83Plus:Software:usb8x/Sample Code

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Example code using the usb8x assembly and BASIC interfaces

BASIC

Mouse Demo

This example uses the [[../BASIC_Interface/MouseInit|MouseInit]], [[../BASIC_Interface/MouseDo|MouseDo]], and [[../BASIC_Interface/KillUSB|KillUSB]] entry points to control a point on the screen with a USB mouse.

OpenLib(USBDRV8X
{2                  ;MouseInit
ExecLib
If Ans(1            ;If MouseInit returns error,
Return              ; then quit
-1452->Xmin
1452->Xmax
-960->Ymin
960->Ymax
0->X
0->Y
Repeat getKey
{3                  ;MouseDo
ExecLib
Ans->L1
If L1(1             ;If MouseDo returns error,
Goto 1              ; restart loop
If 127<L1(3         ;If x direction is left,
L1(3)-256->L1(3     ; change to negative #
If 127<L1(4         ;If y direction is up,
L1(4)-256->L1(4     ; change to negative #
Pt-Off(X,Y
X+L1(3->X
Y-L1(4->Y
Pt-On(X,Y
Lbl 1
End
{1                  ;KillUSB
ExecLib

Assembly (TASM)

Code for TASM-compatible assemblers. Though usb8x is designed for use with ZDS, a TASM-syntax include file is provided as well.. TASM itself is apparently incompatible with usb8x macros, but they have been tested to work correctly with Brass. Use usb8xtsm.inc instead of usb8x.inc.

Mouse Demo

This code uses [[../Asm_Interface/DriverInit|DriverInit]], [[../Asm_Interface/Mouse/MouseInit|MouseInit]], [[../Asm_Interface/Mouse/MouseGetKey|MouseGetKey]], [[../Asm_Interface/HostKill|HostKill]], and [[../Asm_Interface/DriverKill|DriverKill]]. It is a replica of the mouse demo code from usb8x, though it doesn't include routines unrelated to USB. In this case the address of the callback routine passed to U_CALL_INIT doesn't matter, because MouseInit redefines the callback to handle the mouse data.


Brass
ZDS
	
	
	
        
	
	
	
	
	
	
	
	
	
	
	
	
	
	
	
	
MainLoop:
	
	
	
	
	
	 
gkloop:	
	
	
	
	
	
	
	

MouseDone:
	
	
	
U_CALL_INIT(Stub)
jp	c,error
ld	hl,USBDriverBuf
U_CALL(DriverInit)
jp	c,error
ld	hl,DBuf
ld	bc,256
bcall(_MemClear)
ld	de,DBuf
ld	a,0
U_CALL(MouseInit)
jp	c,error
bcall(_GrBufClr)
xor	a
ld	(MouseBtn),a
ld	a,50*2
ld	(MouseX),a
ld	a,32*2
ld	(MouseY),a
call	DispCursor

bcall(_GrBufCpy)
bcall(_GetCSC)
cp	skClear
jr	z,MouseDone
call	DispCursor
ld	b,4

push	bc
U_CALL(MouseGetKey)
call	MouseUpdateCursor
pop	bc
djnz	gkloop
call	DispCursor
jr	MainLoop


U_CALL(HostKill)
U_CALL(DriverKill)
ret
U_CALL_INIT Stub
jp	c,error
ld	hl,USBDriverBuf
U_CALL  DriverInit
jp	c,error
ld	hl,DBuf
ld	bc,256
B_CALL  MemClear
ld	de,DBuf
ld	a,0
U_CALL  MouseInit
jp	c,error
B_CALL  GrBufClr
xor	a
ld	(MouseBtn),a
ld	a,50*2
ld	(MouseX),a
ld	a,32*2
ld	(MouseY),a
call	DispCursor

B_CALL  GrBufCpy
B_CALL  GetCSC
cp	skClear
jr	z,MouseDone
call	DispCursor
ld	b,4

push	bc
U_CALL  MouseGetKey
call	MouseUpdateCursor
pop	bc
djnz	gkloop
call	DispCursor
jr	MainLoop


U_CALL  HostKill
U_CALL  DriverKill
ret
;Initialize U_CALL system


;Initialize Driver



;Clear descriptor buffer

;allow diagonal keys
;Initialize Mouse








;Display mouse cursor





;Erase cursor
;Buffer copy is slow, so 
; update cursor a few times 

;Get mouse info from usb8x
;Update cursor position


;Re-display cursor



;Disconnect power from mouse
;Kill driver

Assembly (ZDS)

Code for ZDS compatible assemblers. usb8x is designed to be used with a ZDS-compatible assembler.

FindPipe

This code segment, taken from the mass storage driver, illustrates the use of [[../Asm_Interface/FindPipe|FindPipe]] to get the address of an endpoint matching certain characteristics.

       ld     b,pipeBulk
       ld     c,pipeOut
       ld     hl,DescBuf
       U_CALL FindPipe               ;Find an outgoing bulk endpoint
       jr     c,error
       ld     a,b
       ld    (OutPipe),a             ;Store the endpoint address for later use

       ld     b,pipeBulk
       ld     c,pipeIn
       ld     hl,DescBuf
       U_CALL FindPipe               ;Find an incoming bulk endpoint
       jr     c,error
       ld     a,b
       ld     (InPipe),a

Keyboard Detect

This code illustrates the use of [[../Asm_Interface/AutoSetup|AutoSetup]] and [[../Asm_Interface/GetClass|GetClass]] to determine if the attached device is a keyboard.

       U_CALL_INIT KBDCallBack     ;Inialize U_CALL and Callback RAM calls
       jr     c,NoUSBDriver        ;If it returns C, that means USB8X isn't loaded on calc
       ld     hl,USBDriverBuf
       U_CALL DriverInit           ;Initialize USB driver
       ld     hl,DescBuf
       U_CALL AutoSetup            ;Initialize and configure USB device
       jr     c,USBError

       ld     hl,DescBuf
       U_CALL GetClass             ;Get the class information for the attached device
       jr     c,USBError
       cp     3                    ;Keyboard class = 3
       jr     nz,NotKBD
       dec    b                    ;subclass = 1
       jr     nz,NotKBD
       dec    c                    ;protocol = 1
       jr     nz,NotKBD
;Keyboard is attached.  Code would continue here.  
;Typically at this point you would call ReqData to start reading data from the keyboard