, TargetSetUnit, "ENGAGE", TaskBriefing ) ) -- #TASK_A2A_ENGAGE
self:F()
Mission:AddTask( self )
self:SetBriefing(
TaskBriefing or
"Bogeys are nearby! Players close by are ordered to ENGAGE the intruders!\n"
)
self:SetBriefing( TaskBriefing or "Bogeys are nearby! Players close by are ordered to ENGAGE the intruders!\n" )
return self
end
end
--- Set a score when a target in scope of the A2A attack, has been destroyed .
-- @param #TASK_A2A_ENGAGE self
-- @param #string PlayerName The name of the player.
@@ -639,7 +609,7 @@ do -- TASK_A2A_ENGAGE
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScoreProcess( "Engaging", "Account", "AccountForPlayer", "Player " .. PlayerName .. " has engaged and destroyed a target.", Score )
return self
end
@@ -655,7 +625,7 @@ do -- TASK_A2A_ENGAGE
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Success", "All targets have been successfully engaged!", Score )
return self
end
@@ -671,7 +641,7 @@ do -- TASK_A2A_ENGAGE
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Failed", "The target engagement has failed!", Penalty )
return self
end

297
Moose Development/Moose/Tasking/Task_A2A_Dispatcher.lua
View File

@@ -1,7 +1,7 @@
--- **Tasking** - Dynamically allocates A2A tasks to human players, based on detected airborne targets through an EWR network.
--
--
-- **Features:**
--
--
-- * Dynamically assign tasks to human players based on detected targets.
-- * Dynamically change the tasks as the tactical situation evolves during the mission.
-- * Dynamically assign (CAP) Control Air Patrols tasks for human players to perform CAP.
@@ -11,15 +11,15 @@
-- * Define different ranges to engage upon intruders.
-- * Keep task achievements.
-- * Score task achievements.
--
--
-- ===
--
--
-- ### Author: **FlightControl**
--
-- ### Contributions:
--
--
-- ### Contributions:
--
-- ===
--
--
-- @module Tasking.Task_A2A_Dispatcher
-- @image Task_A2A_Dispatcher.JPG
@@ -30,72 +30,72 @@ do -- TASK_A2A_DISPATCHER
-- @extends Tasking.DetectionManager#DETECTION_MANAGER
--- Orchestrates the dynamic dispatching of tasks upon groups of detected units determined a @{Set} of EWR installation groups.
--
--
-- ![Banner Image](..\Presentations\TASK_A2A_DISPATCHER\Dia3.JPG)
--
--
-- The EWR will detect units, will group them, and will dispatch @{Task}s to groups. Depending on the type of target detected, different tasks will be dispatched.
-- Find a summary below describing for which situation a task type is created:
--
--
-- ![Banner Image](..\Presentations\TASK_A2A_DISPATCHER\Dia9.JPG)
--
--
-- * **INTERCEPT Task**: Is created when the target is known, is detected and within a danger zone, and there is no friendly airborne in range.
-- * **SWEEP Task**: Is created when the target is unknown, was detected and the last position is only known, and within a danger zone, and there is no friendly airborne in range.
-- * **ENGAGE Task**: Is created when the target is known, is detected and within a danger zone, and there is a friendly airborne in range, that will receive this task.
--
--
-- ## 1. TASK\_A2A\_DISPATCHER constructor:
--
--
-- The @{#TASK_A2A_DISPATCHER.New}() method creates a new TASK\_A2A\_DISPATCHER instance.
--
--
-- ### 1.1. Define or set the **Mission**:
--
--
-- Tasking is executed to accomplish missions. Therefore, a MISSION object needs to be given as the first parameter.
--
--
-- local HQ = GROUP:FindByName( "HQ", "Bravo" )
-- local CommandCenter = COMMANDCENTER:New( HQ, "Lima" )
-- local Mission = MISSION:New( CommandCenter, "A2A Mission", "High", "Watch the air enemy units being detected.", coalition.side.RED )
--
--
-- Missions are governed by COMMANDCENTERS, so, ensure you have a COMMANDCENTER object installed and setup within your mission.
-- Create the MISSION object, and hook it under the command center.
--
--
-- ### 1.2. Build a set of the groups seated by human players:
--
--
-- ![Banner Image](..\Presentations\TASK_A2A_DISPATCHER\Dia6.JPG)
--
--
-- A set or collection of the groups wherein human players can be seated, these can be clients or units that can be joined as a slot or jumping into.
--
--
-- local AttackGroups = SET_GROUP:New():FilterCoalitions( "red" ):FilterPrefixes( "Defender" ):FilterStart()
--
--
-- The set is built using the SET_GROUP class. Apply any filter criteria to identify the correct groups for your mission.
-- Only these slots or units will be able to execute the mission and will receive tasks for this mission, once available.
--
--
-- ### 1.3. Define the **EWR network**:
--
--
-- As part of the TASK\_A2A\_DISPATCHER constructor, an EWR network must be given as the third parameter.
-- An EWR network, or, Early Warning Radar network, is used to early detect potential airborne targets and to understand the position of patrolling targets of the enemy.
--
--
-- ![Banner Image](..\Presentations\TASK_A2A_DISPATCHER\Dia5.JPG)
--
--
-- Typically EWR networks are setup using 55G6 EWR, 1L13 EWR, Hawk sr and Patriot str ground based radar units.
-- These radars have different ranges and 55G6 EWR and 1L13 EWR radars are Eastern Bloc units (eg Russia, Ukraine, Georgia) while the Hawk and Patriot radars are Western (eg US).
-- Additionally, ANY other radar capable unit can be part of the EWR network! Also AWACS airborne units, planes, helicopters can help to detect targets, as long as they have radar.
-- The position of these units is very important as they need to provide enough coverage
-- to pick up enemy aircraft as they approach so that CAP and GCI flights can be tasked to intercept them.
--
--
-- ![Banner Image](..\Presentations\TASK_A2A_DISPATCHER\Dia7.JPG)
--
-- Additionally in a hot war situation where the border is no longer respected the placement of radars has a big effect on how fast the war escalates.
-- For example if they are a long way forward and can detect enemy planes on the ground and taking off
-- they will start to vector CAP and GCI flights to attack them straight away which will immediately draw a response from the other coalition.
-- Having the radars further back will mean a slower escalation because fewer targets will be detected and
-- therefore less CAP and GCI flights will spawn and this will tend to make just the border area active rather than a melee over the whole map.
-- It all depends on what the desired effect is.
--
--
-- Additionally in a hot war situation where the border is no longer respected the placement of radars has a big effect on how fast the war escalates.
-- For example if they are a long way forward and can detect enemy planes on the ground and taking off
-- they will start to vector CAP and GCI flights to attack them straight away which will immediately draw a response from the other coalition.
-- Having the radars further back will mean a slower escalation because fewer targets will be detected and
-- therefore less CAP and GCI flights will spawn and this will tend to make just the border area active rather than a melee over the whole map.
-- It all depends on what the desired effect is.
--
-- EWR networks are **dynamically constructed**, that is, they form part of the @{Functional.Detection#DETECTION_BASE} object that is given as the input parameter of the TASK\_A2A\_DISPATCHER class.
-- By defining in a **smart way the names or name prefixes of the groups** with EWR capable units, these groups will be **automatically added or deleted** from the EWR network,
-- By defining in a **smart way the names or name prefixes of the groups** with EWR capable units, these groups will be **automatically added or deleted** from the EWR network,
-- increasing or decreasing the radar coverage of the Early Warning System.
--
--
-- See the following example to setup an EWR network containing EWR stations and AWACS.
--
--
-- local EWRSet = SET_GROUP:New():FilterPrefixes( "EWR" ):FilterCoalitions("red"):FilterStart()
--
-- local EWRDetection = DETECTION_AREAS:New( EWRSet, 6000 )
@@ -104,50 +104,50 @@ do -- TASK_A2A_DISPATCHER
--
-- -- Setup the A2A dispatcher, and initialize it.
-- A2ADispatcher = TASK_A2A_DISPATCHER:New( Mission, AttackGroups, EWRDetection )
--
--
-- The above example creates a SET_GROUP instance, and stores this in the variable (object) **EWRSet**.
-- **EWRSet** is then being configured to filter all active groups with a group name starting with **EWR** to be included in the Set.
-- **EWRSet** is then being ordered to start the dynamic filtering. Note that any destroy or new spawn of a group with the above names will be removed or added to the Set.
-- Then a new **EWRDetection** object is created from the class DETECTION_AREAS. A grouping radius of 6000 is choosen, which is 6km.
-- Then a new **EWRDetection** object is created from the class DETECTION_AREAS. A grouping radius of 6000 is chosen, which is 6 km.
-- The **EWRDetection** object is then passed to the @{#TASK_A2A_DISPATCHER.New}() method to indicate the EWR network configuration and setup the A2A tasking and detection mechanism.
--
--
-- ### 2. Define the detected **target grouping radius**:
--
--
-- ![Banner Image](..\Presentations\TASK_A2A_DISPATCHER\Dia8.JPG)
--
--
-- The target grouping radius is a property of the Detection object, that was passed to the AI\_A2A\_DISPATCHER object, but can be changed.
-- The grouping radius should not be too small, but also depends on the types of planes and the era of the simulation.
-- Fast planes like in the 80s, need a larger radius than WWII planes.
-- Fast planes like in the 80s, need a larger radius than WWII planes.
-- Typically I suggest to use 30000 for new generation planes and 10000 for older era aircraft.
--
--
-- Note that detected targets are constantly re-grouped, that is, when certain detected aircraft are moving further than the group radius, then these aircraft will become a separate
-- group being detected. This may result in additional GCI being started by the dispatcher! So don't make this value too small!
--
--
-- ## 3. Set the **Engage radius**:
--
--
-- Define the radius to engage any target by airborne friendlies, which are executing cap or returning from an intercept mission.
--
--
-- ![Banner Image](..\Presentations\TASK_A2A_DISPATCHER\Dia11.JPG)
--
-- So, if there is a target area detected and reported,
-- then any friendlies that are airborne near this target area,
--
-- So, if there is a target area detected and reported,
-- then any friendlies that are airborne near this target area,
-- will be commanded to (re-)engage that target when available (if no other tasks were commanded).
-- For example, if 100000 is given as a value, then any friendly that is airborne within 100km from the detected target,
-- For example, if 100000 is given as a value, then any friendly that is airborne within 100km from the detected target,
-- will be considered to receive the command to engage that target area.
-- You need to evaluate the value of this parameter carefully.
-- If too small, more intercept missions may be triggered upon detected target areas.
-- If too large, any airborne cap may not be able to reach the detected target area in time, because it is too far.
--
--
-- ## 4. Set **Scoring** and **Messages**:
--
--
-- The TASK\_A2A\_DISPATCHER is a state machine. It triggers the event Assign when a new player joins a @{Task} dispatched by the TASK\_A2A\_DISPATCHER.
-- An _event handler_ can be defined to catch the **Assign** event, and add **additional processing** to set _scoring_ and to _define messages_,
-- when the player reaches certain achievements in the task.
--
--
-- The prototype to handle the **Assign** event needs to be developed as follows:
--
--
-- TaskDispatcher = TASK_A2A_DISPATCHER:New( ... )
--
--
-- --- @param #TaskDispatcher self
-- -- @param #string From Contains the name of the state from where the Event was triggered.
-- -- @param #string Event Contains the name of the event that was triggered. In this case Assign.
@@ -160,22 +160,22 @@ do -- TASK_A2A_DISPATCHER
-- Task:SetScoreOnSuccess( PlayerName, 200, TaskUnit )
-- Task:SetScoreOnFail( PlayerName, -100, TaskUnit )
-- end
--
--
-- The **OnAfterAssign** method (function) is added to the TaskDispatcher object.
-- This method will be called when a new player joins a unit in the set of groups in scope of the dispatcher.
-- So, this method will be called only **ONCE** when a player joins a unit in scope of the task.
--
--
-- The TASK class implements various methods to additional **set scoring** for player achievements:
--
--
-- * @{Tasking.Task#TASK.SetScoreOnProgress}() will add additional scores when a player achieves **Progress** while executing the task.
-- Examples of **task progress** can be destroying units, arriving at zones etc.
--
-- * @{Tasking.Task#TASK.SetScoreOnSuccess}() will add additional scores when the task goes into **Success** state.
--
-- * @{Tasking.Task#TASK.SetScoreOnSuccess}() will add additional scores when the task goes into **Success** state.
-- This means the **task has been successfully completed**.
--
-- * @{Tasking.Task#TASK.SetScoreOnSuccess}() will add additional (negative) scores when the task goes into **Failed** state.
--
-- * @{Tasking.Task#TASK.SetScoreOnSuccess}() will add additional (negative) scores when the task goes into **Failed** state.
-- This means the **task has not been successfully completed**, and the scores must be given with a negative value!
--
--
-- @field #TASK_A2A_DISPATCHER
TASK_A2A_DISPATCHER = {
ClassName = "TASK_A2A_DISPATCHER",
@@ -184,8 +184,7 @@ do -- TASK_A2A_DISPATCHER
Tasks = {},
SweepZones = {},
}
--- TASK_A2A_DISPATCHER constructor.
-- @param #TASK_A2A_DISPATCHER self
-- @param Tasking.Mission#MISSION Mission The mission for which the task dispatching is done.
@@ -193,22 +192,21 @@ do -- TASK_A2A_DISPATCHER
-- @param Functional.Detection#DETECTION_BASE Detection The detection results that are used to dynamically assign new tasks to human players.
-- @return #TASK_A2A_DISPATCHER self
function TASK_A2A_DISPATCHER:New( Mission, SetGroup, Detection )
-- Inherits from DETECTION_MANAGER
local self = BASE:Inherit( self, DETECTION_MANAGER:New( SetGroup, Detection ) ) -- #TASK_A2A_DISPATCHER
self.Detection = Detection
self.Mission = Mission
self.FlashNewTask = false
-- TODO: Check detection through radar.
self.Detection:FilterCategories( Unit.Category.AIRPLANE, Unit.Category.HELICOPTER )
self.Detection:InitDetectRadar( true )
self.Detection:SetRefreshTimeInterval( 30 )
self:AddTransition( "Started", "Assign", "Started" )
--- OnAfter Transition Handler for Event Assign.
-- @function [parent=#TASK_A2A_DISPATCHER] OnAfterAssign
-- @param #TASK_A2A_DISPATCHER self
@@ -220,14 +218,13 @@ do -- TASK_A2A_DISPATCHER
-- @param #string PlayerName
self:__Start( 5 )
return self
end
--- Define the radius to when an ENGAGE task will be generated for any nearby by airborne friendlies, which are executing cap or returning from an intercept mission.
-- So, if there is a target area detected and reported,
-- then any friendlies that are airborne near this target area,
-- So, if there is a target area detected and reported,
-- then any friendlies that are airborne near this target area,
-- will be commanded to (re-)engage that target when available (if no other tasks were commanded).
-- An ENGAGE task will be created for those pilots.
-- For example, if 100000 is given as a value, then any friendly that is airborne within 100km from the detected target,
@@ -239,27 +236,27 @@ do -- TASK_A2A_DISPATCHER
-- @param #number EngageRadius (Optional, Default = 100000) The radius to report friendlies near the target.
-- @return #TASK_A2A_DISPATCHER
-- @usage
--
--
-- -- Set 50km as the radius to engage any target by airborne friendlies.
-- TaskA2ADispatcher:SetEngageRadius( 50000 )
--
--
-- -- Set 100km as the radius to engage any target by airborne friendlies.
-- TaskA2ADispatcher:SetEngageRadius() -- 100000 is the default value.
--
--
function TASK_A2A_DISPATCHER:SetEngageRadius( EngageRadius )
self.Detection:SetFriendliesRange( EngageRadius or 100000 )
return self
end
--- Set flashing player messages on or off
-- @param #TASK_A2A_DISPATCHER self
-- @param #boolean onoff Set messages on (true) or off (false)
function TASK_A2A_DISPATCHER:SetSendMessages( onoff )
self.FlashNewTask = onoff
self.FlashNewTask = onoff
end
--- Creates an INTERCEPT task when there are targets for it.
-- @param #TASK_A2A_DISPATCHER self
-- @param Functional.Detection#DETECTION_BASE.DetectedItem DetectedItem
@@ -267,26 +264,25 @@ do -- TASK_A2A_DISPATCHER
-- @return #nil If there are no targets to be set.
function TASK_A2A_DISPATCHER:EvaluateINTERCEPT( DetectedItem )
self:F( { DetectedItem.ItemID } )
local DetectedSet = DetectedItem.Set
local DetectedZone = DetectedItem.Zone
-- Check if there is at least one UNIT in the DetectedSet is visible.
if DetectedItem.IsDetected == true then
-- Here we're doing something advanced... We're copying the DetectedSet.
local TargetSetUnit = SET_UNIT:New()
TargetSetUnit:SetDatabase( DetectedSet )
TargetSetUnit:FilterOnce() -- Filter but don't do any events!!! Elements are added manually upon each detection.
return TargetSetUnit
end
return nil
end
--- Creates an SWEEP task when there are targets for it.
-- @param #TASK_A2A_DISPATCHER self
-- @param Functional.Detection#DETECTION_BASE.DetectedItem DetectedItem
@@ -294,10 +290,9 @@ do -- TASK_A2A_DISPATCHER
-- @return #nil If there are no targets to be set.
function TASK_A2A_DISPATCHER:EvaluateSWEEP( DetectedItem )
self:F( { DetectedItem.ItemID } )
local DetectedSet = DetectedItem.Set
local DetectedZone = DetectedItem.Zone
local DetectedSet = DetectedItem.Set
local DetectedZone = DetectedItem.Zone -- TODO: This seems unused, remove?
if DetectedItem.IsDetected == false then
@@ -305,14 +300,13 @@ do -- TASK_A2A_DISPATCHER
local TargetSetUnit = SET_UNIT:New()
TargetSetUnit:SetDatabase( DetectedSet )
TargetSetUnit:FilterOnce() -- Filter but don't do any events!!! Elements are added manually upon each detection.
return TargetSetUnit
end
return nil
end
--- Creates an ENGAGE task when there are human friendlies airborne near the targets.
-- @param #TASK_A2A_DISPATCHER self
-- @param Functional.Detection#DETECTION_BASE.DetectedItem DetectedItem
@@ -320,13 +314,12 @@ do -- TASK_A2A_DISPATCHER
-- @return #nil If there are no targets to be set.
function TASK_A2A_DISPATCHER:EvaluateENGAGE( DetectedItem )
self:F( { DetectedItem.ItemID } )
local DetectedSet = DetectedItem.Set
local DetectedZone = DetectedItem.Zone
local DetectedZone = DetectedItem.Zone -- TODO: This seems unused, remove?
local PlayersCount, PlayersReport = self:GetPlayerFriendliesNearBy( DetectedItem )
-- Only allow ENGAGE when there are Players near the zone, and when the Area has detected items since the last run in a 60 seconds time zone.
if PlayersCount > 0 and DetectedItem.IsDetected == true then
@@ -334,16 +327,13 @@ do -- TASK_A2A_DISPATCHER
local TargetSetUnit = SET_UNIT:New()
TargetSetUnit:SetDatabase( DetectedSet )
TargetSetUnit:FilterOnce() -- Filter but don't do any events!!! Elements are added manually upon each detection.
return TargetSetUnit
end
return nil
end
--- Evaluates the removal of the Task from the Mission.
-- Can only occur when the DetectedItem is Changed AND the state of the Task is "Planned".
-- @param #TASK_A2A_DISPATCHER self
@@ -354,24 +344,24 @@ do -- TASK_A2A_DISPATCHER
-- @param #boolean DetectedItemChange
-- @return Tasking.Task#TASK
function TASK_A2A_DISPATCHER:EvaluateRemoveTask( Mission, Task, Detection, DetectedItem, DetectedItemIndex, DetectedItemChanged )
if Task then
if Task:IsStatePlanned() then
local TaskName = Task:GetName()
local TaskType = TaskName:match( "(%u+)%.%d+" )
self:T2( { TaskType = TaskType } )
local Remove = false
local IsPlayers = Detection:IsPlayersNearBy( DetectedItem )
if TaskType == "ENGAGE" then
if IsPlayers == false then
Remove = true
end
end
if TaskType == "INTERCEPT" then
if IsPlayers == true then
Remove = true
@@ -380,7 +370,7 @@ do -- TASK_A2A_DISPATCHER
Remove = true
end
end
if TaskType == "SWEEP" then
if DetectedItem.IsDetected == true then
Remove = true
@@ -388,18 +378,18 @@ do -- TASK_A2A_DISPATCHER
end
local DetectedSet = DetectedItem.Set -- Core.Set#SET_UNIT
--DetectedSet:Flush( self )
--self:F( { DetectedSetCount = DetectedSet:Count() } )
-- DetectedSet:Flush( self )
-- self:F( { DetectedSetCount = DetectedSet:Count() } )
if DetectedSet:Count() == 0 then
Remove = true
end
if DetectedItemChanged == true or Remove then
Task = self:RemoveTask( DetectedItemIndex )
end
end
end
return Task
end
@@ -408,10 +398,10 @@ do -- TASK_A2A_DISPATCHER
-- @param DetectedItem
-- @return #number, Core.CommandCenter#REPORT
function TASK_A2A_DISPATCHER:GetFriendliesNearBy( DetectedItem )
local DetectedSet = DetectedItem.Set
local FriendlyUnitsNearBy = self.Detection:GetFriendliesNearBy( DetectedItem, Unit.Category.AIRPLANE )
local FriendlyTypes = {}
local FriendliesCount = 0
@@ -423,27 +413,26 @@ do -- TASK_A2A_DISPATCHER
local FriendlyUnitThreatLevel = FriendlyUnit:GetThreatLevel()
FriendliesCount = FriendliesCount + 1
local FriendlyType = FriendlyUnit:GetTypeName()
FriendlyTypes[FriendlyType] = FriendlyTypes[FriendlyType] and ( FriendlyTypes[FriendlyType] + 1 ) or 1
FriendlyTypes[FriendlyType] = FriendlyTypes[FriendlyType] and (FriendlyTypes[FriendlyType] + 1) or 1
if DetectedTreatLevel < FriendlyUnitThreatLevel + 2 then
end
end
end
end
--self:F( { FriendliesCount = FriendliesCount } )
-- self:F( { FriendliesCount = FriendliesCount } )
local FriendlyTypesReport = REPORT:New()
if FriendliesCount > 0 then
for FriendlyType, FriendlyTypeCount in pairs( FriendlyTypes ) do
FriendlyTypesReport:Add( string.format("%d of %s", FriendlyTypeCount, FriendlyType ) )
FriendlyTypesReport:Add( string.format( "%d of %s", FriendlyTypeCount, FriendlyType ) )
end
else
FriendlyTypesReport:Add( "-" )
end
return FriendliesCount, FriendlyTypesReport
end
@@ -452,10 +441,10 @@ do -- TASK_A2A_DISPATCHER
-- @param DetectedItem
-- @return #number, Core.CommandCenter#REPORT
function TASK_A2A_DISPATCHER:GetPlayerFriendliesNearBy( DetectedItem )
local DetectedSet = DetectedItem.Set
local PlayersNearBy = self.Detection:GetPlayersNearBy( DetectedItem )
local PlayerTypes = {}
local PlayersCount = 0
@@ -464,7 +453,7 @@ do -- TASK_A2A_DISPATCHER
for PlayerUnitName, PlayerUnitData in pairs( PlayersNearBy ) do
local PlayerUnit = PlayerUnitData -- Wrapper.Unit#UNIT
local PlayerName = PlayerUnit:GetPlayerName()
--self:F( { PlayerName = PlayerName, PlayerUnit = PlayerUnit } )
-- self:F( { PlayerName = PlayerName, PlayerUnit = PlayerUnit } )
if PlayerUnit:IsAirPlane() and PlayerName ~= nil then
local FriendlyUnitThreatLevel = PlayerUnit:GetThreatLevel()
PlayersCount = PlayersCount + 1
@@ -474,20 +463,19 @@ do -- TASK_A2A_DISPATCHER
end
end
end
end
local PlayerTypesReport = REPORT:New()
if PlayersCount > 0 then
for PlayerName, PlayerType in pairs( PlayerTypes ) do
PlayerTypesReport:Add( string.format('"%s" in %s', PlayerName, PlayerType ) )
PlayerTypesReport:Add( string.format( '"%s" in %s', PlayerName, PlayerType ) )
end
else
PlayerTypesReport:Add( "-" )
end
return PlayersCount, PlayerTypesReport
end
@@ -496,24 +484,23 @@ do -- TASK_A2A_DISPATCHER
self.Tasks[TaskIndex] = nil
end
--- Assigns tasks in relation to the detected items to the @{Core.Set#SET_GROUP}.
-- @param #TASK_A2A_DISPATCHER self
-- @param Functional.Detection#DETECTION_BASE Detection The detection created by the @{Functional.Detection#DETECTION_BASE} derived object.
-- @return #boolean Return true if you want the task assigning to continue... false will cancel the loop.
function TASK_A2A_DISPATCHER:ProcessDetected( Detection )
self:F()
local AreaMsg = {}
local TaskMsg = {}
local ChangeMsg = {}
local Mission = self.Mission
if Mission:IsIDLE() or Mission:IsENGAGED() then
local TaskReport = REPORT:New()
-- Checking the task queue for the dispatcher, and removing any obsolete task!
for TaskIndex, TaskData in pairs( self.Tasks ) do
local Task = TaskData -- Tasking.Task#TASK
@@ -531,18 +518,18 @@ do -- TASK_A2A_DISPATCHER
-- Now that all obsolete tasks are removed, loop through the detected targets.
for DetectedItemID, DetectedItem in pairs( Detection:GetDetectedItems() ) do
local DetectedItem = DetectedItem -- Functional.Detection#DETECTION_BASE.DetectedItem
local DetectedSet = DetectedItem.Set -- Core.Set#SET_UNIT
local DetectedCount = DetectedSet:Count()
local DetectedZone = DetectedItem.Zone
--self:F( { "Targets in DetectedItem", DetectedItem.ItemID, DetectedSet:Count(), tostring( DetectedItem ) } )
--DetectedSet:Flush( self )
-- self:F( { "Targets in DetectedItem", DetectedItem.ItemID, DetectedSet:Count(), tostring( DetectedItem ) } )
-- DetectedSet:Flush( self )
local DetectedID = DetectedItem.ID
local TaskIndex = DetectedItem.Index
local DetectedItemChanged = DetectedItem.Changed
local Task = self.Tasks[TaskIndex]
Task = self:EvaluateRemoveTask( Mission, Task, Detection, DetectedItem, TaskIndex, DetectedItemChanged ) -- Task will be removed if it is planned and changed.
@@ -565,7 +552,7 @@ do -- TASK_A2A_DISPATCHER
Task = TASK_A2A_SWEEP:New( Mission, self.SetGroup, string.format( "SWEEP.%03d", DetectedID ), TargetSetUnit )
Task:SetDetection( Detection, DetectedItem )
Task:UpdateTaskInfo( DetectedItem )
end
end
end
end
@@ -582,7 +569,7 @@ do -- TASK_A2A_DISPATCHER
function Task.OnEnterCancelled( Task, From, Event, To )
self:Cancelled( Task )
end
function Task.OnEnterFailed( Task, From, Event, To )
self:Failed( Task )
end
@@ -590,38 +577,38 @@ do -- TASK_A2A_DISPATCHER
function Task.OnEnterAborted( Task, From, Event, To )
self:Aborted( Task )
end
TaskReport:Add( Task:GetName() )
else
self:F("This should not happen")
self:F( "This should not happen" )
end
end
if Task then
local FriendliesCount, FriendliesReport = self:GetFriendliesNearBy( DetectedItem, Unit.Category.AIRPLANE )
Task.TaskInfo:AddText( "Friendlies", string.format( "%d ( %s )", FriendliesCount, FriendliesReport:Text( "," ) ), 40, "MOD" )
Task.TaskInfo:AddText( "Friendlies", string.format( "%d ( %s )", FriendliesCount, FriendliesReport:Text( "," ) ), 40, "MOD" )
local PlayersCount, PlayersReport = self:GetPlayerFriendliesNearBy( DetectedItem )
Task.TaskInfo:AddText( "Players", string.format( "%d ( %s )", PlayersCount, PlayersReport:Text( "," ) ), 40, "MOD" )
Task.TaskInfo:AddText( "Players", string.format( "%d ( %s )", PlayersCount, PlayersReport:Text( "," ) ), 40, "MOD" )
end
-- OK, so the tasking has been done, now delete the changes reported for the area.
Detection:AcceptChanges( DetectedItem )
end
-- TODO set menus using the HQ coordinator
Mission:GetCommandCenter():SetMenu()
local TaskText = TaskReport:Text(", ")
local TaskText = TaskReport:Text( ", " )
for TaskGroupID, TaskGroup in pairs( self.SetGroup:GetSet() ) do
if ( not Mission:IsGroupAssigned(TaskGroup) ) and TaskText ~= "" and (self.FlashNewTask) then
if (not Mission:IsGroupAssigned( TaskGroup )) and TaskText ~= "" and (self.FlashNewTask) then
Mission:GetCommandCenter():MessageToGroup( string.format( "%s has tasks %s. Subscribe to a task using the radio menu.", Mission:GetShortText(), TaskText ), TaskGroup )
end
end
end
return true
end

244
Moose Development/Moose/Tasking/Task_A2G.lua
View File

@@ -1,13 +1,13 @@
--- **Tasking** - The TASK_A2G models tasks for players in Air to Ground engagements.
--
--
-- ===
--
--
-- ### Author: **FlightControl**
--
-- ### Contributions:
--
--
-- ### Contributions:
--
-- ===
--
--
-- @module Tasking.Task_A2G
-- @image MOOSE.JPG
@@ -18,29 +18,29 @@ do -- TASK_A2G
-- @field Core.Set#SET_UNIT TargetSetUnit
-- @extends Tasking.Task#TASK
--- The TASK_A2G class defines Air To Ground tasks for a @{Set} of Target Units,
--- The TASK_A2G class defines Air To Ground tasks for a @{Set} of Target Units,
-- based on the tasking capabilities defined in @{Tasking.Task#TASK}.
-- The TASK_A2G is implemented using a @{Core.Fsm#FSM_TASK}, and has the following statuses:
--
--
-- * **None**: Start of the process
-- * **Planned**: The A2G task is planned.
-- * **Assigned**: The A2G task is assigned to a @{Wrapper.Group#GROUP}.
-- * **Success**: The A2G task is successfully completed.
-- * **Failed**: The A2G task has failed. This will happen if the player exists the task early, without communicating a possible cancellation to HQ.
--
--
-- ## 1) Set the scoring of achievements in an A2G attack.
--
--
-- Scoring or penalties can be given in the following circumstances:
--
--
-- * @{#TASK_A2G.SetScoreOnDestroy}(): Set a score when a target in scope of the A2G attack, has been destroyed.
-- * @{#TASK_A2G.SetScoreOnSuccess}(): Set a score when all the targets in scope of the A2G attack, have been destroyed.
-- * @{#TASK_A2G.SetPenaltyOnFailed}(): Set a penalty when the A2G attack has failed.
--
--
-- @field #TASK_A2G
TASK_A2G = {
ClassName = "TASK_A2G",
ClassName = "TASK_A2G"
}
--- Instantiates a new TASK_A2G.
-- @param #TASK_A2G self
-- @param Tasking.Mission#MISSION Mission
@@ -54,53 +54,51 @@ do -- TASK_A2G
function TASK_A2G:New( Mission, SetGroup, TaskName, TargetSetUnit, TaskType, TaskBriefing )
local self = BASE:Inherit( self, TASK:New( Mission, SetGroup, TaskName, TaskType, TaskBriefing ) ) -- Tasking.Task#TASK_A2G
self:F()
self.TargetSetUnit = TargetSetUnit
self.TaskType = TaskType
local Fsm = self:GetUnitProcess()
Fsm:AddTransition( "Assigned", "RouteToRendezVous", "RoutingToRendezVous" )
Fsm:AddProcess ( "RoutingToRendezVous", "RouteToRendezVousPoint", ACT_ROUTE_POINT:New(), { Arrived = "ArriveAtRendezVous" } )
Fsm:AddProcess ( "RoutingToRendezVous", "RouteToRendezVousZone", ACT_ROUTE_ZONE:New(), { Arrived = "ArriveAtRendezVous" } )
Fsm:AddProcess( "RoutingToRendezVous", "RouteToRendezVousPoint", ACT_ROUTE_POINT:New(), { Arrived = "ArriveAtRendezVous" } )
Fsm:AddProcess( "RoutingToRendezVous", "RouteToRendezVousZone", ACT_ROUTE_ZONE:New(), { Arrived = "ArriveAtRendezVous" } )
Fsm:AddTransition( { "Arrived", "RoutingToRendezVous" }, "ArriveAtRendezVous", "ArrivedAtRendezVous" )
Fsm:AddTransition( { "ArrivedAtRendezVous", "HoldingAtRendezVous" }, "Engage", "Engaging" )
Fsm:AddTransition( { "ArrivedAtRendezVous", "HoldingAtRendezVous" }, "HoldAtRendezVous", "HoldingAtRendezVous" )
Fsm:AddProcess ( "Engaging", "Account", ACT_ACCOUNT_DEADS:New(), {} )
Fsm:AddProcess( "Engaging", "Account", ACT_ACCOUNT_DEADS:New(), {} )
Fsm:AddTransition( "Engaging", "RouteToTarget", "Engaging" )
Fsm:AddProcess( "Engaging", "RouteToTargetZone", ACT_ROUTE_ZONE:New(), {} )
Fsm:AddProcess( "Engaging", "RouteToTargetPoint", ACT_ROUTE_POINT:New(), {} )
Fsm:AddTransition( "Engaging", "RouteToTargets", "Engaging" )
--Fsm:AddTransition( "Accounted", "DestroyedAll", "Accounted" )
--Fsm:AddTransition( "Accounted", "Success", "Success" )
-- Fsm:AddTransition( "Accounted", "DestroyedAll", "Accounted" )
-- Fsm:AddTransition( "Accounted", "Success", "Success" )
Fsm:AddTransition( "Rejected", "Reject", "Aborted" )
Fsm:AddTransition( "Failed", "Fail", "Failed" )
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task_A2G#TASK_A2G Task
function Fsm:onafterAssigned( TaskUnit, Task )
self:F( { TaskUnit = TaskUnit, Task = Task and Task:GetClassNameAndID() } )
-- Determine the first Unit from the self.RendezVousSetUnit
self:RouteToRendezVous()
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task_A2G#TASK_A2G Task
function Fsm:onafterRouteToRendezVous( TaskUnit, Task )
self:F( { TaskUnit = TaskUnit, Task = Task and Task:GetClassNameAndID() } )
-- Determine the first Unit from the self.RendezVousSetUnit
if Task:GetRendezVousZone( TaskUnit ) then
self:__RouteToRendezVousZone( 0.1 )
else
@@ -112,36 +110,36 @@ do -- TASK_A2G
end
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task#TASK_A2G Task
function Fsm:OnAfterArriveAtRendezVous( TaskUnit, Task )
self:F( { TaskUnit = TaskUnit, Task = Task and Task:GetClassNameAndID() } )
-- Determine the first Unit from the self.TargetSetUnit
self:__Engage( 0.1 )
self:__Engage( 0.1 )
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task#TASK_A2G Task
function Fsm:onafterEngage( TaskUnit, Task )
self:F( { self } )
self:__Account( 0.1 )
self:__RouteToTarget(0.1 )
self:__RouteToTarget( 0.1 )
self:__RouteToTargets( -10 )
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task_A2G#TASK_A2G Task
function Fsm:onafterRouteToTarget( TaskUnit, Task )
self:F( { TaskUnit = TaskUnit, Task = Task and Task:GetClassNameAndID() } )
-- Determine the first Unit from the self.TargetSetUnit
if Task:GetTargetZone( TaskUnit ) then
self:__RouteToTargetZone( 0.1 )
else
@@ -154,8 +152,8 @@ do -- TASK_A2G
self:__RouteToTargetPoint( 0.1 )
end
end
--- Test
--- Test
-- @param #FSM_PROCESS self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param Tasking.Task_A2G#TASK_A2G Task
@@ -167,20 +165,18 @@ do -- TASK_A2G
end
self:__RouteToTargets( -10 )
end
return self
end
--- @param #TASK_A2G self
-- @param Core.Set#SET_UNIT TargetSetUnit The set of targets.
function TASK_A2G:SetTargetSetUnit( TargetSetUnit )
self.TargetSetUnit = TargetSetUnit
end
--- @param #TASK_A2G self
function TASK_A2G:GetPlannedMenuText()
return self:GetStateString() .. " - " .. self:GetTaskName() .. " ( " .. self.TargetSetUnit:GetUnitTypesText() .. " )"
@@ -190,34 +186,32 @@ do -- TASK_A2G
-- @param Core.Point#COORDINATE RendezVousCoordinate The Coordinate object referencing to the 2D point where the RendezVous point is located on the map.
-- @param #number RendezVousRange The RendezVousRange that defines when the player is considered to have arrived at the RendezVous point.
-- @param Wrapper.Unit#UNIT TaskUnit
function TASK_A2G:SetRendezVousCoordinate( RendezVousCoordinate, RendezVousRange, TaskUnit )
function TASK_A2G:SetRendezVousCoordinate( RendezVousCoordinate, RendezVousRange, TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteRendezVous = ProcessUnit:GetProcess( "RoutingToRendezVous", "RouteToRendezVousPoint" ) -- Actions.Act_Route#ACT_ROUTE_POINT
ActRouteRendezVous:SetCoordinate( RendezVousCoordinate )
ActRouteRendezVous:SetRange( RendezVousRange )
end
--- @param #TASK_A2G self
-- @param Wrapper.Unit#UNIT TaskUnit
-- @return Core.Point#COORDINATE The Coordinate object referencing to the 2D point where the RendezVous point is located on the map.
-- @return #number The RendezVousRange that defines when the player is considered to have arrived at the RendezVous point.
function TASK_A2G:GetRendezVousCoordinate( TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteRendezVous = ProcessUnit:GetProcess( "RoutingToRendezVous", "RouteToRendezVousPoint" ) -- Actions.Act_Route#ACT_ROUTE_POINT
return ActRouteRendezVous:GetCoordinate(), ActRouteRendezVous:GetRange()
end
--- @param #TASK_A2G self
-- @param Core.Zone#ZONE_BASE RendezVousZone The Zone object where the RendezVous is located on the map.
-- @param Wrapper.Unit#UNIT TaskUnit
function TASK_A2G:SetRendezVousZone( RendezVousZone, TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteRendezVous = ProcessUnit:GetProcess( "RoutingToRendezVous", "RouteToRendezVousZone" ) -- Actions.Act_Route#ACT_ROUTE_ZONE
@@ -234,18 +228,17 @@ do -- TASK_A2G
local ActRouteRendezVous = ProcessUnit:GetProcess( "RoutingToRendezVous", "RouteToRendezVousZone" ) -- Actions.Act_Route#ACT_ROUTE_ZONE
return ActRouteRendezVous:GetZone()
end
--- @param #TASK_A2G self
-- @param Core.Point#COORDINATE TargetCoordinate The Coordinate object where the Target is located on the map.
-- @param Wrapper.Unit#UNIT TaskUnit
function TASK_A2G:SetTargetCoordinate( TargetCoordinate, TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteTarget = ProcessUnit:GetProcess( "Engaging", "RouteToTargetPoint" ) -- Actions.Act_Route#ACT_ROUTE_POINT
ActRouteTarget:SetCoordinate( TargetCoordinate )
end
--- @param #TASK_A2G self
-- @param Wrapper.Unit#UNIT TaskUnit
@@ -258,18 +251,16 @@ do -- TASK_A2G
return ActRouteTarget:GetCoordinate()
end
--- @param #TASK_A2G self
-- @param Core.Zone#ZONE_BASE TargetZone The Zone object where the Target is located on the map.
-- @param Wrapper.Unit#UNIT TaskUnit
function TASK_A2G:SetTargetZone( TargetZone, TaskUnit )
local ProcessUnit = self:GetUnitProcess( TaskUnit )
local ActRouteTarget = ProcessUnit:GetProcess( "Engaging", "RouteToTargetZone" ) -- Actions.Act_Route#ACT_ROUTE_ZONE
ActRouteTarget:SetZone( TargetZone )
end
--- @param #TASK_A2G self
-- @param Wrapper.Unit#UNIT TaskUnit
@@ -283,47 +274,46 @@ do -- TASK_A2G
end
function TASK_A2G:SetGoalTotal()
self.GoalTotal = self.TargetSetUnit:Count()
end
function TASK_A2G:GetGoalTotal()
return self.GoalTotal
end
--- Return the relative distance to the target vicinity from the player, in order to sort the targets in the reports per distance from the threats.
-- @param #TASK_A2G self
function TASK_A2G:ReportOrder( ReportGroup )
self:UpdateTaskInfo( self.DetectedItem )
function TASK_A2G:ReportOrder( ReportGroup )
self:UpdateTaskInfo( self.DetectedItem )
local Coordinate = self.TaskInfo:GetData( "Coordinate" )
local Distance = ReportGroup:GetCoordinate():Get2DDistance( Coordinate )
return Distance
end
--- This method checks every 10 seconds if the goal has been reached of the task.
-- @param #TASK_A2G self
function TASK_A2G:onafterGoal( TaskUnit, From, Event, To )
local TargetSetUnit = self.TargetSetUnit -- Core.Set#SET_UNIT
if TargetSetUnit:Count() == 0 then
self:Success()
end
self:__Goal( -10 )
end
--- @param #TASK_A2G self
function TASK_A2G:UpdateTaskInfo( DetectedItem )
if self:IsStatePlanned() or self:IsStateAssigned() then
local TargetCoordinate = DetectedItem and self.Detection:GetDetectedItemCoordinate( DetectedItem ) or self.TargetSetUnit:GetFirst():GetCoordinate()
local TargetCoordinate = DetectedItem and self.Detection:GetDetectedItemCoordinate( DetectedItem ) or self.TargetSetUnit:GetFirst():GetCoordinate()
self.TaskInfo:AddTaskName( 0, "MSOD" )
self.TaskInfo:AddCoordinate( TargetCoordinate, 1, "SOD" )
local ThreatLevel, ThreatText
if DetectedItem then
ThreatLevel, ThreatText = self.Detection:GetDetectedItemThreatLevel( DetectedItem )
@@ -331,7 +321,7 @@ do -- TASK_A2G
ThreatLevel, ThreatText = self.TargetSetUnit:CalculateThreatLevelA2G()
end
self.TaskInfo:AddThreat( ThreatText, ThreatLevel, 10, "MOD", true )
if self.Detection then
local DetectedItemsCount = self.TargetSetUnit:Count()
local ReportTypes = REPORT:New()
@@ -344,33 +334,33 @@ do -- TASK_A2G
end
end
self.TaskInfo:AddTargetCount( DetectedItemsCount, 11, "O", true )
self.TaskInfo:AddTargets( DetectedItemsCount, ReportTypes:Text( ", " ), 20, "D", true )
self.TaskInfo:AddTargets( DetectedItemsCount, ReportTypes:Text( ", " ), 20, "D", true )
else
local DetectedItemsCount = self.TargetSetUnit:Count()
local DetectedItemsTypes = self.TargetSetUnit:GetTypeNames()
self.TaskInfo:AddTargetCount( DetectedItemsCount, 11, "O", true )
self.TaskInfo:AddTargets( DetectedItemsCount, DetectedItemsTypes, 20, "D", true )
self.TaskInfo:AddTargets( DetectedItemsCount, DetectedItemsTypes, 20, "D", true )
end
self.TaskInfo:AddQFEAtCoordinate( TargetCoordinate, 30, "MOD" )
self.TaskInfo:AddTemperatureAtCoordinate( TargetCoordinate, 31, "MD" )
self.TaskInfo:AddWindAtCoordinate( TargetCoordinate, 32, "MD" )
end
end
--- This function is called from the @{Tasking.CommandCenter#COMMANDCENTER} to determine the method of automatic task selection.
-- @param #TASK_A2G self
-- @param #number AutoAssignMethod The method to be applied to the task.
-- @param Tasking.CommandCenter#COMMANDCENTER CommandCenter The command center.
-- @param Wrapper.Group#GROUP TaskGroup The player group.
function TASK_A2G:GetAutoAssignPriority( AutoAssignMethod, CommandCenter, TaskGroup )
if AutoAssignMethod == COMMANDCENTER.AutoAssignMethods.Random then
if AutoAssignMethod == COMMANDCENTER.AutoAssignMethods.Random then
return math.random( 1, 9 )
elseif AutoAssignMethod == COMMANDCENTER.AutoAssignMethods.Distance then
local Coordinate = self.TaskInfo:GetData( "Coordinate" )
local Distance = Coordinate:Get2DDistance( CommandCenter:GetPositionable():GetCoordinate() )
self:F({Distance=Distance})
self:F( { Distance = Distance } )
return math.floor( Distance )
elseif AutoAssignMethod == COMMANDCENTER.AutoAssignMethods.Priority then
return 1
@@ -379,8 +369,7 @@ do -- TASK_A2G
return 0
end
end
end
do -- TASK_A2G_SEAD
@@ -397,9 +386,9 @@ do -- TASK_A2G_SEAD
--
-- @field #TASK_A2G_SEAD
TASK_A2G_SEAD = {
ClassName = "TASK_A2G_SEAD",
ClassName = "TASK_A2G_SEAD"
}
--- Instantiates a new TASK_A2G_SEAD.
-- @param #TASK_A2G_SEAD self
-- @param Tasking.Mission#MISSION Mission
@@ -408,19 +397,16 @@ do -- TASK_A2G_SEAD
-- @param Core.Set#SET_UNIT TargetSetUnit
-- @param #string TaskBriefing The briefing of the task.
-- @return #TASK_A2G_SEAD self
function TASK_A2G_SEAD:New( Mission, SetGroup, TaskName, TargetSetUnit, TaskBriefing)
function TASK_A2G_SEAD:New( Mission, SetGroup, TaskName, TargetSetUnit, TaskBriefing )
local self = BASE:Inherit( self, TASK_A2G:New( Mission, SetGroup, TaskName, TargetSetUnit, "SEAD", TaskBriefing ) ) -- #TASK_A2G_SEAD
self:F()
Mission:AddTask( self )
self:SetBriefing(
TaskBriefing or
"Execute a Suppression of Enemy Air Defenses."
)
self:SetBriefing( TaskBriefing or "Execute a Suppression of Enemy Air Defenses." )
return self
end
end
--- Set a score when a target in scope of the A2G attack, has been destroyed .
-- @param #TASK_A2G_SEAD self
@@ -434,7 +420,7 @@ do -- TASK_A2G_SEAD
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScoreProcess( "Engaging", "Account", "AccountForPlayer", "Player " .. PlayerName .. " has SEADed a target.", Score )
return self
end
@@ -450,7 +436,7 @@ do -- TASK_A2G_SEAD
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Success", "All radar emitting targets have been successfully SEADed!", Score )
return self
end
@@ -466,11 +452,10 @@ do -- TASK_A2G_SEAD
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Failed", "The SEADing has failed!", Penalty )
return self
end
end
do -- TASK_A2G_BAI
@@ -488,10 +473,8 @@ do -- TASK_A2G_BAI
-- based on detected enemy ground targets.
--
-- @field #TASK_A2G_BAI
TASK_A2G_BAI = {
ClassName = "TASK_A2G_BAI",
}
TASK_A2G_BAI = { ClassName = "TASK_A2G_BAI" }
--- Instantiates a new TASK_A2G_BAI.
-- @param #TASK_A2G_BAI self
-- @param Tasking.Mission#MISSION Mission
@@ -503,14 +486,11 @@ do -- TASK_A2G_BAI
function TASK_A2G_BAI:New( Mission, SetGroup, TaskName, TargetSetUnit, TaskBriefing )
local self = BASE:Inherit( self, TASK_A2G:New( Mission, SetGroup, TaskName, TargetSetUnit, "BAI", TaskBriefing ) ) -- #TASK_A2G_BAI
self:F()
Mission:AddTask( self )
self:SetBriefing(
TaskBriefing or
"Execute a Battlefield Air Interdiction of a group of enemy targets."
)
self:SetBriefing( TaskBriefing or "Execute a Battlefield Air Interdiction of a group of enemy targets." )
return self
end
@@ -526,7 +506,7 @@ do -- TASK_A2G_BAI
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScoreProcess( "Engaging", "Account", "AccountForPlayer", "Player " .. PlayerName .. " has destroyed a target in Battlefield Air Interdiction (BAI).", Score )
return self
end
@@ -542,7 +522,7 @@ do -- TASK_A2G_BAI
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Success", "All targets have been successfully destroyed! The Battlefield Air Interdiction (BAI) is a success!", Score )
return self
end
@@ -558,15 +538,12 @@ do -- TASK_A2G_BAI
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Failed", "The Battlefield Air Interdiction (BAI) has failed!", Penalty )
return self
end
end
do -- TASK_A2G_CAS
--- The TASK_A2G_CAS class
@@ -581,10 +558,8 @@ do -- TASK_A2G_CAS
-- based on detected enemy ground targets.
--
-- @field #TASK_A2G_CAS
TASK_A2G_CAS = {
ClassName = "TASK_A2G_CAS",
}
TASK_A2G_CAS = { ClassName = "TASK_A2G_CAS" }
--- Instantiates a new TASK_A2G_CAS.
-- @param #TASK_A2G_CAS self
-- @param Tasking.Mission#MISSION Mission
@@ -596,19 +571,13 @@ do -- TASK_A2G_CAS
function TASK_A2G_CAS:New( Mission, SetGroup, TaskName, TargetSetUnit, TaskBriefing )
local self = BASE:Inherit( self, TASK_A2G:New( Mission, SetGroup, TaskName, TargetSetUnit, "CAS", TaskBriefing ) ) -- #TASK_A2G_CAS
self:F()
Mission:AddTask( self )
self:SetBriefing(
TaskBriefing or
"Execute a Close Air Support for a group of enemy targets. " ..
"Beware of friendlies at the vicinity! "
)
Mission:AddTask( self )
self:SetBriefing( TaskBriefing or ( "Execute a Close Air Support for a group of enemy targets. " .. "Beware of friendlies at the vicinity! " ) )
return self
end
end
--- Set a score when a target in scope of the A2G attack, has been destroyed .
-- @param #TASK_A2G_CAS self
@@ -622,7 +591,7 @@ do -- TASK_A2G_CAS
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScoreProcess( "Engaging", "Account", "AccountForPlayer", "Player " .. PlayerName .. " has destroyed a target in Close Air Support (CAS).", Score )
return self
end
@@ -638,7 +607,7 @@ do -- TASK_A2G_CAS
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Success", "All targets have been successfully destroyed! The Close Air Support (CAS) was a success!", Score )
return self
end
@@ -654,9 +623,8 @@ do -- TASK_A2G_CAS
local ProcessUnit = self:GetUnitProcess( TaskUnit )
ProcessUnit:AddScore( "Failed", "The Close Air Support (CAS) has failed!", Penalty )
return self
end
end

399
Moose Development/Moose/Tasking/Task_A2G_Dispatcher.lua
View File

@@ -1,24 +1,25 @@
--- **Tasking** -- Dynamically allocates A2G tasks to human players, based on detected ground targets through reconnaissance.
--
--- **Tasking** -- Dynamically allocates A2G tasks to human players, based on detected ground targets through reconnaissance.
--
-- **Features:**
--
--
-- * Dynamically assign tasks to human players based on detected targets.
-- * Dynamically change the tasks as the tactical situation evolves during the mission.
-- * Dynamically assign (CAS) Close Air Support tasks for human players.
-- * Dynamically assign (BAI) Battlefield Air Interdiction tasks for human players.
-- * Dynamically assign (SEAD) Supression of Enemy Air Defense tasks for human players to eliminate G2A missile threats.
-- * Dynamically assign (SEAD) Suppression of Enemy Air Defense tasks for human players to eliminate G2A missile threats.
-- * Define and use an EWR (Early Warning Radar) network.
-- * Define different ranges to engage upon intruders.
-- * Keep task achievements.
-- * Score task achievements.--
-- * Score task achievements.
--
-- ===
--
--
-- ### Author: **FlightControl**
--
-- ### Contributions:
--
--
-- ### Contributions:
--
-- ===
--
--
-- @module Tasking.Task_A2G_Dispatcher
-- @image Task_A2G_Dispatcher.JPG
@@ -32,151 +33,151 @@ do -- TASK_A2G_DISPATCHER
-- @extends Tasking.DetectionManager#DETECTION_MANAGER
--- Orchestrates dynamic **A2G Task Dispatching** based on the detection results of a linked @{Detection} object.
--
--
-- It uses the Tasking System within the MOOSE framework, which is a multi-player Tasking Orchestration system.
-- It provides a truly dynamic battle environment for pilots and ground commanders to engage upon,
-- in a true co-operation environment wherein **Multiple Teams** will collaborate in Missions to **achieve a common Mission Goal**.
--
--
-- The A2G dispatcher will dispatch the A2G Tasks to a defined @{Set} of @{Wrapper.Group}s that will be manned by **Players**.
-- We call this the **AttackSet** of the A2G dispatcher. So, the Players are seated in the @{Client}s of the @{Wrapper.Group} @{Set}.
--
--
-- Depending on the actions of the enemy, preventive tasks are dispatched to the players to orchestrate the engagement in a true co-operation.
-- The detection object will group the detected targets by its grouping method, and integrates a @{Set} of @{Wrapper.Group}s that are Recce vehicles or air units.
-- We call this the **RecceSet** of the A2G dispatcher.
--
--
-- Depending on the current detected tactical situation, different task types will be dispatched to the Players seated in the AttackSet..
-- There are currently 3 **Task Types** implemented in the TASK\_A2G\_DISPATCHER:
--
--
-- - **SEAD Task**: Dispatched when there are ground based Radar Emitters detected within an area.
-- - **CAS Task**: Dispatched when there are no ground based Radar Emitters within the area, but there are friendly ground Units within 6 km from the enemy.
-- - **BAI Task**: Dispatched when there are no ground based Radar Emitters within the area, and there aren't friendly ground Units within 6 km from the enemy.
--
-- # 0. Tactical Situations
--
--
-- This chapters provides some insights in the tactical situations when certain Task Types are created.
-- The Task Types are depending on the enemy positions that were detected, and the current location of friendly units.
--
--
-- ![](..\Presentations\TASK_A2G_DISPATCHER\Dia3.JPG)
--
--
-- In the demonstration mission [TAD-A2G-000 - AREAS - Detection test],
-- the tactical situation is a demonstration how the A2G detection works.
-- This example will be taken further in the explanation in the following chapters.
--
--
-- ![](..\Presentations\TASK_A2G_DISPATCHER\Dia4.JPG)
--
--
-- The red coalition are the players, the blue coalition is the enemy.
--
--
-- Red reconnaissance vehicles and airborne units are detecting the targets.
-- We call this the RecceSet as explained above, which is a Set of Groups that
-- have a group name starting with `Recce` (configured in the mission script).
--
--
-- Red attack units are responsible for executing the mission for the command center.
-- We call this the AttackSet, which is a Set of Groups with a group name starting with `Attack` (configured in the mission script).
-- These units are setup in this demonstration mission to be ground vehicles and airplanes.
-- For demonstration purposes, the attack airplane is stationed on the ground to explain
-- the messages and the menus properly.
-- Further test missions demonstrate the A2G task dispatcher from within air.
--
--
-- Depending upon the detection results, the A2G dispatcher will create different tasks.
--
--
-- # 0.1. SEAD Task
--
--
-- A SEAD Task is dispatched when there are ground based Radar Emitters detected within an area.
--
--
-- ![](..\Presentations\TASK_A2G_DISPATCHER\Dia9.JPG)
--
--
-- - Once all Radar Emitting Units have been destroyed, the Task will convert into a BAI or CAS task!
-- - A CAS and BAI task may be converted into a SEAD task, once a radar has been detected within the area!
--
--
-- # 0.2. CAS Task
--
--
-- A CAS Task is dispatched when there are no ground based Radar Emitters within the area, but there are friendly ground Units within 6 km from the enemy.
--
--
-- ![](..\Presentations\TASK_A2G_DISPATCHER\Dia10.JPG)
--
--
-- - After the detection of the CAS task, if the friendly Units are destroyed, the CAS task will convert into a BAI task!
-- - Only ground Units are taken into account. Airborne units are ships are not considered friendlies that require Close Air Support.
--
--
-- # 0.3. BAI Task
--
--
-- A BAI Task is dispatched when there are no ground based Radar Emitters within the area, and there aren't friendly ground Units within 6 km from the enemy.
--
--
-- ![](..\Presentations\TASK_A2G_DISPATCHER\Dia11.JPG)
--
-- - A BAI task may be converted into a CAS task if friendly Ground Units approach within 6 km range!
--
-- # 1. Player Experience
--
--
-- The A2G dispatcher is residing under a @{CommandCenter}, which is orchestrating a @{Mission}.
-- As a result, you'll find for DCS World missions that implement the A2G dispatcher a **Command Center Menu** and under this one or more **Mission Menus**.
--
--
-- For example, if there are 2 Command Centers (CC).
-- Each CC is controlling a couple of Missions, the Radio Menu Structure could look like this:
--
--
-- Radio MENU Structure (F10. Other)
--
--
-- F1. Command Center [Gori]
-- F1. Mission "Alpha (Primary)"
-- F2. Mission "Beta (Secondary)"
-- F3. Mission "Gamma (Tactical)"
-- F1. Command Center [Lima]
-- F1. Mission "Overlord (High)"
--
-- Command Center [Gori] is controlling Mission "Alpha", "Beta", "Gamma". Alpha is the Primary mission, Beta the Secondary and there is a Tacical mission Gamma.
--
-- Command Center [Gori] is controlling Mission "Alpha", "Beta", "Gamma". Alpha is the Primary mission, Beta the Secondary and there is a Tactical mission Gamma.
-- Command Center [Lima] is controlling Missions "Overlord", which needs to be executed with High priority.
--
-- ## 1.1. Mission Menu (Under the Command Center Menu)
--
--
-- The Mission Menu controls the information of the mission, including the:
--
--
-- - **Mission Briefing**: A briefing of the Mission in text, which will be shown as a message.
-- - **Mark Task Locations**: A summary of each Task will be shown on the map as a marker.
-- - **Create Task Reports**: A menu to create various reports of the current tasks dispatched by the A2G dispatcher.
-- - **Create Mission Reports**: A menu to create various reports on the current mission.
--
--
-- For CC [Lima], Mission "Overlord", the menu structure could look like this:
--
--
-- Radio MENU Structure (F10. Other)
--
--
-- F1. Command Center [Lima]
-- F1. Mission "Overlord"
-- F1. Mission Briefing
-- F2. Mark Task Locations on Map
-- F3. Task Reports
-- F4. Mission Reports
--
--
-- ![](..\Presentations\TASK_A2G_DISPATCHER\Dia5.JPG)
--
--
-- ### 1.1.1. Mission Briefing Menu
--
--
-- The Mission Briefing Menu will show in text a summary description of the overall mission objectives and expectations.
-- Note that the Mission Briefing is not the briefing of a specific task, but rather provides an overall strategy and tactical situation,
-- and explains the mission goals.
--
--
-- and explains the mission goals.
--
--
-- ### 1.1.2. Mark Task Locations Menu
--
--
-- The Mark Task Locations Menu will mark the location indications of the Tasks on the map, if this intelligence is known by the Command Center.
-- For A2G tasks this information will always be know, but it can be that for other tasks a location intelligence will be less relevant.
-- Note that each Planned task and each Engaged task will be marked. Completed, Failed and Cancelled tasks are not marked.
-- Depending on the task type, a summary information is shown to bring to the player the relevant information for situational awareness.
--
--
-- ### 1.1.3. Task Reports Menu
--
--
-- The Task Reports Menu is a sub menu, that allows to create various reports:
--
--
-- - **Tasks Summary**: This report will list all the Tasks that are or were active within the mission, indicating its status.
-- - **Planned Tasks**: This report will list all the Tasks that are in status Planned, which are Tasks not assigned to any player, and are ready to be executed.
-- - **Assigned Tasks**: This report will list all the Tasks that are in status Assigned, which are Tasks assigned to (a) player(s) and are currently executed.
-- - **Successful Tasks**: This report will list all the Tasks that are in status Success, which are Tasks executed by (a) player(s) and are completed successfully.
-- - **Failed Tasks**: This report will list all the Tasks that are in status Success, which are Tasks executed by (a) player(s) and that have failed.
--
--
-- The information shown of the tasks will vary according the underlying task type, but are self explanatory.
--
-- For CC [Gori], Mission "Alpha", the Task Reports menu structure could look like this:
--
--
-- Radio MENU Structure (F10. Other)
--
--
-- F1. Command Center [Gori]
-- F1. Mission "Alpha"
-- F1. Mission Briefing
@@ -188,21 +189,21 @@ do -- TASK_A2G_DISPATCHER
-- F4. Successful Tasks
-- F5. Failed Tasks
-- F4. Mission Reports
--
--
-- Note that these reports provide an "overview" of the tasks. Detailed information of the task can be retrieved using the Detailed Report on the Task Menu.
-- (See later).
--
--
-- ### 1.1.4. Mission Reports Menu
--
--
-- The Mission Reports Menu is a sub menu, that provides options to retrieve further information on the current Mission:
--
-- - **Report Mission Progress**: Shows the progress of the current Mission. Each Task has a %-tage of completion.
--
-- - **Report Mission Progress**: Shows the progress of the current Mission. Each Task has a % of completion.
-- - **Report Players per Task**: Show which players are engaged on which Task within the Mission.
--
--
-- For CC |Gori|, Mission "Alpha", the Mission Reports menu structure could look like this:
--
--
-- Radio MENU Structure (F10. Other)
--
--
-- F1. Command Center [Gori]
-- F1. Mission "Alpha"
-- F1. Mission Briefing
@@ -211,25 +212,25 @@ do -- TASK_A2G_DISPATCHER
-- F4. Mission Reports
-- F1. Report Mission Progress
-- F2. Report Players per Task
--
--
--
--
-- ## 1.2. Task Management Menus
--
--
-- Very important to remember is: **Multiple Players can be assigned to the same Task, but from the player perspective, the Player can only be assigned to one Task per Mission at the same time!**
-- Consider this like the two major modes in which a player can be in. He can be free of tasks or he can be assigned to a Task.
-- Depending on whether a Task has been Planned or Assigned to a Player (Group),
-- **the Mission Menu will contain extra Menus to control specific Tasks.**
--
--
-- #### 1.2.1. Join a Planned Task
--
--
-- If the Player has not yet been assigned to a Task within the Mission, the Mission Menu will contain additionally a:
--
--
-- - Join Planned Task Menu: This menu structure allows the player to join a planned task (a Task with status Planned).
--
--
-- For CC |Gori|, Mission "Alpha", the menu structure could look like this:
--
--
-- Radio MENU Structure (F10. Other)
--
--
-- F1. Command Center [Gori]
-- F1. Mission "Alpha"
-- F1. Mission Briefing
@@ -237,23 +238,23 @@ do -- TASK_A2G_DISPATCHER
-- F3. Task Reports
-- F4. Mission Reports
-- F5. Join Planned Task
--
--
-- **The F5. Join Planned Task allows the player to join a Planned Task and take an engagement in the running Mission.**
--
-- #### 1.2.2. Manage an Assigned Task
--
--
-- #### 1.2.2. Manage an Assigned Task
--
-- If the Player has been assigned to one Task within the Mission, the Mission Menu will contain an extra:
--
--
-- - Assigned Task __TaskName__ Menu: This menu structure allows the player to take actions on the currently engaged task.
--
--
-- In this example, the Group currently seated by the player is not assigned yet to a Task.
-- The Player has the option to assign itself to a Planned Task using menu option F5 under the Mission Menu "Alpha".
--
--
-- This would be an example menu structure,
-- for CC |Gori|, Mission "Alpha", when a player would have joined Task CAS.001:
--
--
-- Radio MENU Structure (F10. Other)
--
--
-- F1. Command Center [Gori]
-- F1. Mission "Alpha"
-- F1. Mission Briefing
@@ -261,26 +262,25 @@ do -- TASK_A2G_DISPATCHER
-- F3. Task Reports
-- F4. Mission Reports
-- F5. Assigned Task CAS.001
--
--
-- **The F5. Assigned Task __TaskName__ allows the player to control the current Assigned Task and take further actions.**
--
--
--
-- ## 1.3. Join Planned Task Menu
--
--
-- The Join Planned Task Menu contains the different Planned A2G Tasks **in a structured Menu Hierarchy**.
-- The Menu Hierarchy is structuring the Tasks per **Task Type**, and then by **Task Name (ID)**.
--
-- For example, for CC [Gori], Mission "Alpha",
-- The Menu Hierarchy is structuring the Tasks per **Task Type**, and then by **Task Name (ID)**.
--
-- For example, for CC [Gori], Mission "Alpha",
-- if a Mission "ALpha" contains 5 Planned Tasks, which would be:
--
-- - 2 CAS Tasks
--
-- - 2 CAS Tasks
-- - 1 BAI Task
-- - 2 SEAD Tasks
--
--
-- the Join Planned Task Menu Hierarchy could look like this:
--
--
-- Radio MENU Structure (F10. Other)
--
--
-- F1. Command Center [Gori]
-- F1. Mission "Alpha"
-- F1. Mission Briefing
@@ -296,26 +296,26 @@ do -- TASK_A2G_DISPATCHER
-- F1. SEAD.003
-- F2. SEAD.004
-- F3. SEAD.005
--
--
-- An example from within a running simulation:
--
--
-- ![](..\Presentations\TASK_A2G_DISPATCHER\Dia6.JPG)
--
--
-- Each Task Type Menu would have a list of the Task Menus underneath.
-- Each Task Menu (eg. `CAS.001`) has a **detailed Task Menu structure to control the specific task**!
--
-- ### 1.3.1. Planned Task Menu
--
-- Each Planned Task Menu will allow for the following actions:
--
--
-- - Report Task Details: Provides a detailed report on the Planned Task.
-- - Mark Task Location on Map: Mark the approximate location of the Task on the Map, if relevant.
-- - Join Task: Join the Task. This is THE menu option to let a Player join the Task, and to engage within the Mission.
--
-- The Join Planned Task Menu could look like this for for CC |Gori|, Mission "Alpha":
--
--
-- The Join Planned Task Menu could look like this for for CC |Gori|, Mission "Alpha":
--
-- Radio MENU Structure (F10. Other)
--
--
-- F1. Command Center |Gori|
-- F1. Mission "Alpha"
-- F1. Mission Briefing
@@ -328,22 +328,22 @@ do -- TASK_A2G_DISPATCHER
-- F1. Report Task Details
-- F2. Mark Task Location on Map
-- F3. Join Task
--
--
-- **The Join Task is THE menu option to let a Player join the Task, and to engage within the Mission.**
--
--
--
--
-- ## 1.4. Assigned Task Menu
--
--
-- The Assigned Task Menu allows to control the **current assigned task** within the Mission.
--
--
-- Depending on the Type of Task, the following menu options will be available:
--
--
-- - **Report Task Details**: Provides a detailed report on the Planned Task.
-- - **Mark Task Location on Map**: Mark the approximate location of the Task on the Map, if relevant.
-- - **Abort Task: Abort the current assigned Task:** This menu option lets the player abort the Task.
--
--
-- For example, for CC |Gori|, Mission "Alpha", the Assigned Menu could be:
--
--
-- F1. Command Center |Gori|
-- F1. Mission "Alpha"
-- F1. Mission Briefing
@@ -354,90 +354,89 @@ do -- TASK_A2G_DISPATCHER
-- F1. Report Task Details
-- F2. Mark Task Location on Map
-- F3. Abort Task
--
--
-- Task abortion will result in the Task to be Cancelled, and the Task **may** be **Replanned**.
-- However, this will depend on the setup of each Mission.
--
-- However, this will depend on the setup of each Mission.
--
-- ## 1.5. Messages
--
--
-- During game play, different messages are displayed.
-- These messages provide an update of the achievements made, and the state wherein the task is.
--
--
-- The various reports can be used also to retrieve the current status of the mission and its tasks.
--
--
-- ![](..\Presentations\TASK_A2G_DISPATCHER\Dia7.JPG)
--
--
-- The @{Settings} menu provides additional options to control the timing of the messages.
-- There are:
--
--
-- - Status messages, which are quick status updates. The settings menu allows to switch off these messages.
-- - Information messages, which are shown a bit longer, as they contain important information.
-- - Summary reports, which are quick reports showing a high level summary.
-- - Overview reports, which are providing the essential information. It provides an overview of a greater thing, and may take a bit of time to read.
-- - Detailed reports, which provide with very detailed information. It takes a bit longer to read those reports, so the display of those could be a bit longer.
--
--
-- # 2. TASK\_A2G\_DISPATCHER constructor
--
--
-- The @{#TASK_A2G_DISPATCHER.New}() method creates a new TASK\_A2G\_DISPATCHER instance.
--
-- # 3. Usage
--
-- To use the TASK\_A2G\_DISPATCHER class, you need:
--
--
-- - A @{CommandCenter} object. The master communication channel.
-- - A @{Mission} object. Each task belongs to a Mission.
-- - A @{Detection} object. There are several detection grouping methods to choose from.
-- - A @{Task_A2G_Dispatcher} object. The master A2G task dispatcher.
-- - A @{Set} of @{Wrapper.Group} objects that will detect the emeny, the RecceSet. This is attached to the @{Detection} object.
-- - A @{Set} of @{Wrapper.Group} objects that will detect the enemy, the RecceSet. This is attached to the @{Detection} object.
-- - A @{Set} ob @{Wrapper.Group} objects that will attack the enemy, the AttackSet. This is attached to the @{Task_A2G_Dispatcher} object.
--
-- Below an example mission declaration that is defines a Task A2G Dispatcher object.
--
-- -- Declare the Command Center
-- Below an example mission declaration that is defines a Task A2G Dispatcher object.
--
-- -- Declare the Command Center
-- local HQ = GROUP
-- :FindByName( "HQ", "Bravo HQ" )
--
-- local CommandCenter = COMMANDCENTER
-- :New( HQ, "Lima" )
--
--
-- -- Declare the Mission for the Command Center.
-- local Mission = MISSION
-- :New( CommandCenter, "Overlord", "High", "Attack Detect Mission Briefing", coalition.side.RED )
--
--
-- -- Define the RecceSet that will detect the enemy.
-- local RecceSet = SET_GROUP
-- :New()
-- :FilterPrefixes( "FAC" )
-- :FilterCoalitions("red")
-- :FilterStart()
--
--
-- -- Setup the detection. We use DETECTION_AREAS to detect and group the enemies within areas of 3 km radius.
-- local DetectionAreas = DETECTION_AREAS
-- :New( RecceSet, 3000 ) -- The RecceSet will detect the enemies.
--
--
-- -- Setup the AttackSet, which is a SET_GROUP.
-- -- The SET_GROUP is a dynamic collection of GROUP objects.
-- -- The SET_GROUP is a dynamic collection of GROUP objects.
-- local AttackSet = SET_GROUP
-- :New() -- Create the SET_GROUP object.
-- :FilterCoalitions( "red" ) -- Only incorporate the RED coalitions.
-- :FilterPrefixes( "Attack" ) -- Only incorporate groups that start with the name Attack.
-- :FilterStart() -- Enable the dynamic filtering. From this moment the AttackSet will contain all groups that are red and start with the name Attack.
--
--
-- -- Now we have everything to setup the main A2G TaskDispatcher.
-- TaskDispatcher = TASK_A2G_DISPATCHER
-- :New( Mission, AttackSet, DetectionAreas ) -- We assign the TaskDispatcher under Mission. The AttackSet will engage the enemy and will recieve the dispatched Tasks. The DetectionAreas will report any detected enemies to the TaskDispatcher.
--
--
-- :New( Mission, AttackSet, DetectionAreas ) -- We assign the TaskDispatcher under Mission. The AttackSet will engage the enemy and will receive the dispatched Tasks. The DetectionAreas will report any detected enemies to the TaskDispatcher.
--
--
--
-- @field #TASK_A2G_DISPATCHER
TASK_A2G_DISPATCHER = {
ClassName = "TASK_A2G_DISPATCHER",
Mission = nil,
Detection = nil,
Tasks = {},
Tasks = {}
}
--- TASK_A2G_DISPATCHER constructor.
-- @param #TASK_A2G_DISPATCHER self
-- @param Tasking.Mission#MISSION Mission The mission for which the task dispatching is done.
@@ -445,18 +444,18 @@ do -- TASK_A2G_DISPATCHER
-- @param Functional.Detection#DETECTION_BASE Detection The detection results that are used to dynamically assign new tasks to human players.
-- @return #TASK_A2G_DISPATCHER self
function TASK_A2G_DISPATCHER:New( Mission, SetGroup, Detection )
-- Inherits from DETECTION_MANAGER
local self = BASE:Inherit( self, DETECTION_MANAGER:New( SetGroup, Detection ) ) -- #TASK_A2G_DISPATCHER
self.Detection = Detection
self.Mission = Mission
self.FlashNewTask = true --set to false to suppress flash messages
self.FlashNewTask = true -- set to false to suppress flash messages
self.Detection:FilterCategories( { Unit.Category.GROUND_UNIT } )
self:AddTransition( "Started", "Assign", "Started" )
--- OnAfter Transition Handler for Event Assign.
-- @function [parent=#TASK_A2G_DISPATCHER] OnAfterAssign
-- @param #TASK_A2G_DISPATCHER self
@@ -466,19 +465,19 @@ do -- TASK_A2G_DISPATCHER
-- @param Tasking.Task_A2G#TASK_A2G Task
-- @param Wrapper.Unit#UNIT TaskUnit
-- @param #string PlayerName
self:__Start( 5 )
return self
end
--- Set flashing player messages on or off
--- Set flashing player messages on or off
-- @param #TASK_A2G_DISPATCHER self
-- @param #boolean onoff Set messages on (true) or off (false)
function TASK_A2G_DISPATCHER:SetSendMessages( onoff )
self.FlashNewTask = onoff
self.FlashNewTask = onoff
end
--- Creates a SEAD task when there are targets for it.
-- @param #TASK_A2G_DISPATCHER self
-- @param Functional.Detection#DETECTION_AREAS.DetectedItem DetectedItem
@@ -486,7 +485,7 @@ do -- TASK_A2G_DISPATCHER
-- @return #nil If there are no targets to be set.
function TASK_A2G_DISPATCHER:EvaluateSEAD( DetectedItem )
self:F( { DetectedItem.ItemID } )
local DetectedSet = DetectedItem.Set
local DetectedZone = DetectedItem.Zone
@@ -500,10 +499,10 @@ do -- TASK_A2G_DISPATCHER
TargetSetUnit:SetDatabase( DetectedSet )
TargetSetUnit:FilterHasSEAD()
TargetSetUnit:FilterOnce() -- Filter but don't do any events!!! Elements are added manually upon each detection.
return TargetSetUnit
end
return nil
end
@@ -514,11 +513,10 @@ do -- TASK_A2G_DISPATCHER
-- @return #nil If there are no targets to be set.
function TASK_A2G_DISPATCHER:EvaluateCAS( DetectedItem )
self:F( { DetectedItem.ItemID } )
local DetectedSet = DetectedItem.Set
local DetectedZone = DetectedItem.Zone
-- Determine if the set has ground units.
-- There should be ground unit friendlies nearby. Airborne units are valid friendlies types.
-- And there shouldn't be any radar.
@@ -532,13 +530,13 @@ do -- TASK_A2G_DISPATCHER
local TargetSetUnit = SET_UNIT:New()
TargetSetUnit:SetDatabase( DetectedSet )
TargetSetUnit:FilterOnce() -- Filter but don't do any events!!! Elements are added manually upon each detection.
return TargetSetUnit
end
return nil
end
--- Creates a BAI task when there are targets for it.
-- @param #TASK_A2G_DISPATCHER self
-- @param Functional.Detection#DETECTION_AREAS.DetectedItem DetectedItem
@@ -546,11 +544,10 @@ do -- TASK_A2G_DISPATCHER
-- @return #nil If there are no targets to be set.
function TASK_A2G_DISPATCHER:EvaluateBAI( DetectedItem, FriendlyCoalition )
self:F( { DetectedItem.ItemID } )
local DetectedSet = DetectedItem.Set
local DetectedZone = DetectedItem.Zone
-- Determine if the set has ground units.
-- There shouldn't be any ground unit friendlies nearby.
-- And there shouldn't be any radar.
@@ -564,19 +561,18 @@ do -- TASK_A2G_DISPATCHER
local TargetSetUnit = SET_UNIT:New()
TargetSetUnit:SetDatabase( DetectedSet )
TargetSetUnit:FilterOnce() -- Filter but don't do any events!!! Elements are added manually upon each detection.
return TargetSetUnit
end
return nil
end
function TASK_A2G_DISPATCHER:RemoveTask( TaskIndex )
self.Mission:RemoveTask( self.Tasks[TaskIndex] )
self.Tasks[TaskIndex] = nil
end
--- Evaluates the removal of the Task from the Mission.
-- Can only occur when the DetectedItem is Changed AND the state of the Task is "Planned".
-- @param #TASK_A2G_DISPATCHER self
@@ -586,17 +582,16 @@ do -- TASK_A2G_DISPATCHER
-- @param #boolean DetectedItemChange
-- @return Tasking.Task#TASK
function TASK_A2G_DISPATCHER:EvaluateRemoveTask( Mission, Task, TaskIndex, DetectedItemChanged )
if Task then
if ( Task:IsStatePlanned() and DetectedItemChanged == true ) or Task:IsStateCancelled() then
--self:F( "Removing Tasking: " .. Task:GetTaskName() )
if (Task:IsStatePlanned() and DetectedItemChanged == true) or Task:IsStateCancelled() then
-- self:F( "Removing Tasking: " .. Task:GetTaskName() )
self:RemoveTask( TaskIndex )
end
end
return Task
end
--- Assigns tasks in relation to the detected items to the @{Core.Set#SET_GROUP}.
-- @param #TASK_A2G_DISPATCHER self
@@ -604,15 +599,15 @@ do -- TASK_A2G_DISPATCHER
-- @return #boolean Return true if you want the task assigning to continue... false will cancel the loop.
function TASK_A2G_DISPATCHER:ProcessDetected( Detection )
self:F()
local AreaMsg = {}
local TaskMsg = {}
local ChangeMsg = {}
local Mission = self.Mission
if Mission:IsIDLE() or Mission:IsENGAGED() then
local TaskReport = REPORT:New()
-- Checking the task queue for the dispatcher, and removing any obsolete task!
@@ -634,21 +629,21 @@ do -- TASK_A2G_DISPATCHER
--- First we need to the detected targets.
for DetectedItemID, DetectedItem in pairs( Detection:GetDetectedItems() ) do
local DetectedItem = DetectedItem -- Functional.Detection#DETECTION_BASE.DetectedItem
local DetectedSet = DetectedItem.Set -- Core.Set#SET_UNIT
local DetectedZone = DetectedItem.Zone
--self:F( { "Targets in DetectedItem", DetectedItem.ItemID, DetectedSet:Count(), tostring( DetectedItem ) } )
--DetectedSet:Flush( self )
-- self:F( { "Targets in DetectedItem", DetectedItem.ItemID, DetectedSet:Count(), tostring( DetectedItem ) } )
-- DetectedSet:Flush( self )
local DetectedItemID = DetectedItem.ID
local TaskIndex = DetectedItem.Index
local DetectedItemChanged = DetectedItem.Changed
self:F( { DetectedItemChanged = DetectedItemChanged, DetectedItemID = DetectedItemID, TaskIndex = TaskIndex } )
local Task = self.Tasks[TaskIndex] -- Tasking.Task_A2G#TASK_A2G
if Task then
-- If there is a Task and the task was assigned, then we check if the task was changed ... If it was, we need to reevaluate the targets.
if Task:IsStateAssigned() then
@@ -660,7 +655,7 @@ do -- TASK_A2G_DISPATCHER
Task:SetTargetSetUnit( TargetSetUnit )
Task:SetDetection( Detection, DetectedItem )
Task:UpdateTaskInfo( DetectedItem )
TargetsReport:Add( Detection:GetChangeText( DetectedItem ) )
TargetsReport:Add( Detection:GetChangeText( DetectedItem ) )
else
Task:Cancel()
end
@@ -691,18 +686,18 @@ do -- TASK_A2G_DISPATCHER
end
end
end
-- Now we send to each group the changes, if any.
for TaskGroupID, TaskGroup in pairs( self.SetGroup:GetSet() ) do
local TargetsText = TargetsReport:Text(", ")
if ( Mission:IsGroupAssigned(TaskGroup) ) and TargetsText ~= "" and self.FlashNewTask then
local TargetsText = TargetsReport:Text( ", " )
if (Mission:IsGroupAssigned( TaskGroup )) and TargetsText ~= "" and self.FlashNewTask then
Mission:GetCommandCenter():MessageToGroup( string.format( "Task %s has change of targets:\n %s", Task:GetName(), TargetsText ), TaskGroup )
end
end
end
end
end
if Task then
if Task:IsStatePlanned() then
if DetectedItemChanged == true then -- The detection has changed, thus a new TargetSet is to be evaluated and set
@@ -753,7 +748,7 @@ do -- TASK_A2G_DISPATCHER
local TargetSetUnit = self:EvaluateSEAD( DetectedItem ) -- Returns a SetUnit if there are targets to be SEADed...
if TargetSetUnit then
Task = TASK_A2G_SEAD:New( Mission, self.SetGroup, string.format( "SEAD.%03d", DetectedItemID ), TargetSetUnit )
DetectedItem.DesignateMenuName = string.format( "SEAD.%03d", DetectedItemID ) --inject a name for DESIGNATE, if using same DETECTION object
DetectedItem.DesignateMenuName = string.format( "SEAD.%03d", DetectedItemID ) -- inject a name for DESIGNATE, if using same DETECTION object
Task:SetDetection( Detection, DetectedItem )
end
@@ -762,7 +757,7 @@ do -- TASK_A2G_DISPATCHER
local TargetSetUnit = self:EvaluateCAS( DetectedItem ) -- Returns a SetUnit if there are targets to be CASed...
if TargetSetUnit then
Task = TASK_A2G_CAS:New( Mission, self.SetGroup, string.format( "CAS.%03d", DetectedItemID ), TargetSetUnit )
DetectedItem.DesignateMenuName = string.format( "CAS.%03d", DetectedItemID ) --inject a name for DESIGNATE, if using same DETECTION object
DetectedItem.DesignateMenuName = string.format( "CAS.%03d", DetectedItemID ) -- inject a name for DESIGNATE, if using same DETECTION object
Task:SetDetection( Detection, DetectedItem )
end
@@ -771,19 +766,19 @@ do -- TASK_A2G_DISPATCHER
local TargetSetUnit = self:EvaluateBAI( DetectedItem, self.Mission:GetCommandCenter():GetPositionable():GetCoalition() ) -- Returns a SetUnit if there are targets to be BAIed...
if TargetSetUnit then
Task = TASK_A2G_BAI:New( Mission, self.SetGroup, string.format( "BAI.%03d", DetectedItemID ), TargetSetUnit )
DetectedItem.DesignateMenuName = string.format( "BAI.%03d", DetectedItemID ) --inject a name for DESIGNATE, if using same DETECTION object
DetectedItem.DesignateMenuName = string.format( "BAI.%03d", DetectedItemID ) -- inject a name for DESIGNATE, if using same DETECTION object
Task:SetDetection( Detection, DetectedItem )
end
end
end
if Task then
self.Tasks[TaskIndex] = Task
Task:SetTargetZone( DetectedZone )
Task:SetDispatcher( self )
Task:UpdateTaskInfo( DetectedItem )
Mission:AddTask( Task )
function Task.OnEnterSuccess( Task, From, Event, To )
self:Success( Task )
end
@@ -791,7 +786,7 @@ do -- TASK_A2G_DISPATCHER
function Task.OnEnterCancelled( Task, From, Event, To )
self:Cancelled( Task )
end
function Task.OnEnterFailed( Task, From, Event, To )
self:Failed( Task )
end
@@ -799,31 +794,29 @@ do -- TASK_A2G_DISPATCHER
function Task.OnEnterAborted( Task, From, Event, To )
self:Aborted( Task )
end
TaskReport:Add( Task:GetName() )
else
self:F("This should not happen")
self:F( "This should not happen" )
end
end
-- OK, so the tasking has been done, now delete the changes reported for the area.
Detection:AcceptChanges( DetectedItem )
end
-- TODO set menus using the HQ coordinator
Mission:GetCommandCenter():SetMenu()
local TaskText = TaskReport:Text(", ")
local TaskText = TaskReport:Text( ", " )
for TaskGroupID, TaskGroup in pairs( self.SetGroup:GetSet() ) do
if ( not Mission:IsGroupAssigned(TaskGroup) ) and TaskText ~= "" and self.FlashNewTask then
if (not Mission:IsGroupAssigned( TaskGroup )) and TaskText ~= "" and self.FlashNewTask then
Mission:GetCommandCenter():MessageToGroup( string.format( "%s has tasks %s. Subscribe to a task using the radio menu.", Mission:GetShortText(), TaskText ), TaskGroup )
end
end
end
return true
end

124
Moose Development/Moose/Utilities/Enums.lua
View File

@@ -1,18 +1,18 @@
--- **Utilities** Enumerators.
--
--
-- An enumerator is a variable that holds a constant value. Enumerators are very useful because they make the code easier to read and to change in general.
--
--
-- For example, instead of using the same value at multiple different places in your code, you should use a variable set to that value.
-- If, for whatever reason, the value needs to be changed, you only have to change the variable once and do not have to search through you code and reset
-- every value by hand.
--
--
-- Another big advantage is that the LDT intellisense "knows" the enumerators. So you can use the autocompletion feature and do not have to keep all the
-- values in your head or look them up in the docs.
--
-- values in your head or look them up in the docs.
--
-- DCS itself provides a lot of enumerators for various things. See [Enumerators](https://wiki.hoggitworld.com/view/Category:Enumerators) on Hoggit.
--
-- Other Moose classe also have enumerators. For example, the AIRBASE class has enumerators for airbase names.
--
--
-- Other Moose classes also have enumerators. For example, the AIRBASE class has enumerators for airbase names.
--
-- @module ENUMS
-- @image MOOSE.JPG
@@ -20,7 +20,7 @@
-- @type ENUMS
--- Because ENUMS are just better practice.
--
--
-- The ENUMS class adds some handy variables, which help you to make your code better and more general.
--
-- @field #ENUMS
@@ -30,16 +30,16 @@ ENUMS = {}
-- @type ENUMS.ROE
-- @field #number WeaponFree AI will engage any enemy group it detects. Target prioritization is based based on the threat of the target.
-- @field #number OpenFireWeaponFree AI will engage any enemy group it detects, but will prioritize targets specified in the groups tasking.
-- @field #number OpenFire AI will engage only targets specified in its taskings.
-- @field #number OpenFire AI will engage only targets specified in its tasking.
-- @field #number ReturnFire AI will only engage threats that shoot first.
-- @field #number WeaponHold AI will hold fire under all circumstances.
ENUMS.ROE = {
WeaponFree=0,
OpenFireWeaponFree=1,
OpenFire=2,
ReturnFire=3,
WeaponHold=4,
}
WeaponFree = 0,
OpenFireWeaponFree = 1,
OpenFire = 2,
ReturnFire = 3,
WeaponHold = 4,
}
--- Reaction On Threat.
-- @type ENUMS.ROT
@@ -49,11 +49,11 @@ ENUMS.ROE = {
-- @field #number BypassAndEscape AI will attempt to avoid enemy threat zones all together. This includes attempting to fly above or around threats.
-- @field #number AllowAbortMission If a threat is deemed severe enough the AI will abort its mission and return to base.
ENUMS.ROT = {
NoReaction=0,
PassiveDefense=1,
EvadeFire=2,
BypassAndEscape=3,
AllowAbortMission=4,
NoReaction = 0,
PassiveDefense = 1,
EvadeFire = 2,
BypassAndEscape = 3,
AllowAbortMission = 4,
}
--- Alarm state.
@@ -62,12 +62,12 @@ ENUMS.ROT = {
-- @field #number Green Group is not combat ready. Sensors are stowed if possible.
-- @field #number Red Group is combat ready and actively searching for targets. Some groups like infantry will not move in this state.
ENUMS.AlarmState = {
Auto=0,
Green=1,
Red=2,
Auto = 0,
Green = 1,
Red = 2,
}
--- Weapon types. See the [Weapon Flag](https://wiki.hoggitworld.com/view/DCS_enum_weapon_flag) enumerotor on hoggit wiki.
--- Weapon types. See the [Weapon Flag](https://wiki.hoggitworld.com/view/DCS_enum_weapon_flag) enumerator on Hoggit wiki.
-- @type ENUMS.WeaponFlag
ENUMS.WeaponFlag={
-- Bombs
@@ -111,7 +111,7 @@ ENUMS.WeaponFlag={
--
-- Bombs
GuidedBomb = 14, -- (LGB + TvGB + SNSGB)
AnyUnguidedBomb = 2147485680, -- (HeBomb + Penetrator + NapalmBomb + FAEBomb + ClusterBomb + Dispencer + CandleBomb + ParachuteBomb)
AnyUnguidedBomb = 2147485680, -- (HeBomb + Penetrator + NapalmBomb + FAEBomb + ClusterBomb + Dispenser + CandleBomb + ParachuteBomb)
AnyBomb = 2147485694, -- (GuidedBomb + AnyUnguidedBomb)
--- Rockets
AnyRocket = 30720, -- LightRocket + MarkerRocket + CandleRocket + HeavyRocket
@@ -123,7 +123,7 @@ ENUMS.WeaponFlag={
--- Air-To-Air Missiles
AnyAAM = 264241152, -- IR_AAM + SAR_AAM + AR_AAM + SRAAM + MRAAM + LRAAM
AnyAutonomousMissile = 36012032, -- IR_AAM + AntiRadarMissile + AntiShipMissile + FireAndForgetASM + CruiseMissile
AnyMissile = 268402688, -- AnyASM + AnyAAM
AnyMissile = 268402688, -- AnyASM + AnyAAM
--- Guns
Cannons = 805306368, -- GUN_POD + BuiltInCannon
---
@@ -133,7 +133,7 @@ ENUMS.WeaponFlag={
AnyAG = 2956984318, -- Any Air-To-Ground Weapon
AnyAA = 264241152, -- Any Air-To-Air Weapon
AnyUnguided = 2952822768, -- Any Unguided Weapon
AnyGuided = 268402702, -- Any Guided Weapon
AnyGuided = 268402702, -- Any Guided Weapon
}
--- Mission tasks.
@@ -173,7 +173,7 @@ ENUMS.MissionTask={
TRANSPORT="Transport",
}
--- Formations (new). See the [Formations](https://wiki.hoggitworld.com/view/DCS_enum_formation) on hoggit wiki.
--- Formations (new). See the [Formations](https://wiki.hoggitworld.com/view/DCS_enum_formation) on Hoggit wiki.
-- @type ENUMS.Formation
ENUMS.Formation={}
ENUMS.Formation.FixedWing={}
@@ -216,23 +216,23 @@ ENUMS.Formation.FixedWing.FighterVic.Close = 917505
ENUMS.Formation.FixedWing.FighterVic.Open = 917506
ENUMS.Formation.RotaryWing={}
ENUMS.Formation.RotaryWing.Column={}
ENUMS.Formation.RotaryWing.Column.D70=720896
ENUMS.Formation.RotaryWing.Column.D70 = 720896
ENUMS.Formation.RotaryWing.Wedge={}
ENUMS.Formation.RotaryWing.Wedge.D70=8
ENUMS.Formation.RotaryWing.Wedge.D70 = 8
ENUMS.Formation.RotaryWing.FrontRight={}
ENUMS.Formation.RotaryWing.FrontRight.D300=655361
ENUMS.Formation.RotaryWing.FrontRight.D600=655362
ENUMS.Formation.RotaryWing.FrontRight.D300 = 655361
ENUMS.Formation.RotaryWing.FrontRight.D600 = 655362
ENUMS.Formation.RotaryWing.FrontLeft={}
ENUMS.Formation.RotaryWing.FrontLeft.D300=655617
ENUMS.Formation.RotaryWing.FrontLeft.D600=655618
ENUMS.Formation.RotaryWing.FrontLeft.D300 = 655617
ENUMS.Formation.RotaryWing.FrontLeft.D600 = 655618
ENUMS.Formation.RotaryWing.EchelonRight={}
ENUMS.Formation.RotaryWing.EchelonRight.D70 =589825
ENUMS.Formation.RotaryWing.EchelonRight.D300=589826
ENUMS.Formation.RotaryWing.EchelonRight.D600=589827
ENUMS.Formation.RotaryWing.EchelonRight.D70 = 589825
ENUMS.Formation.RotaryWing.EchelonRight.D300 = 589826
ENUMS.Formation.RotaryWing.EchelonRight.D600 = 589827
ENUMS.Formation.RotaryWing.EchelonLeft={}
ENUMS.Formation.RotaryWing.EchelonLeft.D70 =590081
ENUMS.Formation.RotaryWing.EchelonLeft.D300=590082
ENUMS.Formation.RotaryWing.EchelonLeft.D600=590083
ENUMS.Formation.RotaryWing.EchelonLeft.D70 = 590081
ENUMS.Formation.RotaryWing.EchelonLeft.D300 = 590082
ENUMS.Formation.RotaryWing.EchelonLeft.D600 = 590083
ENUMS.Formation.Vehicle={}
ENUMS.Formation.Vehicle.Vee="Vee"
ENUMS.Formation.Vehicle.EchelonRight="EchelonR"
@@ -244,34 +244,34 @@ ENUMS.Formation.Vehicle.Cone="Cone"
ENUMS.Formation.Vehicle.Diamond="Diamond"
--- Formations (old). The old format is a simplified version of the new formation enums, which allow more sophisticated settings.
-- See the [Formations](https://wiki.hoggitworld.com/view/DCS_enum_formation) on hoggit wiki.
-- See the [Formations](https://wiki.hoggitworld.com/view/DCS_enum_formation) on Hoggit wiki.
-- @type ENUMS.FormationOld
ENUMS.FormationOld={}
ENUMS.FormationOld.FixedWing={}
ENUMS.FormationOld.FixedWing.LineAbreast=1
ENUMS.FormationOld.FixedWing.Trail=2
ENUMS.FormationOld.FixedWing.Wedge=3
ENUMS.FormationOld.FixedWing.EchelonRight=4
ENUMS.FormationOld.FixedWing.EchelonLeft=5
ENUMS.FormationOld.FixedWing.FingerFour=6
ENUMS.FormationOld.FixedWing.SpreadFour=7
ENUMS.FormationOld.FixedWing.BomberElement=12
ENUMS.FormationOld.FixedWing.BomberElementHeight=13
ENUMS.FormationOld.FixedWing.FighterVic=14
ENUMS.FormationOld.FixedWing.LineAbreast = 1
ENUMS.FormationOld.FixedWing.Trail = 2
ENUMS.FormationOld.FixedWing.Wedge = 3
ENUMS.FormationOld.FixedWing.EchelonRight = 4
ENUMS.FormationOld.FixedWing.EchelonLeft = 5
ENUMS.FormationOld.FixedWing.FingerFour = 6
ENUMS.FormationOld.FixedWing.SpreadFour = 7
ENUMS.FormationOld.FixedWing.BomberElement = 12
ENUMS.FormationOld.FixedWing.BomberElementHeight = 13
ENUMS.FormationOld.FixedWing.FighterVic = 14
ENUMS.FormationOld.RotaryWing={}
ENUMS.FormationOld.RotaryWing.Wedge=8
ENUMS.FormationOld.RotaryWing.Echelon=9
ENUMS.FormationOld.RotaryWing.Front=10
ENUMS.FormationOld.RotaryWing.Column=11
ENUMS.FormationOld.RotaryWing.Wedge = 8
ENUMS.FormationOld.RotaryWing.Echelon = 9
ENUMS.FormationOld.RotaryWing.Front = 10
ENUMS.FormationOld.RotaryWing.Column = 11
--- Morse Code. See the [Wikipedia](https://en.wikipedia.org/wiki/Morse_code).
--
--
-- * Short pulse "*"
-- * Long pulse "-"
--
--
-- Pulses are separated by a blank character " ".
--
--
-- @type ENUMS.Morse
ENUMS.Morse={}
ENUMS.Morse.A="* -"
@@ -313,9 +313,9 @@ ENUMS.Morse.N0="- - - - -"
ENUMS.Morse[" "]=" "
--- ISO (639-1) 2-letter Language Codes. See the [Wikipedia](https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes).
--
--
-- @type ENUMS.ISOLang
ENUMS.ISOLang =
ENUMS.ISOLang =
{
Arabic = 'AR',
Chinese = 'ZH',
@@ -329,7 +329,7 @@ ENUMS.ISOLang =
}
--- Phonetic Alphabet (NATO). See the [Wikipedia](https://en.wikipedia.org/wiki/NATO_phonetic_alphabet).
--
--
-- @type ENUMS.Phonetic
ENUMS.Phonetic =
{

598
Moose Development/Moose/Utilities/Profiler.lua
View File

@@ -5,11 +5,10 @@
-- ===
--
-- ### Author: **TAW CougarNL**, *funkyfranky*
--
--
-- @module Utilities.PROFILER
-- @image MOOSE.JPG
--- PROFILER class.
-- @type PROFILER
-- @field #string ClassName Name of the class.
@@ -25,7 +24,6 @@
-- @field #number ThreshTtot Total time threshold. Only write output if total function CPU time is more than this value.
-- @field #string fileNamePrefix Output file name prefix, e.g. "MooseProfiler".
-- @field #string fileNameSuffix Output file name prefix, e.g. "txt"
--- *The emperor counsels simplicity. First principles. Of each particular thing, ask: What is it in itself, in its own constitution? What is its causal nature? *
--
-- ===
@@ -33,60 +31,59 @@
-- ![Banner Image](..\Presentations\Utilities\PROFILER_Main.jpg)
--
-- # The PROFILER Concept
--
--
-- Profile your lua code. This tells you, which functions are called very often and which consume most real time.
-- With this information you can optimize the perfomance of your code.
--
-- With this information you can optimize the performance of your code.
--
-- # Prerequisites
--
-- The modules **os** and **lfs** need to be desanizied.
--
--
--
-- The modules **os** and **lfs** need to be de-sanitized.
--
-- # Start
--
--
-- The profiler can simply be started with the @{#PROFILER.Start}(*Delay, Duration*) function
--
--
-- PROFILER.Start()
--
--
-- The optional parameter *Delay* can be used to delay the start by a certain amount of seconds and the optional parameter *Duration* can be used to
-- stop the profiler after a certain amount of seconds.
--
--
-- # Stop
--
--
-- The profiler automatically stops when the mission ends. But it can be stopped any time with the @{#PROFILER.Stop}(*Delay*) function
--
--
-- PROFILER.Stop()
--
--
-- The optional parameter *Delay* can be used to specify a delay after which the profiler is stopped.
--
--
-- When the profiler is stopped, the output is written to a file.
--
--
-- # Output
--
--
-- The profiler output is written to a file in your DCS home folder
--
--
-- X:\User\<Your User Name>\Saved Games\DCS OpenBeta\Logs
--
--
-- The default file name is "MooseProfiler.txt". If that file exists, the file name is "MooseProfiler-001.txt" etc.
--
--
-- ## Data
--
--
-- The data in the output file provides information on the functions that were called in the mission.
--
--
-- It will tell you how many times a function was called in total, how many times per second, how much time in total and the percentage of time.
--
--
-- If you only want output for functions that are called more than *X* times per second, you can set
--
--
-- PROFILER.ThreshCPS=1.5
--
--
-- With this setting, only functions which are called more than 1.5 times per second are displayed. The default setting is PROFILER.ThreshCPS=0.0 (no threshold).
--
--
-- Furthermore, you can limit the output for functions that consumed a certain amount of CPU time in total by
--
--
-- PROFILER.ThreshTtot=0.005
--
--
-- With this setting, which is also the default, only functions which in total used more than 5 milliseconds CPU time.
--
--
-- @field #PROFILER
PROFILER = {
ClassName = "PROFILER",
@@ -117,97 +114,95 @@ PROFILER = {
--- Start profiler.
-- @param #number Delay Delay in seconds before profiler is stated. Default is immediately.
-- @param #number Duration Duration in (game) seconds before the profiler is stopped. Default is when mission ends.
function PROFILER.Start(Delay, Duration)
function PROFILER.Start( Delay, Duration )
-- Check if os, io and lfs are available.
local go=true
local go = true
if not os then
env.error("ERROR: Profiler needs os to be desanitized!")
go=false
env.error( "ERROR: Profiler needs os to be de-sanitized!" )
go = false
end
if not io then
env.error("ERROR: Profiler needs io to be desanitized!")
go=false
end
env.error( "ERROR: Profiler needs io to be de-sanitized!" )
go = false
end
if not lfs then
env.error("ERROR: Profiler needs lfs to be desanitized!")
go=false
end
env.error( "ERROR: Profiler needs lfs to be de-sanitized!" )
go = false
end
if not go then
return
end
if Delay and Delay>0 then
BASE:ScheduleOnce(Delay, PROFILER.Start, 0, Duration)
if Delay and Delay > 0 then
BASE:ScheduleOnce( Delay, PROFILER.Start, 0, Duration )
else
-- Set start time.
PROFILER.TstartGame=timer.getTime()
PROFILER.TstartOS=os.clock()
PROFILER.TstartGame = timer.getTime()
PROFILER.TstartOS = os.clock()
-- Add event handler.
world.addEventHandler(PROFILER.eventHandler)
world.addEventHandler( PROFILER.eventHandler )
-- Info in log.
env.info('############################ Profiler Started ############################')
env.info( '############################ Profiler Started ############################' )
if Duration then
env.info(string.format("- Will be running for %d seconds", Duration))
env.info( string.format( "- Will be running for %d seconds", Duration ) )
else
env.info(string.format("- Will be stopped when mission ends"))
env.info( string.format( "- Will be stopped when mission ends" ) )
end
env.info(string.format("- Calls per second threshold %.3f/sec", PROFILER.ThreshCPS))
env.info(string.format("- Total function time threshold %.3f sec", PROFILER.ThreshTtot))
env.info(string.format("- Output file \"%s\" in your DCS log file folder", PROFILER.getfilename(PROFILER.fileNameSuffix)))
env.info(string.format("- Output file \"%s\" in CSV format", PROFILER.getfilename("csv")))
env.info('###############################################################################')
env.info( string.format( "- Calls per second threshold %.3f/sec", PROFILER.ThreshCPS ) )
env.info( string.format( "- Total function time threshold %.3f sec", PROFILER.ThreshTtot ) )
env.info( string.format( "- Output file \"%s\" in your DCS log file folder", PROFILER.getfilename( PROFILER.fileNameSuffix ) ) )
env.info( string.format( "- Output file \"%s\" in CSV format", PROFILER.getfilename( "csv" ) ) )
env.info( '###############################################################################' )
-- Message on screen
local duration=Duration or 600
trigger.action.outText("### Profiler running ###", duration)
local duration = Duration or 600
trigger.action.outText( "### Profiler running ###", duration )
-- Set hook.
debug.sethook(PROFILER.hook, "cr")
debug.sethook( PROFILER.hook, "cr" )
-- Auto stop profiler.
if Duration then
PROFILER.Stop(Duration)
PROFILER.Stop( Duration )
end
end
end
--- Stop profiler.
-- @param #number Delay Delay before stop in seconds.
function PROFILER.Stop(Delay)
function PROFILER.Stop( Delay )
if Delay and Delay > 0 then
BASE:ScheduleOnce( Delay, PROFILER.Stop )
if Delay and Delay>0 then
BASE:ScheduleOnce(Delay, PROFILER.Stop)
else
-- Remove hook.
debug.sethook()
-- Run time game.
local runTimeGame=timer.getTime()-PROFILER.TstartGame
local runTimeGame = timer.getTime() - PROFILER.TstartGame
-- Run time real OS.
local runTimeOS=os.clock()-PROFILER.TstartOS
local runTimeOS = os.clock() - PROFILER.TstartOS
-- Show info.
PROFILER.showInfo(runTimeGame, runTimeOS)
PROFILER.showInfo( runTimeGame, runTimeOS )
end
end
--- Event handler.
function PROFILER.eventHandler:onEvent(event)
if event.id==world.event.S_EVENT_MISSION_END then
function PROFILER.eventHandler:onEvent( event )
if event.id == world.event.S_EVENT_MISSION_END then
PROFILER.Stop()
end
end
@@ -218,38 +213,38 @@ end
--- Debug hook.
-- @param #table event Event.
function PROFILER.hook(event)
function PROFILER.hook( event )
local f=debug.getinfo(2, "f").func
if event=='call' then
if PROFILER.Counters[f]==nil then
PROFILER.Counters[f]=1
PROFILER.dInfo[f]=debug.getinfo(2,"Sn")
if PROFILER.fTimeTotal[f]==nil then
PROFILER.fTimeTotal[f]=0
local f = debug.getinfo( 2, "f" ).func
if event == 'call' then
if PROFILER.Counters[f] == nil then
PROFILER.Counters[f] = 1
PROFILER.dInfo[f] = debug.getinfo( 2, "Sn" )
if PROFILER.fTimeTotal[f] == nil then
PROFILER.fTimeTotal[f] = 0
end
else
PROFILER.Counters[f]=PROFILER.Counters[f]+1
PROFILER.Counters[f] = PROFILER.Counters[f] + 1
end
if PROFILER.fTime[f]==nil then
PROFILER.fTime[f]=os.clock()
if PROFILER.fTime[f] == nil then
PROFILER.fTime[f] = os.clock()
end
elseif (event=='return') then
if PROFILER.fTime[f]~=nil then
PROFILER.fTimeTotal[f]=PROFILER.fTimeTotal[f]+(os.clock()-PROFILER.fTime[f])
PROFILER.fTime[f]=nil
elseif (event == 'return') then
if PROFILER.fTime[f] ~= nil then
PROFILER.fTimeTotal[f] = PROFILER.fTimeTotal[f] + (os.clock() - PROFILER.fTime[f])
PROFILER.fTime[f] = nil
end
end
end
-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
@@ -262,105 +257,104 @@ end
-- @return #string Source file name.
-- @return #string Line number.
-- @return #number Function time in seconds.
function PROFILER.getData(func)
function PROFILER.getData( func )
local n=PROFILER.dInfo[func]
if n.what=="C" then
local n = PROFILER.dInfo[func]
if n.what == "C" then
return n.name, "?", "?", PROFILER.fTimeTotal[func]
end
return n.name, n.short_src, n.linedefined, PROFILER.fTimeTotal[func]
return n.name, n.short_src, n.linedefined, PROFILER.fTimeTotal[func]
end
--- Write text to log file.
-- @param #function f The file.
-- @param #string txt The text.
function PROFILER._flog(f, txt)
f:write(txt.."\r\n")
function PROFILER._flog( f, txt )
f:write( txt .. "\r\n" )
end
--- Show table.
-- @param #table data Data table.
-- @param #function f The file.
-- @param #number runTimeGame Game run time in seconds.
function PROFILER.showTable(data, f, runTimeGame)
function PROFILER.showTable( data, f, runTimeGame )
-- Loop over data.
for i=1, #data do
local t=data[i] --#PROFILER.Data
for i = 1, #data do
local t = data[i] -- #PROFILER.Data
-- Calls per second.
local cps=t.count/runTimeGame
local threshCPS=cps>=PROFILER.ThreshCPS
local threshTot=t.tm>=PROFILER.ThreshTtot
local cps = t.count / runTimeGame
local threshCPS = cps >= PROFILER.ThreshCPS
local threshTot = t.tm >= PROFILER.ThreshTtot
if threshCPS and threshTot then
-- Output
local text=string.format("%30s: %8d calls %8.1f/sec - Time Total %8.3f sec (%.3f %%) %5.3f sec/call %s line %s", t.func, t.count, cps, t.tm, t.tm/runTimeGame*100, t.tm/t.count, tostring(t.src), tostring(t.line))
PROFILER._flog(f, text)
local text = string.format( "%30s: %8d calls %8.1f/sec - Time Total %8.3f sec (%.3f %%) %5.3f sec/call %s line %s", t.func, t.count, cps, t.tm, t.tm / runTimeGame * 100, t.tm / t.count, tostring( t.src ), tostring( t.line ) )
PROFILER._flog( f, text )
end
end
end
--- Print csv file.
-- @param #table data Data table.
-- @param #number runTimeGame Game run time in seconds.
function PROFILER.printCSV(data, runTimeGame)
function PROFILER.printCSV( data, runTimeGame )
-- Output file.
local file=PROFILER.getfilename("csv")
local g=io.open(file, 'w')
local file = PROFILER.getfilename( "csv" )
local g = io.open( file, 'w' )
-- Header.
local text="Function,Total Calls,Calls per Sec,Total Time,Total in %,Sec per Call,Source File;Line Number,"
g:write(text.."\r\n")
local text = "Function,Total Calls,Calls per Sec,Total Time,Total in %,Sec per Call,Source File;Line Number,"
g:write( text .. "\r\n" )
-- Loop over data.
for i=1, #data do
local t=data[i] --#PROFILER.Data
for i = 1, #data do
local t = data[i] -- #PROFILER.Data
-- Calls per second.
local cps=t.count/runTimeGame
local cps = t.count / runTimeGame
-- Output
local txt=string.format("%s,%d,%.1f,%.3f,%.3f,%.3f,%s,%s,", t.func, t.count, cps, t.tm, t.tm/runTimeGame*100, t.tm/t.count, tostring(t.src), tostring(t.line))
g:write(txt.."\r\n")
local txt = string.format( "%s,%d,%.1f,%.3f,%.3f,%.3f,%s,%s,", t.func, t.count, cps, t.tm, t.tm / runTimeGame * 100, t.tm / t.count, tostring( t.src ), tostring( t.line ) )
g:write( txt .. "\r\n" )
end
-- Close file.
g:close()
end
--- Write info to output file.
-- @param #string ext Extension.
-- @return #string File name.
function PROFILER.getfilename(ext)
function PROFILER.getfilename( ext )
local dir=lfs.writedir()..[[Logs\]]
ext=ext or PROFILER.fileNameSuffix
local file=dir..PROFILER.fileNamePrefix.."."..ext
if not UTILS.FileExists(file) then
local dir = lfs.writedir() .. [[Logs\]]
ext = ext or PROFILER.fileNameSuffix
local file = dir .. PROFILER.fileNamePrefix .. "." .. ext
if not UTILS.FileExists( file ) then
return file
end
for i=1,999 do
local file=string.format("%s%s-%03d.%s", dir,PROFILER.fileNamePrefix, i, ext)
if not UTILS.FileExists(file) then
for i = 1, 999 do
local file = string.format( "%s%s-%03d.%s", dir, PROFILER.fileNamePrefix, i, ext )
if not UTILS.FileExists( file ) then
return file
end
end
end
@@ -368,172 +362,172 @@ end
--- Write info to output file.
-- @param #number runTimeGame Game time in seconds.
-- @param #number runTimeOS OS time in seconds.
function PROFILER.showInfo(runTimeGame, runTimeOS)
function PROFILER.showInfo( runTimeGame, runTimeOS )
-- Output file.
local file=PROFILER.getfilename(PROFILER.fileNameSuffix)
local f=io.open(file, 'w')
local file = PROFILER.getfilename( PROFILER.fileNameSuffix )
local f = io.open( file, 'w' )
-- Gather data.
local Ttot=0
local Calls=0
local t={}
local tcopy=nil --#PROFILER.Data
local tserialize=nil --#PROFILER.Data
local tforgen=nil --#PROFILER.Data
local tpairs=nil --#PROFILER.Data
for func, count in pairs(PROFILER.Counters) do
local s,src,line,tm=PROFILER.getData(func)
if PROFILER.logUnknown==true then
if s==nil then s="<Unknown>" end
end
if s~=nil then
-- Profile data.
local T=
{ func=s,
src=src,
line=line,
count=count,
tm=tm,
} --#PROFILER.Data
-- Collect special cases. Somehow, e.g. "_copy" appears multiple times so we try to gather all data.
if s=="_copy" then
if tcopy==nil then
tcopy=T
else
tcopy.count=tcopy.count+T.count
tcopy.tm=tcopy.tm+T.tm
end
elseif s=="_Serialize" then
if tserialize==nil then
tserialize=T
else
tserialize.count=tserialize.count+T.count
tserialize.tm=tserialize.tm+T.tm
end
elseif s=="(for generator)" then
if tforgen==nil then
tforgen=T
else
tforgen.count=tforgen.count+T.count
tforgen.tm=tforgen.tm+T.tm
end
elseif s=="pairs" then
if tpairs==nil then
tpairs=T
else
tpairs.count=tpairs.count+T.count
tpairs.tm=tpairs.tm+T.tm
end
else
table.insert(t, T)
local Ttot = 0
local Calls = 0
local t = {}
local tcopy = nil -- #PROFILER.Data
local tserialize = nil -- #PROFILER.Data
local tforgen = nil -- #PROFILER.Data
local tpairs = nil -- #PROFILER.Data
for func, count in pairs( PROFILER.Counters ) do
local s, src, line, tm = PROFILER.getData( func )
if PROFILER.logUnknown == true then
if s == nil then
s = "<Unknown>"
end
-- Total function time.
Ttot=Ttot+tm
-- Total number of calls.
Calls=Calls+count
end
if s ~= nil then
-- Profile data.
local T = { func = s, src = src, line = line, count = count, tm = tm } -- #PROFILER.Data
-- Collect special cases. Somehow, e.g. "_copy" appears multiple times so we try to gather all data.
if s == "_copy" then
if tcopy == nil then
tcopy = T
else
tcopy.count = tcopy.count + T.count
tcopy.tm = tcopy.tm + T.tm
end
elseif s == "_Serialize" then
if tserialize == nil then
tserialize = T
else
tserialize.count = tserialize.count + T.count
tserialize.tm = tserialize.tm + T.tm
end
elseif s == "(for generator)" then
if tforgen == nil then
tforgen = T
else
tforgen.count = tforgen.count + T.count
tforgen.tm = tforgen.tm + T.tm
end
elseif s == "pairs" then
if tpairs == nil then
tpairs = T
else
tpairs.count = tpairs.count + T.count
tpairs.tm = tpairs.tm + T.tm
end
else
table.insert( t, T )
end
-- Total function time.
Ttot = Ttot + tm
-- Total number of calls.
Calls = Calls + count
end
end
-- Add special cases.
if tcopy then
table.insert(t, tcopy)
table.insert( t, tcopy )
end
if tserialize then
table.insert(t, tserialize)
table.insert( t, tserialize )
end
if tforgen then
table.insert(t, tforgen)
table.insert( t, tforgen )
end
if tpairs then
table.insert(t, tpairs)
end
env.info('############################ Profiler Stopped ############################')
env.info(string.format("* Runtime Game : %s = %d sec", UTILS.SecondsToClock(runTimeGame, true), runTimeGame))
env.info(string.format("* Runtime Real : %s = %d sec", UTILS.SecondsToClock(runTimeOS, true), runTimeOS))
env.info(string.format("* Function time : %s = %.1f sec (%.1f percent of runtime game)", UTILS.SecondsToClock(Ttot, true), Ttot, Ttot/runTimeGame*100))
env.info(string.format("* Total functions : %d", #t))
env.info(string.format("* Total func calls : %d", Calls))
env.info(string.format("* Writing to file : \"%s\"", file))
env.info(string.format("* Writing to file : \"%s\"", PROFILER.getfilename("csv")))
env.info("##############################################################################")
table.insert( t, tpairs )
end
env.info( '############################ Profiler Stopped ############################' )
env.info( string.format( "* Runtime Game : %s = %d sec", UTILS.SecondsToClock( runTimeGame, true ), runTimeGame ) )
env.info( string.format( "* Runtime Real : %s = %d sec", UTILS.SecondsToClock( runTimeOS, true ), runTimeOS ) )
env.info( string.format( "* Function time : %s = %.1f sec (%.1f percent of runtime game)", UTILS.SecondsToClock( Ttot, true ), Ttot, Ttot / runTimeGame * 100 ) )
env.info( string.format( "* Total functions : %d", #t ) )
env.info( string.format( "* Total func calls : %d", Calls ) )
env.info( string.format( "* Writing to file : \"%s\"", file ) )
env.info( string.format( "* Writing to file : \"%s\"", PROFILER.getfilename( "csv" ) ) )
env.info( "##############################################################################" )
-- Sort by total time.
table.sort(t, function(a,b) return a.tm>b.tm end)
table.sort( t, function( a, b )
return a.tm > b.tm
end )
-- Write data.
PROFILER._flog(f,"")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog(f,"")
PROFILER._flog(f,"-------------------------")
PROFILER._flog(f,"---- Profiler Report ----")
PROFILER._flog(f,"-------------------------")
PROFILER._flog(f,"")
PROFILER._flog(f,string.format("* Runtime Game : %s = %.1f sec", UTILS.SecondsToClock(runTimeGame, true), runTimeGame))
PROFILER._flog(f,string.format("* Runtime Real : %s = %.1f sec", UTILS.SecondsToClock(runTimeOS, true), runTimeOS))
PROFILER._flog(f,string.format("* Function time : %s = %.1f sec (%.1f %% of runtime game)", UTILS.SecondsToClock(Ttot, true), Ttot, Ttot/runTimeGame*100))
PROFILER._flog(f,"")
PROFILER._flog(f,string.format("* Total functions = %d", #t))
PROFILER._flog(f,string.format("* Total func calls = %d", Calls))
PROFILER._flog(f,"")
PROFILER._flog(f,string.format("* Calls per second threshold = %.3f/sec", PROFILER.ThreshCPS))
PROFILER._flog(f,string.format("* Total func time threshold = %.3f sec", PROFILER.ThreshTtot))
PROFILER._flog(f,"")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog(f,"")
PROFILER.showTable(t, f, runTimeGame)
PROFILER._flog( f, "" )
PROFILER._flog( f, "************************************************************************************************************************" )
PROFILER._flog( f, "************************************************************************************************************************" )
PROFILER._flog( f, "************************************************************************************************************************" )
PROFILER._flog( f, "" )
PROFILER._flog( f, "-------------------------" )
PROFILER._flog( f, "---- Profiler Report ----" )
PROFILER._flog( f, "-------------------------" )
PROFILER._flog( f, "" )
PROFILER._flog( f, string.format( "* Runtime Game : %s = %.1f sec", UTILS.SecondsToClock( runTimeGame, true ), runTimeGame ) )
PROFILER._flog( f, string.format( "* Runtime Real : %s = %.1f sec", UTILS.SecondsToClock( runTimeOS, true ), runTimeOS ) )
PROFILER._flog( f, string.format( "* Function time : %s = %.1f sec (%.1f %% of runtime game)", UTILS.SecondsToClock( Ttot, true ), Ttot, Ttot / runTimeGame * 100 ) )
PROFILER._flog( f, "" )
PROFILER._flog( f, string.format( "* Total functions = %d", #t ) )
PROFILER._flog( f, string.format( "* Total func calls = %d", Calls ) )
PROFILER._flog( f, "" )
PROFILER._flog( f, string.format( "* Calls per second threshold = %.3f/sec", PROFILER.ThreshCPS ) )
PROFILER._flog( f, string.format( "* Total func time threshold = %.3f sec", PROFILER.ThreshTtot ) )
PROFILER._flog( f, "" )
PROFILER._flog( f, "************************************************************************************************************************" )
PROFILER._flog( f, "" )
PROFILER.showTable( t, f, runTimeGame )
-- Sort by number of calls.
table.sort(t, function(a,b) return a.tm/a.count>b.tm/b.count end)
table.sort( t, function( a, b )
return a.tm / a.count > b.tm / b.count
end )
-- Detailed data.
PROFILER._flog(f,"")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog(f,"")
PROFILER._flog(f,"--------------------------------------")
PROFILER._flog(f,"---- Data Sorted by Time per Call ----")
PROFILER._flog(f,"--------------------------------------")
PROFILER._flog(f,"")
PROFILER.showTable(t, f, runTimeGame)
PROFILER._flog( f, "" )
PROFILER._flog( f, "************************************************************************************************************************" )
PROFILER._flog( f, "" )
PROFILER._flog( f, "--------------------------------------" )
PROFILER._flog( f, "---- Data Sorted by Time per Call ----" )
PROFILER._flog( f, "--------------------------------------" )
PROFILER._flog( f, "" )
PROFILER.showTable( t, f, runTimeGame )
-- Sort by number of calls.
table.sort(t, function(a,b) return a.count>b.count end)
table.sort( t, function( a, b )
return a.count > b.count
end )
-- Detailed data.
PROFILER._flog(f,"")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog(f,"")
PROFILER._flog(f,"------------------------------------")
PROFILER._flog(f,"---- Data Sorted by Total Calls ----")
PROFILER._flog(f,"------------------------------------")
PROFILER._flog(f,"")
PROFILER.showTable(t, f, runTimeGame)
PROFILER._flog( f, "" )
PROFILER._flog( f, "************************************************************************************************************************" )
PROFILER._flog( f, "" )
PROFILER._flog( f, "------------------------------------" )
PROFILER._flog( f, "---- Data Sorted by Total Calls ----" )
PROFILER._flog( f, "------------------------------------" )
PROFILER._flog( f, "" )
PROFILER.showTable( t, f, runTimeGame )
-- Closing.
PROFILER._flog(f,"")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog(f,"************************************************************************************************************************")
PROFILER._flog( f, "" )
PROFILER._flog( f, "************************************************************************************************************************" )
PROFILER._flog( f, "************************************************************************************************************************" )
PROFILER._flog( f, "************************************************************************************************************************" )
-- Close file.
f:close()
-- Print csv file.
PROFILER.printCSV(t, runTimeGame)
end
-- Print csv file.
PROFILER.printCSV( t, runTimeGame )
end

3397
Moose Development/Moose/Utilities/Routines.lua
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File diff suppressed because it is too large Load Diff

242
Moose Development/Moose/Utilities/STTS.lua
View File

@@ -1,7 +1,6 @@
--- **Utilities** DCS Simple Text-To-Speech (STTS).
--
--
--
--
--
-- @module Utils.STTS
-- @image MOOSE.JPG
@@ -10,29 +9,29 @@
-- @field #string DIRECTORY Path of the SRS directory.
--- Simple Text-To-Speech
--
--
-- Version 0.4 - Compatible with SRS version 1.9.6.0+
--
--
-- # DCS Modification Required
--
-- You will need to edit MissionScripting.lua in DCS World/Scripts/MissionScripting.lua and remove the sanitisation.
--
-- You will need to edit MissionScripting.lua in DCS World/Scripts/MissionScripting.lua and remove the sanitization.
-- To do this remove all the code below the comment - the line starts "local function sanitizeModule(name)"
-- Do this without DCS running to allow mission scripts to use os functions.
--
--
-- *You WILL HAVE TO REAPPLY AFTER EVERY DCS UPDATE*
--
--
-- # USAGE:
--
-- Add this script into the mission as a DO SCRIPT or DO SCRIPT FROM FILE to initialise it
--
-- Add this script into the mission as a DO SCRIPT or DO SCRIPT FROM FILE to initialize it
-- Make sure to edit the STTS.SRS_PORT and STTS.DIRECTORY to the correct values before adding to the mission.
-- Then its as simple as calling the correct function in LUA as a DO SCRIPT or in your own scripts.
--
--
-- Example calls:
--
-- STTS.TextToSpeech("Hello DCS WORLD","251","AM","1.0","SRS",2)
--
--
-- Arguments in order are:
--
--
-- * Message to say, make sure not to use a newline (\n) !
-- * Frequency in MHz
-- * Modulation - AM/FM
@@ -43,44 +42,44 @@
-- * OPTIONAL - Speed -10 to +10
-- * OPTIONAL - Gender male, female or neuter
-- * OPTIONAL - Culture - en-US, en-GB etc
-- * OPTIONAL - Voice - a specfic voice by name. Run DCS-SR-ExternalAudio.exe with --help to get the ones you can use on the command line
-- * OPTIONAL - Voice - a specific voice by name. Run DCS-SR-ExternalAudio.exe with --help to get the ones you can use on the command line
-- * OPTIONAL - Google TTS - Switch to Google Text To Speech - Requires STTS.GOOGLE_CREDENTIALS path and Google project setup correctly
--
--
-- ## Example
--
-- This example will say the words "Hello DCS WORLD" on 251 MHz AM at maximum volume with a client called SRS and to the Blue coalition only
--
--
-- STTS.TextToSpeech("Hello DCS WORLD","251","AM","1.0","SRS",2,null,-5,"male","en-GB")
--
--
-- ## Example
--
--This example will say the words "Hello DCS WORLD" on 251 MHz AM at maximum volume with a client called SRS and to the Blue coalition only centered on the position of the Unit called "A UNIT"
--
-- This example will say the words "Hello DCS WORLD" on 251 MHz AM at maximum volume with a client called SRS and to the Blue coalition only centered on the position of the Unit called "A UNIT"
--
-- STTS.TextToSpeech("Hello DCS WORLD","251","AM","1.0","SRS",2,Unit.getByName("A UNIT"):getPoint(),-5,"male","en-GB")
--
--
-- Arguments in order are:
--
--
-- * FULL path to the MP3 OR OGG to play
-- * Frequency in MHz - to use multiple separate with a comma - Number of frequencies MUST match number of Modulations
-- * Modulation - AM/FM - to use multiple
-- * Volume - 1.0 max, 0.5 half
-- * Name of the transmitter - ATC, RockFM etc
-- * Coalition - 0 spectator, 1 red 2 blue
--
--
-- ## Example
--
--
-- This will play that MP3 on 255MHz AM & 31 FM at half volume with a client called "Multiple" and to Spectators only
--
--
-- STTS.PlayMP3("C:\\Users\\Ciaran\\Downloads\\PR-Music.mp3","255,31","AM,FM","0.5","Multiple",0)
--
--
-- @field #STTS
STTS={
ClassName="STTS",
DIRECTORY="",
SRS_PORT=5002,
GOOGLE_CREDENTIALS="C:\\Users\\Ciaran\\Downloads\\googletts.json",
EXECUTABLE="DCS-SR-ExternalAudio.exe",
STTS = {
ClassName = "STTS",
DIRECTORY = "",
SRS_PORT = 5002,
GOOGLE_CREDENTIALS = "C:\\Users\\Ciaran\\Downloads\\googletts.json",
EXECUTABLE = "DCS-SR-ExternalAudio.exe"
}
--- FULL Path to the FOLDER containing DCS-SR-ExternalAudio.exe - EDIT TO CORRECT FOLDER
@@ -92,142 +91,144 @@ STTS.SRS_PORT = 5002
--- Google credentials file
STTS.GOOGLE_CREDENTIALS = "C:\\Users\\Ciaran\\Downloads\\googletts.json"
--- DONT CHANGE THIS UNLESS YOU KNOW WHAT YOU'RE DOING
--- DON'T CHANGE THIS UNLESS YOU KNOW WHAT YOU'RE DOING
STTS.EXECUTABLE = "DCS-SR-ExternalAudio.exe"
--- Function for UUID.
function STTS.uuid()
local random = math.random
local template ='yxxx-xxxxxxxxxxxx'
return string.gsub(template, '[xy]', function (c)
local v = (c == 'x') and random(0, 0xf) or random(8, 0xb)
return string.format('%x', v)
end)
local template = 'yxxx-xxxxxxxxxxxx'
return string.gsub( template, '[xy]', function( c )
local v = (c == 'x') and random( 0, 0xf ) or random( 8, 0xb )
return string.format( '%x', v )
end )
end
--- Round a number.
-- @param #number x Number.
-- @param #number n Precision.
function STTS.round(x, n)
n = math.pow(10, n or 0)
function STTS.round( x, n )
n = math.pow( 10, n or 0 )
x = x * n
if x >= 0 then x = math.floor(x + 0.5) else x = math.ceil(x - 0.5) end
if x >= 0 then
x = math.floor( x + 0.5 )
else
x = math.ceil( x - 0.5 )
end
return x / n
end
--- Function returns estimated speech time in seconds.
-- Assumptions for time calc: 100 Words per min, avarage of 5 letters for english word so
--
-- Assumptions for time calc: 100 Words per min, average of 5 letters for english word so
--
-- * 5 chars * 100wpm = 500 characters per min = 8.3 chars per second
--
-- So lengh of msg / 8.3 = number of seconds needed to read it. rounded down to 8 chars per sec map function:
--
--
-- So length of msg / 8.3 = number of seconds needed to read it. rounded down to 8 chars per sec map function:
--
-- * (x - in_min) * (out_max - out_min) / (in_max - in_min) + out_min
--
function STTS.getSpeechTime(length,speed,isGoogle)
--
function STTS.getSpeechTime( length, speed, isGoogle )
local maxRateRatio = 3
local maxRateRatio = 3
speed = speed or 1.0
isGoogle = isGoogle or false
local speedFactor = 1.0
if isGoogle then
speedFactor = speed
speedFactor = speed
else
if speed ~= 0 then
speedFactor = math.abs(speed) * (maxRateRatio - 1) / 10 + 1
end
if speed < 0 then
speedFactor = 1/speedFactor
end
if speed ~= 0 then
speedFactor = math.abs( speed ) * (maxRateRatio - 1) / 10 + 1
end
if speed < 0 then
speedFactor = 1 / speedFactor
end
end
local wpm = math.ceil(100 * speedFactor)
local cps = math.floor((wpm * 5)/60)
local wpm = math.ceil( 100 * speedFactor )
local cps = math.floor( (wpm * 5) / 60 )
if type(length) == "string" then
length = string.len(length)
if type( length ) == "string" then
length = string.len( length )
end
return math.ceil(length/cps)
return math.ceil( length / cps )
end
--- Text to speech function.
function STTS.TextToSpeech(message, freqs, modulations, volume, name, coalition, point, speed, gender, culture, voice, googleTTS)
if os == nil or io == nil then
env.info("[DCS-STTS] LUA modules os or io are sanitized. skipping. ")
return
end
function STTS.TextToSpeech( message, freqs, modulations, volume, name, coalition, point, speed, gender, culture, voice, googleTTS )
if os == nil or io == nil then
env.info( "[DCS-STTS] LUA modules os or io are sanitized. skipping. " )
return
end
speed = speed or 1
gender = gender or "female"
culture = culture or ""
voice = voice or ""
coalition=coalition or "0"
name=name or "ROBOT"
volume=1
speed=1
speed = speed or 1
gender = gender or "female"
culture = culture or ""
voice = voice or ""
coalition = coalition or "0"
name = name or "ROBOT"
volume = 1
speed = 1
message = message:gsub( "\"", "\\\"" )
local cmd = string.format( "start /min \"\" /d \"%s\" /b \"%s\" -f %s -m %s -c %s -p %s -n \"%s\" -h", STTS.DIRECTORY, STTS.EXECUTABLE, freqs or "305", modulations or "AM", coalition, STTS.SRS_PORT, name )
message = message:gsub("\"","\\\"")
local cmd = string.format("start /min \"\" /d \"%s\" /b \"%s\" -f %s -m %s -c %s -p %s -n \"%s\" -h", STTS.DIRECTORY, STTS.EXECUTABLE, freqs or "305", modulations or "AM", coalition, STTS.SRS_PORT, name)
if voice ~= "" then
cmd = cmd .. string.format(" -V \"%s\"",voice)
cmd = cmd .. string.format( " -V \"%s\"", voice )
else
if culture ~= "" then
cmd = cmd .. string.format(" -l %s",culture)
end
if culture ~= "" then
cmd = cmd .. string.format( " -l %s", culture )
end
if gender ~= "" then
cmd = cmd .. string.format(" -g %s",gender)
end
if gender ~= "" then
cmd = cmd .. string.format( " -g %s", gender )
end
end
if googleTTS == true then
cmd = cmd .. string.format(" -G \"%s\"",STTS.GOOGLE_CREDENTIALS)
cmd = cmd .. string.format( " -G \"%s\"", STTS.GOOGLE_CREDENTIALS )
end
if speed ~= 1 then
cmd = cmd .. string.format(" -s %s",speed)
cmd = cmd .. string.format( " -s %s", speed )
end
if volume ~= 1.0 then
cmd = cmd .. string.format(" -v %s",volume)
cmd = cmd .. string.format( " -v %s", volume )
end
if point and type(point) == "table" and point.x then
local lat, lon, alt = coord.LOtoLL(point)
if point and type( point ) == "table" and point.x then
local lat, lon, alt = coord.LOtoLL( point )
lat = STTS.round(lat,4)
lon = STTS.round(lon,4)
alt = math.floor(alt)
lat = STTS.round( lat, 4 )
lon = STTS.round( lon, 4 )
alt = math.floor( alt )
cmd = cmd .. string.format(" -L %s -O %s -A %s",lat,lon,alt)
cmd = cmd .. string.format( " -L %s -O %s -A %s", lat, lon, alt )
end
cmd = cmd ..string.format(" -t \"%s\"",message)
cmd = cmd .. string.format( " -t \"%s\"", message )
if string.len(cmd) > 255 then
local filename = os.getenv('TMP') .. "\\DCS_STTS-" .. STTS.uuid() .. ".bat"
local script = io.open(filename,"w+")
script:write(cmd .. " && exit" )
script:close()
cmd = string.format("\"%s\"",filename)
timer.scheduleFunction(os.remove, filename, timer.getTime() + 1)
if string.len( cmd ) > 255 then
local filename = os.getenv( 'TMP' ) .. "\\DCS_STTS-" .. STTS.uuid() .. ".bat"
local script = io.open( filename, "w+" )
script:write( cmd .. " && exit" )
script:close()
cmd = string.format( "\"%s\"", filename )
timer.scheduleFunction( os.remove, filename, timer.getTime() + 1 )
end
if string.len(cmd) > 255 then
env.info("[DCS-STTS] - cmd string too long")
env.info("[DCS-STTS] TextToSpeech Command :\n" .. cmd.."\n")
if string.len( cmd ) > 255 then
env.info( "[DCS-STTS] - cmd string too long" )
env.info( "[DCS-STTS] TextToSpeech Command :\n" .. cmd .. "\n" )
end
os.execute(cmd)
os.execute( cmd )
return STTS.getSpeechTime(message,speed,googleTTS)
return STTS.getSpeechTime( message, speed, googleTTS )
end
--- Play mp3 function.
@@ -235,22 +236,21 @@ end
-- @param #string freqs Frequencies, e.g. "305, 256".
-- @param #string modulations Modulations, e.g. "AM, FM".
-- @param #string volume Volume, e.g. "0.5".
function STTS.PlayMP3(pathToMP3, freqs, modulations, volume, name, coalition, point)
function STTS.PlayMP3( pathToMP3, freqs, modulations, volume, name, coalition, point )
local cmd = string.format("start \"\" /d \"%s\" /b /min \"%s\" -i \"%s\" -f %s -m %s -c %s -p %s -n \"%s\" -v %s -h",
STTS.DIRECTORY, STTS.EXECUTABLE, pathToMP3, freqs or "305", modulations or "AM", coalition or "0", STTS.SRS_PORT, name or "ROBOT", volume or "1")
if point and type(point) == "table" and point.x then
local lat, lon, alt = coord.LOtoLL(point)
local cmd = string.format( "start \"\" /d \"%s\" /b /min \"%s\" -i \"%s\" -f %s -m %s -c %s -p %s -n \"%s\" -v %s -h", STTS.DIRECTORY, STTS.EXECUTABLE, pathToMP3, freqs or "305", modulations or "AM", coalition or "0", STTS.SRS_PORT, name or "ROBOT", volume or "1" )
lat = STTS.round(lat,4)
lon = STTS.round(lon,4)
alt = math.floor(alt)
if point and type( point ) == "table" and point.x then
local lat, lon, alt = coord.LOtoLL( point )
cmd = cmd .. string.format(" -L %s -O %s -A %s",lat,lon,alt)
end
lat = STTS.round( lat, 4 )
lon = STTS.round( lon, 4 )
alt = math.floor( alt )
env.info("[DCS-STTS] MP3/OGG Command :\n" .. cmd.."\n")
os.execute(cmd)
cmd = cmd .. string.format( " -L %s -O %s -A %s", lat, lon, alt )
end
end
env.info( "[DCS-STTS] MP3/OGG Command :\n" .. cmd .. "\n" )
os.execute( cmd )
end

1956
Moose Development/Moose/Utilities/Utils.lua
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File diff suppressed because it is too large Load Diff

68
Moose Development/Moose/Wrapper/Group.lua
View File

@@ -310,8 +310,7 @@ end
--- Returns the @{DCS#Position3} position vectors indicating the point and direction vectors in 3D of the POSITIONABLE within the mission.
-- @param Wrapper.Positionable#POSITIONABLE self
-- @return DCS#Position The 3D position vectors of the POSITIONABLE.
-- @return #nil The POSITIONABLE is not existing or alive.
-- @return DCS#Position The 3D position vectors of the POSITIONABLE or #nil if the groups not existing or alive.
function GROUP:GetPositionVec3() -- Overridden from POSITIONABLE:GetPositionVec3()
self:F2( self.PositionableName )
@@ -339,9 +338,7 @@ end
-- If the first @{Wrapper.Unit} of the group is inactive, it will return false.
--
-- @param #GROUP self
-- @return #boolean true if the group is alive and active.
-- @return #boolean false if the group is alive but inactive.
-- @return #nil if the group does not exist anymore.
-- @return #boolean `true` if the group is alive *and* active, `false` if the group is alive but inactive or `#nil` if the group does not exist anymore.
function GROUP:IsAlive()
self:F2( self.GroupName )
@@ -363,8 +360,7 @@ end
--- Returns if the group is activated.
-- @param #GROUP self
-- @return #boolean true if group is activated.
-- @return #nil The group is not existing or alive.
-- @return #boolean `true` if group is activated or `#nil` The group is not existing or alive.
function GROUP:IsActive()
self:F2( self.GroupName )
@@ -412,7 +408,6 @@ function GROUP:Destroy( GenerateEvent, delay )
self:F2( self.GroupName )
if delay and delay>0 then
--SCHEDULER:New(nil, GROUP.Destroy, {self, GenerateEvent}, delay)
self:ScheduleOnce(delay, GROUP.Destroy, self, GenerateEvent)
else
@@ -568,12 +563,12 @@ function GROUP:GetSpeedMax()
local Units=self:GetUnits()
local speedmax=nil
local speedmax=0
for _,unit in pairs(Units) do
local unit=unit --Wrapper.Unit#UNIT
local speed=unit:GetSpeedMax()
if speedmax==nil then
if speedmax==0 then
speedmax=speed
elseif speed<speedmax then
speedmax=speed
@@ -2326,41 +2321,44 @@ function GROUP:GetAttribute()
local unarmedship=self:HasAttribute("Unarmed ships")
-- Define attribute. Order is important.
if transportplane then
attribute=GROUP.Attribute.AIR_TRANSPORTPLANE
elseif awacs then
attribute=GROUP.Attribute.AIR_AWACS
elseif fighter then
-- Define attribute. Order of attack is important.
if fighter then
attribute=GROUP.Attribute.AIR_FIGHTER
elseif bomber then
attribute=GROUP.Attribute.AIR_BOMBER
elseif awacs then
attribute=GROUP.Attribute.AIR_AWACS
elseif transportplane then
attribute=GROUP.Attribute.AIR_TRANSPORTPLANE
elseif tanker then
attribute=GROUP.Attribute.AIR_TANKER
-- helos
elseif attackhelicopter then
attribute=GROUP.Attribute.AIR_ATTACKHELO
elseif transporthelo then
attribute=GROUP.Attribute.AIR_TRANSPORTHELO
elseif attackhelicopter then
attribute=GROUP.Attribute.AIR_ATTACKHELO
elseif uav then
attribute=GROUP.Attribute.AIR_UAV
elseif apc then
attribute=GROUP.Attribute.GROUND_APC
elseif infantry then
attribute=GROUP.Attribute.GROUND_INFANTRY
elseif artillery then
attribute=GROUP.Attribute.GROUND_ARTILLERY
elseif tank then
attribute=GROUP.Attribute.GROUND_TANK
elseif aaa then
attribute=GROUP.Attribute.GROUND_AAA
-- ground - order of attack
elseif ewr then
attribute=GROUP.Attribute.GROUND_EWR
elseif sam then
attribute=GROUP.Attribute.GROUND_SAM
elseif aaa then
attribute=GROUP.Attribute.GROUND_AAA
elseif artillery then
attribute=GROUP.Attribute.GROUND_ARTILLERY
elseif tank then
attribute=GROUP.Attribute.GROUND_TANK
elseif apc then
attribute=GROUP.Attribute.GROUND_APC
elseif infantry then
attribute=GROUP.Attribute.GROUND_INFANTRY
elseif truck then
attribute=GROUP.Attribute.GROUND_TRUCK
elseif train then
attribute=GROUP.Attribute.GROUND_TRAIN
-- ships
elseif aircraftcarrier then
attribute=GROUP.Attribute.NAVAL_AIRCRAFTCARRIER
elseif warship then
@@ -2578,8 +2576,10 @@ end
-- @return #GROUP self
function GROUP:SetCommandInvisible(switch)
self:F2( self.GroupName )
local switch = switch or false
local SetInvisible = {id = 'SetInvisible', params = {value = true}}
if switch==nil then
switch=false
end
local SetInvisible = {id = 'SetInvisible', params = {value = switch}}
self:SetCommand(SetInvisible)
return self
end
@@ -2590,9 +2590,11 @@ end
-- @return #GROUP self
function GROUP:SetCommandImmortal(switch)
self:F2( self.GroupName )
local switch = switch or false
local SetInvisible = {id = 'SetImmortal', params = {value = true}}
self:SetCommand(SetInvisible)
if switch==nil then
switch=false
end
local SetImmortal = {id = 'SetImmortal', params = {value = switch}}
self:SetCommand(SetImmortal)
return self
end

526
Moose Development/Moose/Wrapper/Positionable.lua
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File diff suppressed because it is too large Load Diff

140
Moose Development/Moose/Wrapper/Static.lua
View File

@@ -1,52 +1,46 @@
--- **Wrapper** -- STATIC wraps the DCS StaticObject class.
--
--
-- ===
--
--
-- ### Author: **FlightControl**
--
--
-- ### Contributions: **funkyfranky**
--
--
-- ===
--
--
-- @module Wrapper.Static
-- @image Wrapper_Static.JPG
--- @type STATIC
-- @extends Wrapper.Positionable#POSITIONABLE
--- Wrapper class to handle Static objects.
--
--
-- Note that Statics are almost the same as Units, but they don't have a controller.
-- The @{Wrapper.Static#STATIC} class is a wrapper class to handle the DCS Static objects:
--
--
-- * Wraps the DCS Static objects.
-- * Support all DCS Static APIs.
-- * Enhance with Static specific APIs not in the DCS API set.
--
--
-- ## STATIC reference methods
--
--
-- For each DCS Static will have a STATIC wrapper object (instance) within the _@{DATABASE} object.
-- This is done at the beginning of the mission (when the mission starts).
--
--
-- The STATIC class does not contain a :New() method, rather it provides :Find() methods to retrieve the object reference
-- using the Static Name.
--
--
-- Another thing to know is that STATIC objects do not "contain" the DCS Static object.
-- The STATIc methods will reference the DCS Static object by name when it is needed during API execution.
-- If the DCS Static object does not exist or is nil, the STATIC methods will return nil and log an exception in the DCS.log file.
--
--
-- The STATIc class provides the following functions to retrieve quickly the relevant STATIC instance:
--
--
-- * @{#STATIC.FindByName}(): Find a STATIC instance from the _DATABASE object using a DCS Static name.
--
-- IMPORTANT: ONE SHOULD NEVER SANATIZE these STATIC OBJECT REFERENCES! (make the STATIC object references nil).
--
--
-- IMPORTANT: ONE SHOULD NEVER SANITIZE these STATIC OBJECT REFERENCES! (make the STATIC object references nil).
--
-- @field #STATIC
STATIC = {
ClassName = "STATIC",
}
STATIC = { ClassName = "STATIC" }
--- Register a static object.
-- @param #STATIC self
@@ -58,7 +52,6 @@ function STATIC:Register( StaticName )
return self
end
--- Finds a STATIC from the _DATABASE using a DCSStatic object.
-- @param #STATIC self
-- @param DCS#StaticObject DCSStatic An existing DCS Static object reference.
@@ -83,13 +76,13 @@ function STATIC:FindByName( StaticName, RaiseError )
-- Set static name.
self.StaticName = StaticName
if StaticFound then
return StaticFound
return StaticFound
end
if RaiseError == nil or RaiseError == true then
error( "STATIC not found for: " .. StaticName )
if RaiseError == nil or RaiseError == true then
error( "STATIC not found for: " .. StaticName )
end
return nil
@@ -97,38 +90,39 @@ end
--- Destroys the STATIC.
-- @param #STATIC self
-- @param #boolean GenerateEvent (Optional) true if you want to generate a crash or dead event for the static.
-- @return #nil The DCS StaticObject is not existing or alive.
-- @param #boolean GenerateEvent (Optional) true to generate a crash or dead event, false to not generate any event. `nil` (default) creates a remove event.
-- @return #nil The DCS StaticObject is not existing or alive.
--
-- @usage
-- -- Air static example: destroy the static Helicopter and generate a S_EVENT_CRASH.
-- Helicopter = STATIC:FindByName( "Helicopter" )
-- Helicopter:Destroy( true )
--
--
-- @usage
-- -- Ground static example: destroy the static Tank and generate a S_EVENT_DEAD.
-- Tanks = UNIT:FindByName( "Tank" )
-- Tanks:Destroy( true )
--
--
-- @usage
-- -- Ship static example: destroy the Ship silently.
-- Ship = STATIC:FindByName( "Ship" )
-- Ship:Destroy()
--
--
-- @usage
-- -- Destroy without event generation example.
-- Ship = STATIC:FindByName( "Boat" )
-- Ship:Destroy( false ) -- Don't generate an event upon destruction.
--
-- Ship:Destroy( false ) -- Don't generate any event upon destruction.
--
function STATIC:Destroy( GenerateEvent )
self:F2( self.ObjectName )
local DCSObject = self:GetDCSObject()
if DCSObject then
local StaticName = DCSObject:getName()
self:F( { StaticName = StaticName } )
if GenerateEvent and GenerateEvent == true then
if self:IsAir() then
self:CreateEventCrash( timer.getTime(), DCSObject )
@@ -140,7 +134,7 @@ function STATIC:Destroy( GenerateEvent )
else
self:CreateEventRemoveUnit( timer.getTime(), DCSObject )
end
DCSObject:destroy()
return true
end
@@ -148,17 +142,16 @@ function STATIC:Destroy( GenerateEvent )
return nil
end
--- Get DCS object of static of static.
-- @param #STATIC self
-- @return DCS static object
function STATIC:GetDCSObject()
local DCSStatic = StaticObject.getByName( self.StaticName )
if DCSStatic then
return DCSStatic
end
return nil
end
@@ -170,7 +163,7 @@ function STATIC:GetUnits()
local DCSStatic = self:GetDCSObject()
local Statics = {}
if DCSStatic then
Statics[1] = STATIC:Find( DCSStatic )
self:T3( Statics )
@@ -180,7 +173,6 @@ function STATIC:GetUnits()
return nil
end
--- Get threat level of static.
-- @param #STATIC self
-- @return #number Threat level 1.
@@ -194,66 +186,62 @@ end
-- @param Core.Point#COORDINATE Coordinate The coordinate where to spawn the new Static.
-- @param #number Heading The heading of the static respawn in degrees. Default is 0 deg.
-- @param #number Delay Delay in seconds before the static is spawned.
function STATIC:SpawnAt(Coordinate, Heading, Delay)
function STATIC:SpawnAt( Coordinate, Heading, Delay )
Heading=Heading or 0
Heading = Heading or 0
if Delay and Delay>0 then
SCHEDULER:New(nil, self.SpawnAt, {self, Coordinate, Heading}, Delay)
if Delay and Delay > 0 then
SCHEDULER:New( nil, self.SpawnAt, { self, Coordinate, Heading }, Delay )
else
local SpawnStatic=SPAWNSTATIC:NewFromStatic(self.StaticName)
local SpawnStatic = SPAWNSTATIC:NewFromStatic( self.StaticName )
SpawnStatic:SpawnFromPointVec2( Coordinate, Heading, self.StaticName )
end
return self
end
--- Respawn the @{Wrapper.Unit} at the same location with the same properties.
-- This is useful to respawn a cargo after it has been destroyed.
-- @param #STATIC self
-- @param DCS#country.id CountryID (Optional) The country ID used for spawning the new static. Default is same as currently.
-- @param #number Delay (Optional) Delay in seconds before static is respawned. Default now.
function STATIC:ReSpawn(CountryID, Delay)
function STATIC:ReSpawn( CountryID, Delay )
if Delay and Delay>0 then
SCHEDULER:New(nil, self.ReSpawn, {self, CountryID}, Delay)
if Delay and Delay > 0 then
SCHEDULER:New( nil, self.ReSpawn, { self, CountryID }, Delay )
else
CountryID=CountryID or self:GetCountry()
CountryID = CountryID or self:GetCountry()
local SpawnStatic = SPAWNSTATIC:NewFromStatic( self.StaticName, CountryID )
SpawnStatic:Spawn( nil, self.StaticName )
local SpawnStatic=SPAWNSTATIC:NewFromStatic(self.StaticName, CountryID)
SpawnStatic:Spawn(nil, self.StaticName)
end
return self
end
--- Respawn the @{Wrapper.Unit} at a defined Coordinate with an optional heading.
-- @param #STATIC self
-- @param Core.Point#COORDINATE Coordinate The coordinate where to spawn the new Static.
-- @param #number Heading (Optional) The heading of the static respawn in degrees. Default the current heading.
-- @param #number Delay (Optional) Delay in seconds before static is respawned. Default now.
function STATIC:ReSpawnAt(Coordinate, Heading, Delay)
-- @param #number Heading (Optional) The heading of the static respawn in degrees. Default is the current heading.
-- @param #number Delay (Optional) Delay in seconds before static is respawned. Default is now.
function STATIC:ReSpawnAt( Coordinate, Heading, Delay )
--Heading=Heading or 0
-- Heading=Heading or 0
if Delay and Delay>0 then
SCHEDULER:New(nil, self.ReSpawnAt, {self, Coordinate, Heading}, Delay)
if Delay and Delay > 0 then
SCHEDULER:New( nil, self.ReSpawnAt, { self, Coordinate, Heading }, Delay )
else
local SpawnStatic=SPAWNSTATIC:NewFromStatic(self.StaticName, self:GetCountry())
SpawnStatic:SpawnFromCoordinate(Coordinate, Heading, self.StaticName)
local SpawnStatic = SPAWNSTATIC:NewFromStatic( self.StaticName, self:GetCountry() )
SpawnStatic:SpawnFromCoordinate( Coordinate, Heading, self.StaticName )
end
return self
end

31
Moose Development/Moose/Wrapper/Unit.lua
View File

@@ -168,9 +168,6 @@ function UNIT:GetDCSObject()
return nil
end
--- Respawn the @{Wrapper.Unit} using a (tweaked) template of the parent Group.
--
-- This function will:
@@ -263,8 +260,6 @@ function UNIT:ReSpawnAt( Coordinate, Heading )
_DATABASE:Spawn( SpawnGroupTemplate )
end
--- Returns if the unit is activated.
-- @param #UNIT self
-- @return #boolean `true` if Unit is activated. `nil` The DCS Unit is not existing or alive.
@@ -301,8 +296,6 @@ function UNIT:IsAlive()
return nil
end
--- Returns the Unit's callsign - the localized string.
-- @param #UNIT self
-- @return #string The Callsign of the Unit.
@@ -442,7 +435,7 @@ function UNIT:GetSpeedMax()
return SpeedMax*3.6
end
return nil
return 0
end
--- Returns the unit's max range in meters derived from the DCS descriptors.
@@ -626,8 +619,8 @@ function UNIT:GetAmmunition()
-- Type name of current weapon.
local Tammo=ammotable[w]["desc"]["typeName"]
local _weaponString = UTILS.Split(Tammo,"%.")
local _weaponName = _weaponString[#_weaponString]
--local _weaponString = UTILS.Split(Tammo,"%.")
--local _weaponName = _weaponString[#_weaponString]
-- Get the weapon category: shell=0, missile=1, rocket=2, bomb=3
local Category=ammotable[w].desc.category
@@ -655,8 +648,9 @@ function UNIT:GetAmmunition()
nbombs=nbombs+Nammo
elseif Category==Weapon.Category.MISSILE then
-- Add up all cruise missiles (category 5)
-- Add up all missiles (category 5)
if MissileCategory==Weapon.MissileCategory.AAM then
nmissiles=nmissiles+Nammo
elseif MissileCategory==Weapon.MissileCategory.ANTI_SHIP then
@@ -665,6 +659,10 @@ function UNIT:GetAmmunition()
nmissiles=nmissiles+Nammo
elseif MissileCategory==Weapon.MissileCategory.OTHER then
nmissiles=nmissiles+Nammo
elseif MissileCategory==Weapon.MissileCategory.SAM then
nmissiles=nmissiles+Nammo
elseif MissileCategory==Weapon.MissileCategory.CRUISE then
nmissiles=nmissiles+Nammo
end
end
@@ -956,7 +954,6 @@ end
-- @return #string Some text.
function UNIT:GetThreatLevel()
local ThreatLevel = 0
local ThreatText = ""
@@ -982,7 +979,6 @@ function UNIT:GetThreatLevel()
"LR SAMs"
}
if Attributes["LR SAM"] then ThreatLevel = 10
elseif Attributes["MR SAM"] then ThreatLevel = 9
elseif Attributes["SR SAM"] and
@@ -1018,7 +1014,6 @@ function UNIT:GetThreatLevel()
"Fighter"
}
if Attributes["Fighters"] then ThreatLevel = 10
elseif Attributes["Multirole fighters"] then ThreatLevel = 9
elseif Attributes["Battleplanes"] then ThreatLevel = 8
@@ -1136,12 +1131,6 @@ function UNIT:OtherUnitInRadius( AwaitUnit, Radius )
return nil
end
--- Returns if the unit is a friendly unit.
-- @param #UNIT self
-- @return #boolean IsFriendly evaluation result.