400 lines
18 KiB
Text
400 lines
18 KiB
Text
// SSDT-BATC.dsl
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//
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// Based on https://github.com/RehabMan/OS-X-ACPI-Battery-Driver/blob/master/SSDT-BATC.dsl
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//
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// An SSDT to combine two batteries into one
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// initial work/testing by ag6952563 (with assistance by RehabMan)
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// finalize into generic SSDT by RehabMan
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// some code cleanup/optimization/and bug fixing by RehabMan
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// modifications to work VirtualSMC SMCBatteryManager by armenio
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// add _BIX (easy, following the original code from RehabMan) by armenio
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//
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// OS X support for multiple batteries is a bit buggy.
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// This SSDT can be used to combine two batteries into one,
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// avoiding the bugs.
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//
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// It may need modification depending on the ACPI path of your
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// existing battery objects.
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//
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// IMPORTANT:
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//
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// To use this SSDT, you must also patch any Notify for either BAT0 or BAT1
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// objects.
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//
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// The Notify is used to tell the system when a battery is removed or added.
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//
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// Any code:
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// Notify (...BAT0, ...)
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// -or
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// Notify (...BAT1, ...)
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//
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// Must be changed to:
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// Notify (...BATC, ...)
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//
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// Refer to Dual Battery Support.md for patching details
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//
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DefinitionBlock ("", "SSDT", 2, "ACDT", "BATC", 0x00000000)
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{
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External (_SB_.PCI0.LPCB.EC, DeviceObj)
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External (_SB_.PCI0.LPCB.EC.BAT0, DeviceObj)
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External (_SB_.PCI0.LPCB.EC.BAT0._BIF, MethodObj)
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External (_SB_.PCI0.LPCB.EC.BAT0._BIX, MethodObj)
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External (_SB_.PCI0.LPCB.EC.BAT0._BST, MethodObj)
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External (_SB_.PCI0.LPCB.EC.BAT0._HID, IntObj)
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External (_SB_.PCI0.LPCB.EC.BAT0._STA, MethodObj)
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External (_SB_.PCI0.LPCB.EC.BAT1, DeviceObj)
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External (_SB_.PCI0.LPCB.EC.BAT1._BIF, MethodObj)
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External (_SB_.PCI0.LPCB.EC.BAT1._BIX, MethodObj)
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External (_SB_.PCI0.LPCB.EC.BAT1._BST, MethodObj)
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External (_SB_.PCI0.LPCB.EC.BAT1._HID, IntObj)
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External (_SB_.PCI0.LPCB.EC.BAT1._STA, MethodObj)
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Scope (\_SB.PCI0.LPCB.EC)
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{
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Device (BATC)
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{
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Name (_HID, EisaId ("PNP0C0A"))
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Name (_UID, 0x02)
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Method (_INI)
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{
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If (_OSI ("Darwin"))
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{
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// disable original battery objects by setting invalid _HID
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^^BAT0._HID = 0
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^^BAT1._HID = 0
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}
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}
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Method (_STA)
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{
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If (_OSI ("Darwin"))
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{
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// call original _STA for BAT0 and BAT1
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// result is bitwise OR between them
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Return (^^BAT0._STA () | ^^BAT1._STA ())
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}
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Else
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{
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Return (Zero)
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}
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}
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Method (_BIF)
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{
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// Local0 BAT0._BIF
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// Local1 BAT1._BIF
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// Local2 BAT0._STA
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// Local3 BAT1._STA
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// Local4/Local5 scratch
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// gather and validate data from BAT0
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Local0 = ^^BAT0._BIF ()
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Local2 = ^^BAT0._STA ()
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If (0x1f == Local2)
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{
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// check for invalid design capacity
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Local4 = DerefOf (Local0 [1])
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If (!Local4 || Ones == Local4) { Local2 = 0; }
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// check for invalid last full charge capacity
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Local4 = DerefOf (Local0 [2])
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If (!Local4 || Ones == Local4) { Local2 = 0; }
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// check for invalid design voltage
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Local4 = DerefOf (Local0 [4])
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If (!Local4 || Ones == Local4) { Local2 = 0; }
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}
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// gather and validate data from BAT1
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Local1 = ^^BAT1._BIF ()
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Local3 = ^^BAT1._STA ()
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If (0x1f == Local3)
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{
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// check for invalid design capacity
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Local4 = DerefOf (Local1 [1])
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If (!Local4 || Ones == Local4) { Local3 = 0; }
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// check for invalid last full charge capacity
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Local4 = DerefOf (Local1 [2])
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If (!Local4 || Ones == Local4) { Local3 = 0; }
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// check for invalid design voltage
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Local4 = DerefOf (Local1 [4])
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If (!Local4 || Ones == Local4) { Local3 = 0; }
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}
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// find primary and secondary battery
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If (0x1f != Local2 && 0x1f == Local3)
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{
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// make primary use BAT1 data
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Local0 = Local1 // BAT1._BIF result
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Local2 = Local3 // BAT1._STA result
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Local3 = 0 // no secondary battery
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}
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// combine batteries into Local0 result if possible
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If (0x1f == Local2 && 0x1f == Local3)
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{
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// _BIF 0 Power Unit - leave BAT0 value
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// _BIF 1 Design Capacity - add BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [1])
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Local5 = DerefOf (Local1 [1])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [1] = Local4 + Local5
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}
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// _BIF 2 Last Full Charge Capacity - add BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [2])
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Local5 = DerefOf (Local1 [2])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [2] = Local4 + Local5
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}
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// _BIF 3 Battery Technology - leave BAT0 value
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// _BIF 4 Design Voltage - average between BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [4])
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Local5 = DerefOf (Local1 [4])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [4] = (Local4 + Local5) / 2
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}
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// _BIF 5 Design Capacity of Warning - add BAT0 and BAT1 values
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Local0 [5] = DerefOf (Local0 [5]) + DerefOf (Local1 [5])
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// _BIF 6 Design Capacity of Low - add BAT0 and BAT1 values
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Local0 [6] = DerefOf (Local0 [6]) + DerefOf (Local1 [6])
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// _BIF 7 Battery Capacity Granularity 1 - add BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [7])
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Local5 = DerefOf (Local1 [7])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [7] = Local4 + Local5
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}
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// _BIF 8 Battery Capacity Granularity 2 - add BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [8])
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Local5 = DerefOf (Local1 [8])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [8] = Local4 + Local5
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}
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// _BIF 9 Model Number - concatenate BAT0 and BAT1 values
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Local0 [0x09] = Concatenate (Concatenate (DerefOf (Local0 [0x09]), " / "), DerefOf (Local1 [0x09]))
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// _BIF a Serial Number - concatenate BAT0 and BAT1 values
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Local0 [0x0a] = Concatenate (Concatenate (DerefOf (Local0 [0x0a]), " / "), DerefOf (Local1 [0x0a]))
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// _BIF b Battery Type - concatenate BAT0 and BAT1 values
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Local0 [0x0b] = Concatenate (Concatenate (DerefOf (Local0 [0x0b]), " / "), DerefOf (Local1 [0x0b]))
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// _BIF c OEM Information - concatenate BAT0 and BAT1 values
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Local0 [0x0c] = Concatenate (Concatenate (DerefOf (Local0 [0x0c]), " / "), DerefOf (Local1 [0x0c]))
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}
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Return (Local0)
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} // _BIF
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Method (_BIX)
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{
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// Local0 BAT0._BIX
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// Local1 BAT1._BIX
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// Local2 BAT0._STA
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// Local3 BAT1._STA
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// Local4/Local5 scratch
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// gather and validate data from BAT0
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Local0 = ^^BAT0._BIX ()
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Local2 = ^^BAT0._STA ()
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If (0x1f == Local2)
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{
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// check for invalid design capacity
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Local4 = DerefOf (Local0 [2])
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If (!Local4 || Ones == Local4) { Local2 = 0; }
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// check for invalid last full charge capacity
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Local4 = DerefOf (Local0 [3])
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If (!Local4 || Ones == Local4) { Local2 = 0; }
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// check for invalid design voltage
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Local4 = DerefOf (Local0 [5])
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If (!Local4 || Ones == Local4) { Local2 = 0; }
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}
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// gather and validate data from BAT1
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Local1 = ^^BAT1._BIX ()
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Local3 = ^^BAT1._STA ()
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If (0x1f == Local3)
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{
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// check for invalid design capacity
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Local4 = DerefOf (Local1 [2])
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If (!Local4 || Ones == Local4) { Local3 = 0; }
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// check for invalid last full charge capacity
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Local4 = DerefOf (Local1 [3])
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If (!Local4 || Ones == Local4) { Local3 = 0; }
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// check for invalid design voltage
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Local4 = DerefOf (Local1 [5])
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If (!Local4 || Ones == Local4) { Local3 = 0; }
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}
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// find primary and secondary battery
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If (0x1f != Local2 && 0x1f == Local3)
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{
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// make primary use BAT1 data
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Local0 = Local1 // BAT1._BIX result
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Local2 = Local3 // BAT1._STA result
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Local3 = 0 // no secondary battery
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}
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// combine batteries into Local0 result if possible
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If (0x1f == Local2 && 0x1f == Local3)
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{
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// _BIX 0 Revision - leave BAT0 value
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// _BIX 1 Power Unit - leave BAT0 value
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// _BIX 2 Design Capacity - add BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [2])
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Local5 = DerefOf (Local1 [2])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [2] = Local4 + Local5
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}
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// _BIX 3 Last Full Charge Capacity - add BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [3])
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Local5 = DerefOf (Local1 [3])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [3] = Local4 + Local5
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}
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// _BIX 4 Battery Technology - leave BAT0 value
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// _BIX 5 Design Voltage - average between BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [5])
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Local5 = DerefOf (Local1 [5])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [5] = (Local4 + Local5) / 2
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}
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// _BIX 6 Design Capacity of Warning - add BAT0 and BAT1 values
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Local0 [6] = DerefOf (Local0 [6]) + DerefOf (Local1 [6])
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// _BIX 7 Design Capacity of Low - add BAT0 and BAT1 values
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Local0 [7] = DerefOf (Local0 [7]) + DerefOf (Local1 [7])
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// _BIX 8 Cycle Count - average between BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [8])
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Local5 = DerefOf (Local1 [8])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [8] = (Local4 + Local5) / 2
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}
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// _BIX 9 Measurement Accuracy - average between BAT0 and BAT1 values
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Local0 [9] = (DerefOf (Local0 [9]) + DerefOf (Local1 [9])) / 2
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// _BIX 0xa Max Sampling Time - average between BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [0xa])
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Local5 = DerefOf (Local1 [0xa])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [0xa] = (Local4 + Local5) / 2
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}
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// _BIX 0xb Min Sampling Time - average between BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [0xb])
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Local5 = DerefOf (Local1 [0xb])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [0xb] = (Local4 + Local5) / 2
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}
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// _BIX 0xc Max Averaging Interval - average between BAT0 and BAT1 values
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Local0 [0xc] = (DerefOf (Local0 [0xc]) + DerefOf (Local1 [0xc])) / 2
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// _BIX 0xd Min Averaging Interval - average between BAT0 and BAT1 values
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Local0 [0xd] = (DerefOf (Local0 [0xd]) + DerefOf (Local1 [0xd])) / 2
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// _BIX 0xe Battery Capacity Granularity 1 - add BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [0xe])
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Local5 = DerefOf (Local1 [0xe])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [0xe] = Local4 + Local5
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}
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// _BIX 0xf Battery Capacity Granularity 2 - add BAT0 and BAT1 values
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Local4 = DerefOf (Local0 [0xf])
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Local5 = DerefOf (Local1 [0xf])
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If (0xffffffff != Local4 && 0xffffffff != Local5)
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{
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Local0 [0xf] = Local4 + Local5
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}
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// _BIX 10 Model Number - concatenate BAT0 and BAT1 values
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Local0 [0x10] = Concatenate (Concatenate (DerefOf (Local0 [0x10]), " / "), DerefOf (Local1 [0x10]))
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// _BIX 11 Serial Number - concatenate BAT0 and BAT1 values
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Local0 [0x11] = Concatenate (Concatenate (DerefOf (Local0 [0x11]), " / "), DerefOf (Local1 [0x11]))
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// _BIX 12 Battery Type - concatenate BAT0 and BAT1 values
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Local0 [0x12] = Concatenate (Concatenate (DerefOf (Local0 [0x12]), " / "), DerefOf (Local1 [0x12]))
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// _BIX 13 OEM Information - concatenate BAT0 and BAT1 values
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Local0 [0x13] = Concatenate (Concatenate (DerefOf (Local0 [0x13]), " / "), DerefOf (Local1 [0x13]))
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// _BIX 14 Battery Swapping Capability - leave BAT0 value for now
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}
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Return (Local0)
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} // _BIX
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Method (_BST)
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{
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// Local0 BAT0._BST
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// Local1 BAT1._BST
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// Local2 BAT0._STA
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// Local3 BAT1._STA
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// Local4/Local5 scratch
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// gather battery data from BAT0
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Local0 = ^^BAT0._BST ()
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Local2 = ^^BAT0._STA ()
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If (0x1f == Local2)
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{
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// check for invalid remaining capacity
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Local4 = DerefOf (Local0 [2])
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If (!Local4 || Ones == Local4) { Local2 = 0; }
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}
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// gather battery data from BAT1
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Local1 = ^^BAT1._BST ()
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Local3 = ^^BAT1._STA ()
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If (0x1f == Local3)
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{
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// check for invalid remaining capacity
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Local4 = DerefOf (Local1 [2])
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If (!Local4 || Ones == Local4) { Local3 = 0; }
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}
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// find primary and secondary battery
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If (0x1f != Local2 && 0x1f == Local3)
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{
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// make primary use BAT1 data
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Local0 = Local1 // BAT1._BST result
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Local2 = Local3 // BAT1._STA result
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Local3 = 0 // no secondary battery
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}
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// combine batteries into Local0 result if possible
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If (0x1f == Local2 && 0x1f == Local3)
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{
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// _BST 0 - Battery State - if one battery is charging, then charging, else discharging
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Local4 = DerefOf (Local0 [0])
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Local5 = DerefOf (Local1 [0])
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If (Local4 != Local5)
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{
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If (Local4 == 2 || Local5 == 2)
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{
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// 2 = charging
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Local0 [0] = 2
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}
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ElseIf (Local4 == 1 || Local5 == 1)
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{
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// 1 = discharging
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Local0 [0] = 1
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}
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ElseIf (Local4 == 3 || Local5 == 3)
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{
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Local0 [0] = 3
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}
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ElseIf (Local4 == 4 || Local5 == 4)
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{
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// critical
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Local0 [0] = 4
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}
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ElseIf (Local4 == 5 || Local5 == 5)
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{
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// critical and discharging
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Local0 [0] = 5
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}
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// if none of the above, just leave as BAT0 is
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}
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// _BST 1 - Battery Present Rate - add BAT0 and BAT1 values
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Local0 [1] = DerefOf (Local0 [1]) + DerefOf (Local1 [1])
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// _BST 2 - Battery Remaining Capacity - add BAT0 and BAT1 values
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Local0 [2] = DerefOf (Local0 [2]) + DerefOf (Local1 [2])
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// _BST 3 - Battery Present Voltage - average between BAT0 and BAT1 values
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Local0 [3] = (DerefOf (Local0 [3]) + DerefOf (Local1 [3])) / 2
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}
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Return (Local0)
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} // _BST
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} // BATC
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} // Scope (...)
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}
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//EOF
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