Mod Tool/Scripting: Difference between revisions

build an vbs executable

Executable, app(lication), program. Whatever you call it, sometimes it might be necessary to compile the script into an actual program.

Even though vbs is a script language and not a programming language, it can be done.

VbsEdit is an editor to fulfill such task with ease.

Just goto File > Convert into Executable. Choose output path, 32/64-bit version and hit OK.

OS bit version

if GetObject("winmgmts:root\cimv2:Win32_Processor='cpu0'").AddressWidth = 64 then
	logmessage "64"
else
	logmessage "32"
end if

faster

Set WshShell = CreateObject("WScript.Shell")
if instr(WshShell.RegRead("HKLM\HARDWARE\DESCRIPTION\System\CentralProcessor\0\Identifier"), "x86") = 1 then
	logmessage "32"
else
	logmessage "64"
end if

read registry

Mod Tool (because 32-bit) fails to execute following code properly on 64-bit operation systems. So the code must be build as 64-bit and 32-bit application.

Set WshShell = CreateObject("WScript.Shell")
AE_path = WshShell.RegRead("HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\Windows\CurrentVersion\Uninstall\{B67333BB-1CF9-4EFD-A40B-E25B5CB4C8A7}}_is1\InstallLocation")
MsgBox AE_path

Dim fso
Set fso = CreateObject ("Scripting.FileSystemObject")
txt_location = fso.GetAbsolutePathName(".") & "\AE_path.txt"
Set wText = fso.CreateTextFile (txt_location, 1)
wText.WriteLine AE_path
wText.Close

read file

binary

scan_AKEV_file_table

sub scan_AKEV_file_table
	' ##############################################
	OniInputFile =  "H:\Oni\AE\GameDataFolder\level1_Final\AKEVEnvWarehouse.oni"
	' ##############################################
    
	Set OniInputFileStream = CreateObject("ADODB.Stream")
	OniInputFileStream.Type = 1
	OniInputFileStream.Open
	OniInputFileStream.LoadFromFile OniInputFile

	' ### read AKEV textures table offset and size
	ByteNum = 4
	' ##############################################
	TOffset = cLng("&H" & "28")
	' ##############################################
	OniInputFileStream.Position = TOffset
	BArr1 = OniInputFileStream.Read(ByteNum)

	ByteNum = 4
	' ##############################################
	TSize = cLng ("&H" & "2C")
	' ##############################################
	OniInputFileStream.Position = TSize
	BArr2 = OniInputFileStream.Read(ByteNum)


	' ### get AKEV textures table offset and size
	TOffsetHex = SimpleBinaryToString(BArr1)
	for i = ubound(TOffsetHex ) - 1 to 0 step -1
		newhex = newhex & hex(Asc(TOffsetHex(i)))
	next
	logmessage newhex
	logmessage "name table offset: " & cLng("&H" & newhex)
	TOffsetInt = cLng("&H" & newhex)
	newhex = ""
	
	TSizeHex = SimpleBinaryToString(BArr2)
	for i = ubound(TSizeHex) - 1 to 0 step -1
		newhex = newhex & hex(Asc(TSizeHex(i)))
	next
	logmessage newhex
	logmessage "name table size: " & cLng("&H" & newhex)
	TSizeInt = cLng("&H" & newhex) 
	
  	logmessage "------------------------------"
  	

	' ### read table content
	ByteNum = TSizeInt
	OniInputFileStream.Position = TOffsetInt
	BArr3 = OniInputFileStream.Read(ByteNum)
	TContent = SimpleBinaryToString(BArr3)
	
	' ### name grapper
	NG = ""
	for each n in TContent
		if not Asc(n) = 0 then
			NG = NG & n
		else
			'if instr(NG, "TXMP") = 1 then
				' write TXMP to array ?
				logmessage NG
			'end if
			NG = ""
		end if
	next
end sub

Function SimpleBinaryToString(Binary)
	ReDim tmpArr(LenB(Binary) - 1)
	For I = 1 To LenB(Binary)
		S = Chr(AscB(MidB(Binary, I, 1)))
		tmpArr(I - 1) = S
	Next
	SimpleBinaryToString = tmpArr
End Function

Output:

' INFO : 0E40
' INFO : name table offset: 3648
' INFO : 0A4A
' INFO : name table size: 2634
' INFO : ------------------------------
' INFO : AKEVEnvWarehouse
' INFO : AGDBEnvWarehouse
' INFO : TXMP_DOOR_FRAME
' INFO : TXMPNONE
' INFO : TXMPSUMI_1
' INFO : TXMPTC_CONTROL_01
' [...]
' INFO : TXMPWH_DCTRBND

modify file

binary

Change FilePath and in case of binary patching use function "StringToByteArray".

FilePath =  "C:\path_to\AKEVEnvWarehouse.oni"

' ### create stream objects
Set InputStream = CreateObject("ADODB.Stream")
InputStream.Type = 1
InputStream.Open
Set OutputStream = CreateObject("ADODB.Stream")
OutputStream.Type = 1
OutputStream.Open

' ### load input stream from file
InputStream.LoadFromFile FilePath

' ### copy first 16 signs of input stream to output stream
OutputStream.Write InputStream.Read(16)

' ### apply patch
' # ASCII patching
patch_data = "ABCD"
patch_data_length = len(patch_data)
'   patch_data_length = 4
InputStream.Position = InputStream.Position + patch_data_length
OutputStream.Write CreateObject("System.Text.ASCIIEncoding").GetBytes_4(patch_data)
' # binary patching
'OutputStream.Write StringToByteArray("41424344")

' ### re-add data that was cut off
OutputStream.Write InputStream.Read
   
' ### unloader
InputStream.Close
Set InputStream = Nothing
' ### modes: 2 = overwrite; 1 = dontoverwrite
' test: save to new file
' FilePath2 = "C:\path_to\AKEVEnvWarehouseB.oni"
OutputStream.SaveToFile FilePath, 2
OutputStream.Close
Set OutputStream = Nothing

Math

Euler rotation -> matrix

function cosn (n)
	cosn = cos(XSIMath.DegreesToRadians(n))
end function
function sinn (n)
	sinn = sin(XSIMath.DegreesToRadians(n))
end function

' ################
logmessage "input"
x = 60 : logmessage x
y = 60 : logmessage y
z = 60 : logmessage z

logmessage "##################"
logmessage "converted"

set RotMatX = XSIMath.CreateMatrix3(1, 0, 0, 0, cosn(x), sinn(x), 0, -sinn(x), cosn(x))
set RotMatY = XSIMath.CreateMatrix3(cosn(y), 0, -sinn(y), 0, 1, 0, sinn(y), 0, cosn(y))
set RotMatZ = XSIMath.CreateMatrix3(cosn(z), sinn(z), 0, -sinn(z), cosn(z), 0, 0, 0, 1)

RotMatZ.MulInPlace RotMatY
RotMatZ.MulInPlace RotMatX

for i=0 to 2
	for j=0 to 2
		logmessage RotMatZ (i, j)
	next
next 

' INFO : input
' INFO : 60
' INFO : 60
' INFO : 60
' INFO : ##################
' INFO : converted
' INFO : 0,25
' INFO : 0,808012701892219
' INFO : 0,53349364905389
' INFO : -0,433012701892219
' INFO : -0,399519052838329
' INFO : 0,808012701892219
' INFO : 0,866025403784439
' INFO : -0,433012701892219
' INFO : 0,25

Matrix -> Euler rotation

Function Atan2(y, x)
  If x > 0 Then
    Atan2 = Atn(y / x)
  ElseIf x < 0 Then
    Atan2 = Sgn(y) * (XSIMath.PI - Atn(Abs(y / x)))
  ElseIf y = 0 Then
    Atan2 = 0
  Else
    Atan2 = Sgn(y) * XSIMath.PI / 2
  End If
End Function


function ToEuler(M00, M10, M20, M21, M22)
            a = M00
            b = M10
            dim c, s, r

            if b = 0 then
                c = Sgn(a)
                s = 0
                r = Abs(a)

            elseif a = 0 then
                c = 0
                s = Sgn(b)
                r = Abs(b)
                
            elseif Abs(b) > Abs(a) then
                t = a / b
                u = Sgn(b) * Sqr(1 + t * t)
                s = 1 / u
                c = s * t
                r = b * u

            else
                t = b / a
                u = Sgn(a) * Sqr(1 + t * t)
                c = 1 / u
                s = c * t
                r = a * u

	    end if

            Z = -Atan2(s, c)
            Y = Atan2(M20, r)
            X = -Atan2(M21, M22)

	    X = XSIMath.RadiansToDegrees(X)
	    Y = XSIMath.RadiansToDegrees(Y)
	    Z = XSIMath.RadiansToDegrees(Z)

	    ToEuler = array(X, Y, Z)
end function

' ################################
set RotMat = XSIMath.CreateMatrix3( _
		0.25, 0.808012701892219, 0.53349364905389, _
		-0.433012701892219, -0.399519052838329, 0.808012701892219, _
		0.866025403784439, -0.433012701892219, 0.25 )


' convert matrix to euler rotation and store values to array
ReXYZ = ToEuler(RotMat(0,0), RotMat(1,0), RotMat(2,0), RotMat(2,1), RotMat(2,2))

logmessage "reconverted"
logmessage ReXYZ(0)
logmessage ReXYZ(1)
logmessage ReXYZ(2)

' INFO : 60
' INFO : 60
' INFO : 60

Euler rotation -> quaternion

dim x, y, z, dRotation, qRotation
x = 90
y = 0
z = 0

set dRotation = XSIMath.CreateRotation(XSIMath.DegreesToRadians(x), XSIMath.DegreesToRadians(y), XSIMath.DegreesToRadians(z)) 
set qRotation = XSIMath.CreateQuaternion() 

	dRotation.GetQuaternion (qRotation) 
	LogMessage qRotation.W
	LogMessage qRotation.X
	LogMessage qRotation.Y
	LogMessage qRotation.Z
	' INFO : 0,707106781186548
	' INFO : 0,707106781186547
	' INFO : 0
	' INFO : 0

' to calculate oni quaternions from euler rotations use this setup:
' 	LogMessage qRotation.X
'	LogMessage qRotation.Y
'	LogMessage qRotation.Z
'	LogMessage qRotation.W * -1

Quaternion -> Euler rotation

dim qW, qX, qY, qZ, qRotation, x, y, z

	qW = 0.707106781186548
	qX = 0.707106781186547
	qY = 0
	qZ = 0

set qRotation = XSIMath.CreateQuaternion (qW, qX , qY, qZ)

	qRotation.GetXYZAngleValues x, y, z
	logmessage XSIMath.RadiansToDegrees(x)
	logmessage XSIMath.RadiansToDegrees(y)
	logmessage XSIMath.RadiansToDegrees(z)
	' INFO : 89,9999999999999
	' INFO : 0
	' INFO : 0

' to calculate euler rotations from oni quaternions use this setup:
	'qX = ...
	'qY = ...
	'qZ = ...
	'qW = ... * -1
'set qRotation = XSIMath.CreateQuaternion (qW, qX, qY, qZ)

Conversions

String -> byte array

function StringToByteArray(ThisString)
	for i = 1 To Len(ThisString) Step 2
		str = str & Chr("&h" & Mid(ThisString, i, 2))
	next

	Set stream = CreateObject("ADODB.Stream")
	With stream
		.Open
		.CharSet = "Windows-1252"
		.Type = 2
			' ### 2 = text
		.WriteText str
		.Position = 0
		.Type = 1
			' ### 1 = binary
		StringToByteArray = .Read
		.Close
	End With
end function

' ### usage
ByteArray = StringToByteArray(ThisString)

Byte array -> string

Function ByteArrayToString(Binary)
  'Antonin Foller, http://www.motobit.com
  'Optimized version of a simple BinaryToString algorithm.
  
  Dim cl1, cl2, cl3, pl1, pl2, pl3
  Dim L
  cl1 = 1
  cl2 = 1
  cl3 = 1
  L = LenB(Binary)
  
  Do While cl1<=L
    pl3 = pl3 & Chr(AscB(MidB(Binary,cl1,1)))
    cl1 = cl1 + 1
    cl3 = cl3 + 1
    If cl3>300 Then
      pl2 = pl2 & pl3
      pl3 = ""
      cl3 = 1
      cl2 = cl2 + 1
      If cl2>200 Then
        pl1 = pl1 & pl2
        pl2 = ""
        cl2 = 1
      End If
    End If
  Loop
  BinaryToString = pl1 & pl2 & pl3
End Function

' ### usage
MyString = ByteArrayToString(ByteArray)