Files
jak-project/test/decompiler/reference/jak2/engine/ps2/pad_REF.gc
T
ManDude cd68cb671e deftype and defmethod syntax major changes (#3094)
Major change to how `deftype` shows up in our code:
- the decompiler will no longer emit the `offset-assert`,
`method-count-assert`, `size-assert` and `flag-assert` parameters. There
are extremely few cases where having this in the decompiled code is
helpful, as the types there come from `all-types` which already has
those parameters. This also doesn't break type consistency because:
  - the asserts aren't compared.
- the first step of the test uses `all-types`, which has the asserts,
which will throw an error if they're bad.
- the decompiler won't emit the `heap-base` parameter unless necessary
now.
- the decompiler will try its hardest to turn a fixed-offset field into
an `overlay-at` field. It falls back to the old offset if all else
fails.
- `overlay-at` now supports field "dereferencing" to specify the offset
that's within a field that's a structure, e.g.:
```lisp
(deftype foobar (structure)
  ((vec    vector  :inline)
   (flags  int32   :overlay-at (-> vec w))
   )
  )
```
in this structure, the offset of `flags` will be 12 because that is the
final offset of `vec`'s `w` field within this structure.
- **removed ID from all method declarations.** IDs are only ever
automatically assigned now. Fixes #3068.
- added an `:overlay` parameter to method declarations, in order to
declare a new method that goes on top of a previously-defined method.
Syntax is `:overlay <method-name>`. Please do not ever use this.
- added `state-methods` list parameter. This lets you quickly specify a
list of states to be put in the method table. Same syntax as the
`states` list parameter. The decompiler will try to put as many states
in this as it can without messing with the method ID order.

Also changes `defmethod` to make the first type definition (before the
arguments) optional. The type can now be inferred from the first
argument. Fixes #3093.

---------

Co-authored-by: Hat Kid <6624576+Hat-Kid@users.noreply.github.com>
2023-10-30 03:20:02 +00:00

645 lines
24 KiB
Common Lisp
Vendored
Generated

;;-*-Lisp-*-
(in-package goal)
;; definition of type scf-time
(deftype scf-time (structure)
((stat uint8)
(second uint8)
(minute uint8)
(hour uint8)
(week uint8)
(day uint8)
(month uint8)
(year uint8)
)
)
;; definition for method 3 of type scf-time
(defmethod inspect ((this scf-time))
(when (not this)
(set! this this)
(goto cfg-4)
)
(format #t "[~8x] ~A~%" this 'scf-time)
(format #t "~1Tstat: ~D~%" (-> this stat))
(format #t "~1Tsecond: #x~X~%" (-> this second))
(format #t "~1Tminute: #x~X~%" (-> this minute))
(format #t "~1Thour: #x~X~%" (-> this hour))
(format #t "~1Tweek: #x~X~%" (-> this week))
(format #t "~1Tday: #x~X~%" (-> this day))
(format #t "~1Tmonth: #x~X~%" (-> this month))
(format #t "~1Tyear: #x~X~%" (-> this year))
(label cfg-4)
this
)
;; definition for symbol *cheat-mode*, type symbol
(define *cheat-mode* #t)
;; definition of type hw-cpad
(deftype hw-cpad (basic)
((valid uint8)
(status uint8)
(button0 uint16)
(rightx uint8)
(righty uint8)
(leftx uint8)
(lefty uint8)
(abutton uint8 12)
(dummy uint8 12)
)
)
;; definition for method 3 of type hw-cpad
(defmethod inspect ((this hw-cpad))
(when (not this)
(set! this this)
(goto cfg-4)
)
(format #t "[~8x] ~A~%" this (-> this type))
(format #t "~1Tvalid: #x~X~%" (-> this valid))
(format #t "~1Tstatus: #x~X~%" (-> this status))
(format #t "~1Tbutton0: #x~X~%" (-> this button0))
(format #t "~1Trightx: ~D~%" (-> this rightx))
(format #t "~1Trighty: ~D~%" (-> this righty))
(format #t "~1Tleftx: ~D~%" (-> this leftx))
(format #t "~1Tlefty: ~D~%" (-> this lefty))
(format #t "~1Tabutton[12] @ #x~X~%" (-> this abutton))
(format #t "~1Tdummy[12] @ #x~X~%" (-> this dummy))
(label cfg-4)
this
)
;; definition of type cpad-info
(deftype cpad-info (hw-cpad)
((number int32)
(cpad-file int32)
(button0-abs pad-buttons 3)
(button0-shadow-abs pad-buttons 1)
(button0-rel pad-buttons 3)
(stick0-dir float)
(stick0-speed float)
(new-pad int32)
(state int32)
(align uint8 6)
(direct uint8 6)
(buzz-val uint8 2)
(buzz-pause-val uint8 1)
(buzz-pause-time uint8)
(buzz-time time-frame 2)
(buzz basic)
(buzz-act int32)
(change-time time-frame)
(old-rightx uint8 2)
(old-righty uint8 2)
(old-leftx uint8 2)
(old-lefty uint8 2)
)
(:methods
(new (symbol type int) _type_)
(adjust-to-screen-flip (_type_) int)
)
)
;; definition for method 3 of type cpad-info
(defmethod inspect ((this cpad-info))
(when (not this)
(set! this this)
(goto cfg-4)
)
(format #t "[~8x] ~A~%" this (-> this type))
(format #t "~1Tvalid: #x~X~%" (-> this valid))
(format #t "~1Tstatus: #x~X~%" (-> this status))
(format #t "~1Tbutton0: #x~X~%" (-> this button0))
(format #t "~1Trightx: ~D~%" (-> this rightx))
(format #t "~1Trighty: ~D~%" (-> this righty))
(format #t "~1Tleftx: ~D~%" (-> this leftx))
(format #t "~1Tlefty: ~D~%" (-> this lefty))
(format #t "~1Tabutton[12] @ #x~X~%" (-> this abutton))
(format #t "~1Tdummy[12] @ #x~X~%" (-> this dummy))
(format #t "~1Tnumber: ~D~%" (-> this number))
(format #t "~1Tcpad-file: ~D~%" (-> this cpad-file))
(format #t "~1Tbutton0-abs[3] @ #x~X~%" (-> this button0-abs))
(format #t "~1Tbutton0-shadow-abs[1] @ #x~X~%" (-> this button0-shadow-abs))
(format #t "~1Tbutton0-rel[3] @ #x~X~%" (-> this button0-rel))
(format #t "~1Tstick0-dir: ~f~%" (-> this stick0-dir))
(format #t "~1Tstick0-speed: ~f~%" (-> this stick0-speed))
(format #t "~1Tnew-pad: ~D~%" (-> this new-pad))
(format #t "~1Tstate: ~D~%" (-> this state))
(format #t "~1Talign[6] @ #x~X~%" (-> this align))
(format #t "~1Tdirect[6] @ #x~X~%" (-> this direct))
(format #t "~1Tbuzz-val[2] @ #x~X~%" (-> this buzz-val))
(format #t "~1Tbuzz-pause-val[1] @ #x~X~%" (-> this buzz-pause-val))
(format #t "~1Tbuzz-pause-time: ~D~%" (-> this buzz-pause-time))
(format #t "~1Tbuzz-time[2] @ #x~X~%" (-> this buzz-time))
(format #t "~1Tbuzz: ~A~%" (-> this buzz))
(format #t "~1Tbuzz-act: ~D~%" (-> this buzz-act))
(format #t "~1Tchange-time: ~D~%" (-> this change-time))
(format #t "~1Told-rightx[2] @ #x~X~%" (-> this old-rightx))
(format #t "~1Told-righty[2] @ #x~X~%" (-> this old-righty))
(format #t "~1Told-leftx[2] @ #x~X~%" (-> this old-leftx))
(format #t "~1Told-lefty[2] @ #x~X~%" (-> this old-lefty))
(label cfg-4)
this
)
;; definition for function cpad-invalid!
(defun cpad-invalid! ((arg0 cpad-info))
(logior! (-> arg0 valid) 128)
(set! (-> arg0 button0) (the-as uint 0))
(set! (-> arg0 button0-abs 0) (pad-buttons))
(set! (-> arg0 button0-shadow-abs 0) (pad-buttons))
(set! (-> arg0 button0-rel 0) (pad-buttons))
(dotimes (v1-2 12)
(nop!)
(set! (-> arg0 abutton v1-2) (the-as uint 0))
)
(set! (-> arg0 stick0-dir) 0.0)
(set! (-> arg0 stick0-speed) 0.0)
(set! (-> arg0 rightx) (the-as uint 128))
(set! (-> arg0 righty) (the-as uint 128))
(set! (-> arg0 leftx) (the-as uint 128))
(set! (-> arg0 lefty) (the-as uint 128))
(set! (-> arg0 align 0) (the-as uint 0))
(set! (-> arg0 align 1) (the-as uint 1))
(set! (-> arg0 align 2) (the-as uint 255))
(set! (-> arg0 align 3) (the-as uint 255))
(set! (-> arg0 align 4) (the-as uint 255))
(set! (-> arg0 align 5) (the-as uint 255))
(dotimes (v1-14 6)
(nop!)
(set! (-> arg0 direct v1-14) (the-as uint 0))
)
(dotimes (v1-17 2)
(nop!)
(set! (-> arg0 buzz-val v1-17) (the-as uint 0))
(set! (-> arg0 buzz-time v1-17) 0)
)
(set! (-> arg0 buzz-pause-val 0) (the-as uint 0))
(set! (-> arg0 buzz-time 0) 0)
arg0
)
;; definition for method 0 of type cpad-info
(defmethod new cpad-info ((allocation symbol) (type-to-make type) (arg0 int))
(let ((s5-0 (object-new allocation type-to-make (the-as int (-> type-to-make size)))))
(set! (-> s5-0 number) arg0)
(set! (-> s5-0 buzz) #f)
(cpad-open s5-0 arg0)
(cpad-invalid! s5-0)
)
)
;; definition of type cpad-list
(deftype cpad-list (basic)
((num-cpads int32)
(cpads cpad-info 2)
)
(:methods
(new (symbol type) _type_)
)
)
;; definition for method 3 of type cpad-list
(defmethod inspect ((this cpad-list))
(when (not this)
(set! this this)
(goto cfg-4)
)
(format #t "[~8x] ~A~%" this (-> this type))
(format #t "~1Tnum-cpads: ~D~%" (-> this num-cpads))
(format #t "~1Tcpads[2] @ #x~X~%" (-> this cpads))
(label cfg-4)
this
)
;; definition for method 0 of type cpad-list
(defmethod new cpad-list ((allocation symbol) (type-to-make type))
(let ((gp-0 (object-new allocation type-to-make (the-as int (-> type-to-make size)))))
(set! (-> gp-0 num-cpads) 2)
(set! (-> gp-0 cpads 0) (new 'global 'cpad-info 0))
(set! (-> gp-0 cpads 1) (new 'global 'cpad-info 1))
gp-0
)
)
;; definition for function analog-input
(defun analog-input ((arg0 int) (arg1 float) (arg2 float) (arg3 float) (arg4 float))
(let* ((f1-1 (- (the float arg0) arg1))
(f0-3 (- (fabs f1-1) arg2))
(v1-0 (- arg3 arg2))
)
(if (< f1-1 0.0)
(set! arg4 (- arg4))
)
(cond
((>= 0.0 f0-3)
0.0
)
((>= f0-3 v1-0)
arg4
)
(else
(/ (* f0-3 arg4) v1-0)
)
)
)
)
;; definition for function cpad-set-buzz!
;; WARN: Return type mismatch int vs none.
(defun cpad-set-buzz! ((arg0 cpad-info) (arg1 int) (arg2 int) (arg3 time-frame))
(cond
((zero? arg2)
(set! (-> arg0 buzz-val arg1) (the-as uint 0))
0
)
((= arg2 (-> arg0 buzz-val arg1))
(set! (-> arg0 buzz-time arg1) (the-as time-frame (max (-> arg0 buzz-time arg1) (+ (get-current-time) arg3))))
)
((< (-> arg0 buzz-val arg1) (the-as uint arg2))
(set! (-> arg0 buzz-val arg1) (the-as uint arg2))
(set! (-> arg0 buzz-time arg1) (+ (get-current-time) arg3))
)
)
0
(none)
)
;; definition for symbol *cpad-list*, type cpad-list
(define *cpad-list* (new 'global 'cpad-list))
;; definition for symbol *cpad-debug*, type symbol
(define *cpad-debug* #f)
;; definition for function service-cpads
(defun service-cpads ()
(let ((pads *cpad-list*))
(dotimes (i (-> pads num-cpads))
(let ((pad (-> *cpad-list* cpads i)))
(set! (-> pad old-leftx 1) (-> pad old-leftx 0))
(set! (-> pad old-leftx 0) (-> pad leftx))
(set! (-> pad old-lefty 1) (-> pad old-lefty 0))
(set! (-> pad old-lefty 0) (-> pad lefty))
(set! (-> pad old-rightx 1) (-> pad old-rightx 0))
(set! (-> pad old-rightx 0) (-> pad rightx))
(set! (-> pad old-righty 1) (-> pad old-righty 0))
(set! (-> pad old-righty 0) (-> pad righty))
(cpad-get-data pad)
(adjust-to-screen-flip pad)
(cond
((not (logtest? (-> pad valid) 128))
(dotimes (buzz-i 2)
(cond
((and (-> pad buzz) (< (get-current-time) (-> pad buzz-time buzz-i)) (= *master-mode* 'game))
(let ((v1-20 buzz-i))
(cond
((zero? v1-20)
(set! (-> pad direct buzz-i)
(logand (ash (-> pad buzz-val buzz-i) (- (the-as int (logand (get-integral-current-time) 7)))) 1)
)
)
((= v1-20 1)
(set! (-> pad direct buzz-i) (-> pad buzz-val buzz-i))
)
)
)
)
((and (zero? buzz-i) (> (-> pad buzz-pause-time) 0))
(set! (-> pad direct buzz-i)
(logand (ash (-> pad buzz-pause-val buzz-i) (- (the-as int (logand (get-integral-current-time) 7)))) 1)
)
(+! (-> pad buzz-pause-time) -1)
)
(else
(set! (-> pad buzz-val buzz-i) (the-as uint 0))
(set! (-> pad direct buzz-i) (the-as uint 0))
(when (zero? buzz-i)
(set! (-> pad buzz-pause-time) (the-as uint 0))
0
)
)
)
)
(when (< (the-as uint 192) (-> pad direct 1))
(set! (-> pad direct 0) (the-as uint 0))
0
)
(set! (-> pad button0-abs 2) (-> pad button0-abs 1))
(set! (-> pad button0-abs 1) (-> pad button0-shadow-abs 0))
(set! (-> pad button0-rel 2) (-> pad button0-rel 1))
(set! (-> pad button0-rel 1) (-> pad button0-rel 0))
(when (= (-> pad status) 115)
(set! (-> pad abutton 0) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons right))
255
0
)
)
)
(set! (-> pad abutton 1) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons left))
255
0
)
)
)
(set! (-> pad abutton 2) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons up))
255
0
)
)
)
(set! (-> pad abutton 3) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons down))
255
0
)
)
)
(set! (-> pad abutton 6) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons x))
255
0
)
)
)
(set! (-> pad abutton 5) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons circle))
255
0
)
)
)
(set! (-> pad abutton 4) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons triangle))
255
0
)
)
)
(set! (-> pad abutton 7) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons square))
255
0
)
)
)
(set! (-> pad abutton 8) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons l1))
255
0
)
)
)
(set! (-> pad abutton 10) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons l2))
255
0
)
)
)
(set! (-> pad abutton 9) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons r1))
255
0
)
)
)
(set! (-> pad abutton 11) (the-as uint (if (logtest? (-> pad button0-abs 0) (pad-buttons r2))
255
0
)
)
)
)
(let ((buttons-pushed (the-as pad-buttons (-> pad button0))))
(cond
((< (-> pad lefty) (the-as uint 30))
(set! buttons-pushed (logior (pad-buttons l-analog-up) buttons-pushed))
)
((< (the-as uint 225) (-> pad lefty))
(set! buttons-pushed (logior (pad-buttons l-analog-down) buttons-pushed))
)
)
(cond
((< (-> pad leftx) (the-as uint 30))
(set! buttons-pushed (logior (pad-buttons l-analog-left) buttons-pushed))
)
((< (the-as uint 225) (-> pad leftx))
(set! buttons-pushed (logior (pad-buttons l-analog-right) buttons-pushed))
)
)
(cond
((< (-> pad righty) (the-as uint 30))
(set! buttons-pushed (logior (pad-buttons r-analog-up) buttons-pushed))
)
((< (the-as uint 225) (-> pad righty))
(set! buttons-pushed (logior (pad-buttons r-analog-down) buttons-pushed))
)
)
(cond
((< (-> pad rightx) (the-as uint 30))
(set! buttons-pushed (logior (pad-buttons r-analog-left) buttons-pushed))
)
((< (the-as uint 225) (-> pad rightx))
(set! buttons-pushed (logior (pad-buttons r-analog-right) buttons-pushed))
)
)
(let ((v1-123 (get-current-language)))
(cond
((or (= v1-123 (language-enum japanese)) (= v1-123 (language-enum korean)))
(case (scf-get-territory)
((2 3)
(if (logtest? buttons-pushed (pad-buttons circle))
(set! buttons-pushed (logior (pad-buttons confirm) buttons-pushed))
)
)
(else
(if (logtest? buttons-pushed (pad-buttons circle x))
(set! buttons-pushed (logior (pad-buttons confirm) buttons-pushed))
)
)
)
)
((let ((v1-135 (scf-get-territory)))
(or (= v1-135 2) (= v1-135 3))
)
(if (logtest? buttons-pushed (pad-buttons circle x))
(set! buttons-pushed (logior (pad-buttons confirm) buttons-pushed))
)
)
(else
(if (logtest? buttons-pushed (pad-buttons x))
(set! buttons-pushed (logior (pad-buttons confirm) buttons-pushed))
)
)
)
)
(set! (-> pad button0-shadow-abs 0) buttons-pushed)
(set! (-> pad button0-abs 0) buttons-pushed)
)
(set! (-> pad button0-rel 0) (logclear (-> pad button0-abs 0) (-> pad button0-abs 1)))
(when *cpad-debug*
(set! (-> pad leftx) (the-as uint 255))
(set! (-> pad rightx) (the-as uint 255))
)
(set! (-> pad stick0-speed) 1.0)
(cond
((= (shr (-> pad status) 4) 7)
(let ((f30-0 (* 0.0078125 (the float (+ (-> pad leftx) -128))))
(f28-0 (* 0.0078125 (the float (- 127 (the-as int (-> pad lefty))))))
)
(set! (-> pad stick0-dir) (atan (- f30-0) f28-0))
(set! (-> pad stick0-speed) (fmin 1.0 (sqrtf (+ (* f30-0 f30-0) (* f28-0 f28-0)))))
)
(if (< (-> pad stick0-speed) 0.3)
(set! (-> pad stick0-speed) 0.0)
)
)
(else
(set! (-> pad leftx) (the-as uint 128))
(set! (-> pad lefty) (the-as uint 128))
(set! (-> pad rightx) (the-as uint 128))
(set! (-> pad righty) (the-as uint 128))
(set! (-> pad stick0-dir) 0.0)
(set! (-> pad stick0-speed) 0.0)
)
)
(if (or (!= (-> pad button0-abs 0) (-> pad button0-abs 1))
(or (< 0.3 (-> pad stick0-speed)) (zero? (-> pad change-time)))
)
(set! (-> pad change-time) (get-current-time))
)
)
(else
(cpad-invalid! pad)
)
)
)
)
)
*cpad-list*
)
;; definition for function buzz-stop!
;; WARN: Return type mismatch int vs none.
(defun buzz-stop! ((arg0 int))
(cpad-set-buzz! (-> *cpad-list* cpads arg0) 0 0 0)
(cpad-set-buzz! (-> *cpad-list* cpads arg0) 1 0 0)
0
(none)
)
;; definition of type mouse-info
(deftype mouse-info (basic)
((active symbol)
(cursor basic)
(valid symbol)
(id uint8)
(status uint16)
(button0 uint16)
(deltax int8)
(deltay int8)
(wheel uint8)
(change-time time-frame)
(button0-abs mouse-buttons 3)
(button0-shadow-abs mouse-buttons 1)
(button0-rel mouse-buttons 3)
(pos vector 2 :inline)
(posx float :overlay-at (-> pos 0 data 0))
(posy float :overlay-at (-> pos 0 data 1))
(oldposx float :offset 96)
(oldposy float :offset 100)
(speedx float :overlay-at (-> pos 0 data 3))
(speedy float :offset 108)
)
(:methods
(new (symbol type) _type_)
)
)
;; definition for method 3 of type mouse-info
(defmethod inspect ((this mouse-info))
(when (not this)
(set! this this)
(goto cfg-7)
)
(format #t "[~8x] ~A~%" this (-> this type))
(format #t "~1Tactive: ~A~%" (-> this active))
(format #t "~1Tcursor: ~A~%" (-> this cursor))
(format #t "~1Tvalid: ~A~%" (-> this valid))
(format #t "~1Tid: ~D~%" (-> this id))
(format #t "~1Tstatus: #x~X~%" (-> this status))
(format #t "~1Tbutton0: #x~X~%" (-> this button0))
(format #t "~1Tdeltax: ~D~%" (-> this deltax))
(format #t "~1Tdeltay: ~D~%" (-> this deltay))
(format #t "~1Twheel: ~D~%" (-> this wheel))
(format #t "~1Tchange-time: ~D~%" (-> this change-time))
(format #t "~1Tbutton0-abs[3] @ #x~X~%" (-> this button0-abs))
(format #t "~1Tbutton0-shadow-abs[1] @ #x~X~%" (-> this button0-shadow-abs))
(format #t "~1Tbutton0-rel[3] @ #x~X~%" (-> this button0-rel))
(format #t "~1Tpos[2] @ #x~X~%" (-> this pos))
(dotimes (s5-0 2)
(format #t "~T [~D]~1Tpos: ~`vector`P~%" s5-0 (-> this pos s5-0))
)
(format #t "~1Tposx: ~f~%" (-> this posx))
(format #t "~1Tposy: ~f~%" (-> this posy))
(format #t "~1Toldposx: ~f~%" (-> this pos 1 x))
(format #t "~1Toldposy: ~f~%" (-> this oldposy))
(format #t "~1Tspeedx: ~f~%" (-> this speedx))
(format #t "~1Tspeedy: ~f~%" (-> this speedy))
(label cfg-7)
this
)
;; definition for method 0 of type mouse-info
(defmethod new mouse-info ((allocation symbol) (type-to-make type))
(let ((v0-0 (object-new allocation type-to-make (the-as int (-> type-to-make size)))))
(set! (-> v0-0 active) #f)
(set! (-> v0-0 valid) #f)
(set! (-> v0-0 cursor) #f)
v0-0
)
)
;; definition for symbol *mouse*, type mouse-info
(define *mouse* (new 'global 'mouse-info))
;; definition for function service-mouse
;; INFO: Used lq/sq
;; WARN: Return type mismatch mouse-info vs none.
(defun service-mouse ()
(let ((gp-0 *mouse*))
(mouse-get-data gp-0)
(set! (-> gp-0 pos 1 quad) (-> gp-0 pos 0 quad))
(set! (-> gp-0 button0-abs 2) (-> gp-0 button0-abs 1))
(set! (-> gp-0 button0-abs 1) (-> gp-0 button0-shadow-abs 0))
(set! (-> gp-0 button0-rel 2) (-> gp-0 button0-rel 1))
(set! (-> gp-0 button0-rel 1) (-> gp-0 button0-rel 0))
(set! (-> gp-0 button0-rel 0) (mouse-buttons))
(set! (-> gp-0 speedx) 0.0)
(set! (-> gp-0 speedy) 0.0)
(cond
((or (not (-> gp-0 valid)) (not (-> gp-0 active)))
(set! (-> gp-0 valid) #f)
(set! (-> gp-0 status) (the-as uint 0))
(set! (-> gp-0 pos 0 quad) (the-as uint128 0))
(set! (-> gp-0 pos 1 quad) (the-as uint128 0))
)
((logtest? (-> gp-0 status) 1)
(set! (-> gp-0 change-time) (get-current-time))
(set! (-> gp-0 speedx) (* (sign (the float (-> gp-0 deltax))) (pow (fabs (the float (-> gp-0 deltax))) 1.3)))
(set! (-> gp-0 speedy) (* (sign (the float (-> gp-0 deltay))) (pow (fabs (the float (-> gp-0 deltay))) 1.3)))
(set! (-> gp-0 posx) (fmax -256.0 (fmin 256.0 (+ (-> gp-0 posx) (-> gp-0 speedx)))))
(set! (-> gp-0 posy) (fmax -208.0 (fmin 208.0 (+ (-> gp-0 posy) (-> gp-0 speedy)))))
(let ((v1-22 (-> gp-0 button0)))
(set! (-> gp-0 button0-shadow-abs 0) (the-as mouse-buttons v1-22))
(set! (-> gp-0 button0-abs 0) (the-as mouse-buttons v1-22))
)
(set! (-> gp-0 button0-rel 0) (logclear (-> gp-0 button0-abs 0) (-> gp-0 button0-abs 1)))
)
)
(if (and (-> gp-0 active) (-> gp-0 valid) (-> gp-0 cursor))
(add-debug-cursor
#t
(bucket-id debug-no-zbuf2)
(+ (the int (-> gp-0 posx)) 256)
(+ (the int (-> gp-0 posy)) 208)
(-> gp-0 button0-abs 0)
)
)
)
(none)
)