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Types


dgo-entry

dgo-entry: structuresource
Fields
offset: uint32
length: uint32

dgo-file

dgo-file: basicsource
Fields
type: type
num-go-files: uint32
total-length: uint32
rsvd: uint32
data: uint8

gcommon

source

Types


bfloat

bfloat: basicsource
Fields
type: type
data: float

inline-array-class

inline-array-class: basicsource
Fields
type: type
length: int32
allocated-length: int32
_data: uint8

vec4s

vec4s: uint128source

Functions


*

*(x: int, y: int) => intsource

Compute the product of two integers

+(x: int, y: int) => intsource

Compute the sum of two integers

-(x: int, y: int) => intsource

Compute the difference of two integers

/(x: int, y: int) => intsource

Compute the quotient of two integers

1/

1/(x: float) => floatsource

Reciprocal floating point

abs

abs(a: int) => intsource

Take the absolute value of an integer

append!

append!(front: object, back: object) => objectsource

Append back to front, return the combined list.

ash

ash(value: int, shift-amount: int) => intsource

Arithmetic shift value by shift-amount.
A positive shift-amount will shift to the left and a negative will shift to the right.

assoc

assoc(item: object, alist: object) => objectsource

Is there an entry with key item in the association list alist?
Returns the key-value pair.

assoce

assoce(item: object, alist: object) => objectsource

Is there an entry with key item in the association list alist?
Returns the key-value pair.
Treats a key of 'else like an else case

basic-type?

basic-type?(obj: basic, parent-type: type) => symbolsource

Is obj of type parent-type?
Note: this will return #f if you put a parent-type of object.
Only use this with types that are fully defined.

breakpoint-range-set!

breakpoint-range-set!(a0: uint, a1: uint, a2: uint) => intsource

Sets some debug register (COP0 Debug, dab, dabm) to break on memory access.
This is not supported in OpenGOAL.

delete!

delete!(item: object, lst: object) => pairsource

Remove the first occurance of item from lst (where item is actual a pair in the list)

delete-car!

delete-car!(item: object, lst: object) => objectsource

Remove the first first occurance of an element from the list where (car elt) is item.

fact

fact(x: int) => intsource

false-func

false-func() => symbolsource

Return false

find-parent-method

find-parent-method(child-type: type, method-id: int) => functionsource

Search the type tree for a parent type with a different method
from the child, for the given method ID.
DANGER: only call this if you expect to find something.
There are no method-table range checks, so it may run off the end
of a method table and return junk

identity

identity(x: object) => objectsource

Function which returns its input. The first function of the game!
This will not preserve the upper 64-bits of a 128-bit value.

insert-cons!

insert-cons!(kv: object, alist: object) => pairsource

Update an association list to have the given (key . value) pair kv.
If it already exists in the list, remove it.
DANGER: this function allocates memory on the global heap.

inspect

inspect(arg0: object) => objectsource

Inspect any boxed object.

last

last(lst: object) => objectsource

Get the last element in a proper list

logand

logand(a: int, b: int) => intsource

Compute the bitwise and

logior

logior(a: int, b: int) => intsource

Compute the bitwise inclusive-or

lognor

lognor(a: int, b: int) => intsource

Compute not or.

lognot

lognot(a: int) => intsource

Compute the bitwise not

logxor

logxor(a: int, b: int) => intsource

Compute the logical exclusive-or

max

max(a: int, b: int) => intsource

Compute maximum.

mem-copy!

mem-copy!(dst: pointer, src: pointer, size: int) => pointersource

Memory copy. Not a very efficient optimization, but has no restrictions.
Increasing address copy.

mem-or!

mem-or!(dst: pointer, src: pointer, size: int) => pointersource

Set the dst to (logior dst src) byte by byte.
Not very efficient.

mem-print

mem-print(data: pointer, word-count: int) => symbolsource

mem-set32!

mem-set32!(dst: pointer, size: int, value: int) => pointersource

Normal memset, but by 32-bit word.
NOTE: argument order is swapped from C

member

member(obj: object, lst: object) => objectsource

Is obj in the list lst? Returns pair with obj as its car, or #f if not found.

min

min(a: int, b: int) => intsource

Compute minimum.

mod

mod(a: int, b: int) => intsource

Compute mod. It does what you expect for positive numbers. For negative numbers, nobody knows what to expect.
This is a 32-bit operation. It uses an idiv on x86 and gets the remainder.

nassoc

nassoc(item-name: string, alist: object) => objectsource

Is there an entry named item-name in the association list alist?
Checks name with nmember or name= so you can have multiple keys.
Returns the ([key|(key..)] . value) pair.

nassoce

nassoce(item-name: string, alist: object) => objectsource

Is there an entry named item-name in the association list alist?
Checks name with nmember for multiple keys or name= for single.
Allows else as a single key that always matches

nmember

nmember(obj: basic, lst: object) => objectsource

Is obj in the list lst? Check with the name= function.

print

print(arg0: object) => objectsource

Print out any boxed object. Does NOT insert a newline.

print-tree-bitmask(bits: int, count: int) => symbolsource

Print out a single entry for a process tree 'tree' diagram

printl

printl(arg0: object) => objectsource

Print out any boxed object and a newline at the end.

qmem-copy->!

qmem-copy->!(dst: pointer, src: pointer, size: int) => pointersource

Memory copy by quadword (16-bytes). More efficient, but has restrictions:
- dst and src should be 16-byte aligned.
- size in bytes will be rounding up to nearest 16-bytes
- Descending address copy

qmem-copy<-!

qmem-copy<-!(dst: pointer, src: pointer, size: int) => pointersource

Memory copy by quadword. More efficient, but has restrictions:
- dst and src should be 16-byte aligned.
- size in bytes will be rounded up to 16-bytes
- Ascending address copy.

quad-copy!

quad-copy!(dst: pointer, src: pointer, qwc: int) => nonesource

Optimized memory copy. The original is pretty clever, but this isn't.

ref

ref(lst: object, index: int) => objectsource

Get an entry in a proper list by index

rem

rem(a: int, b: int) => intsource

Compute remainder (32-bit). It is identical to mod. It uses a idiv and gets the remainder

sort

sort(lst: pair, compare-func: function) => pairsource

Sort a list, using compare-func to compare elements.
The comparison function can return either an integer or a true/false.
For integers, use a positive number to represent first > second
Ex: (sort lst -) will sort in ascending order
For booleans, you must explicitly use TRUE and not a truthy value.
Ex: (sort my-list (lambda ((x int) (y int)) (< x y))) will sort ascending.
NOTE: if you use an integer, don't accidentally return TRUE.

true-func

true-func() => symbolsource

Return true

type-type?

type-type?(child-type: type, parent-type: type) => symbolsource

Is child-type a child (or equal to) parent-type?
It is safe to use this on a type that is not fully set up,
but in this case it will return #f.

valid?

valid?(obj: object, expected-type: type, name: basic, allow-false: basic, print-dest: object) => symbolsource

Check if the given object is valid. This will work for structures, pairs, basics, bintegers, symbols, and types.
If you set expected-type to #f, it just checks for a 4-byte aligned address that's in GOAL memory.
If you're checking a structure, set expected-type to structure. This requires 16-byte alignment
Note: packed inline structures in arrays or fields will not pass this check.
Otherwise, set it to the type you expect. More specific types will pass.

If allow-false is #t, a #f will always pass. Otherwise, #f will fail (unless you're looking for a symbol).
Use allow-false if you want to allow a 'null' reference.

The name is only used when printing out an error if the check fails.
Use a name of #f to suppress error prints.

Variables


*print-column*: bintegersource

*trace-list*

*trace-list*: pairsource

BASIC_OFFSET

BASIC_OFFSET: unknownsource

BIG_MEMORY

BIG_MEMORY: unknownsource

BINTEGER_OFFSET

BINTEGER_OFFSET: unknownsource

END_OF_MEMORY

const END_OF_MEMORY: unknownsource

format

format: functionsource

PAIR_OFFSET

PAIR_OFFSET: unknownsource

PC_BIG_MEMORY

PC_BIG_MEMORY: unknownsource

PC_PORT

PC_PORT: unknownsource

PC_PROFILER_ENABLE

PC_PROFILER_ENABLE: unknownsource

SYM_TO_STRING_OFFSET

SYM_TO_STRING_OFFSET: unknownsource

USE_VM

USE_VM: unknownsource

gkernel-h

source

Types


catch-frame

catch-frame: stack-framesource
Fields
type: type
name: symbol
next: stack-frame
sp: int32
ra: int32
freg: float
rreg: uint128

cpu-thread

cpu-thread: threadsource
Fields
type: type
name: basic
process: process
previous: thread
suspend-hook: function
resume-hook: function
pc: pointer
sp: pointer
stack-top: pointer
stack-size: int32
rreg: uint64
freg: float
stack: uint8

dead-pool

dead-pool: process-treesource
Fields
type: type
name: basic
mask: process-mask
parent: pointer
brother: pointer
child: pointer
ppointer: pointer
self: process-tree
Methods
get-process(obj: dead-pool, type-to-make: type, stack-size: int) => processsource

Get a process from this dead pool of the given type.

return-process(obj: dead-pool, proc: process) => nonesource

Return a process to its pool once you are done with it.

dead-pool-heap

dead-pool-heap: dead-poolsource
Fields
type: type
name: basic
mask: process-mask
parent: pointer
brother: pointer
child: pointer
ppointer: pointer
self: process-tree
allocated-length: int32
compact-time: uint32
compact-count-targ: uint32
compact-count: uint32
fill-percent: float
first-gap: dead-pool-heap-rec
first-shrink: dead-pool-heap-rec
heap: kheap
alive-list: dead-pool-heap-rec
last: dead-pool-heap-rec
dead-list: dead-pool-heap-rec
process-list: dead-pool-heap-rec
Methods
compact(obj: dead-pool-heap, count: int) => nonesource

Do heap compaction. The count argument tells us how much work to do.
If the heap is very full we will automatically do more work than requested.

shrink-heap(obj: dead-pool-heap, proc: process) => dead-pool-heapsource

Shrink the heap of a process.
This resizes the process heap to be the exact size it is currently using.

churn(obj: dead-pool-heap, count: int) => nonesource

Mess with the heap

memory-used(obj: dead-pool-heap) => intsource

Get the amount of memory used. This includes gaps between processes.

memory-total(obj: dead-pool-heap) => intsource

Get the total amount of memory for processes

gap-size(obj: dead-pool-heap, rec: dead-pool-heap-rec) => intsource

Determine the size between the given process and the next process or end of the heap.
If you give the first rec, it will given the gap between the beginning of the heap and the next process.

gap-location(obj: dead-pool-heap, rec: dead-pool-heap-rec) => pointersource

Get the gap after the given process.
If root of the alive list is given, will give the first gap between the heap and the first process.
If there is no gap, may point to the next process. Not 16-byte aligned.

find-gap(obj: dead-pool-heap, rec: dead-pool-heap-rec) => dead-pool-heap-recsource

Start at the given record and find the closest gap after it. Returns the rec
which has the gap after it. If no gaps, returns the last rec.

find-gap-by-size(obj: dead-pool-heap, size: int) => dead-pool-heap-recsource

Find a gap which will fit at least size bytes. Returns the rec for the proc before the gap.
Will return a #f rec if there's no gap big enough.

memory-free(obj: dead-pool-heap) => intsource

Get the total memory free.

compact-time(obj: dead-pool-heap) => uintsource

Access the compact time field.

dead-pool-heap-rec

dead-pool-heap-rec: structuresource

event-message-block

event-message-block: structuresource
Fields
to: process
from: process
num-params: int32
message: symbol
param: uint64

handle

handle: uint64source

kernel-context

kernel-context: basicsource
Fields
type: type
prevent-from-run: process-mask
require-for-run: process-mask
allow-to-run: process-mask
next-pid: int32
fast-stack-top: pointer
current-process: process
relocating-process: basic
relocating-min: int32
relocating-max: int32
relocating-offset: int32
low-memory-message: symbol

process

process: process-treesource
Fields
type: type
name: basic
mask: process-mask
parent: pointer
brother: pointer
child: pointer
ppointer: pointer
self: process-tree
pool: dead-pool
status: basic
pid: int32
main-thread: cpu-thread
top-thread: thread
entity: entity-actor
state: state
trans-hook: function
post-hook: function
event-hook: function
allocated-length: int32
next-state: state
heap-base: pointer
heap-top: pointer
heap-cur: pointer
stack-frame-top: stack-frame
connection-list: connectable
stack: uint8
States
dead-state: TODO
empty-state: TODO

process-tree

process-tree: basicsource
Fields
type: type
name: basic
mask: process-mask
parent: pointer
brother: pointer
child: pointer
ppointer: pointer
self: process-tree
Methods
activate(obj: process, dest: process-tree, name: basic, stack-top: pointer) => process-treesource

Activate a process! Put it on the given active tree and set up the main thread.

deactivate(obj: eco-pill) => nonesource
init-from-entity!(obj: basebutton, arg0: entity-actor) => nonesource
run-logic?(obj: money) => symbolsource
process-tree-method-13: unknown

protect-frame

protect-frame: stack-framesource
Fields
type: type
name: symbol
next: stack-frame
exit: function

stack-frame

stack-frame: basicsource
Fields
type: type
name: symbol
next: stack-frame

state

state: protect-framesource
Fields
type: type
name: symbol
next: stack-frame
exit: function
code: function
trans: function
post: function
enter: function
event: function

thread

thread: basicsource
Fields
type: type
name: basic
process: process
previous: thread
suspend-hook: function
resume-hook: function
pc: pointer
sp: pointer
stack-top: pointer
stack-size: int32
Methods
stack-size-set!(this: thread, stack-size: int) => nonesource

Set the backup stack size of a thread. This should only be done on the main-thread.
This should be done immediately after allocating the main-thread.
Users can do this if they want a larger or smaller backup stack than the default.

thread-suspend(unused: cpu-thread) => nonesource

Suspend the thread and return to the kernel.

thread-resume(thread-to-resume: cpu-thread) => nonesource

Resume a suspended thread. Call this from the kernel only.
This is also used to start a thread initialized with set-to-run.
As a result of MIPS/x86 differences, there is a hack for this.

Variables


*gtype-basic-offset*

*gtype-basic-offset*: unknownsource

*irx-major-version*

*irx-major-version*: unknownsource

*irx-minor-version*

*irx-minor-version*: unknownsource

*kernel-major-version*

*kernel-major-version*: unknownsource

*kernel-minor-version*

*kernel-minor-version*: unknownsource

*scratch-memory-top*

*scratch-memory-top*: unknownsource

*tab-size*

*tab-size*: unknownsource

DPROCESS_STACK_SIZE

const DPROCESS_STACK_SIZE: unknownsource

INVALID_HANDLE

INVALID_HANDLE: unknownsource

KERNEL_DEBUG

KERNEL_DEBUG: unknownsource

PP

PP: unknownsource

PROCESS_CLEAR_MASK

PROCESS_CLEAR_MASK: unknownsource

PROCESS_HEAP_MULT

PROCESS_HEAP_MULT: unknownsource

PROCESS_HEAP_SIZE

PROCESS_HEAP_SIZE: unknownsource

PROCESS_STACK_SAVE_SIZE

PROCESS_STACK_SAVE_SIZE: unknownsource

PROCESS_STACK_SIZE

PROCESS_STACK_SIZE: unknownsource

gkernel

source

Functions


change-brother

change-brother(arg0: process-tree, arg1: process-tree) => objectsource

Unused, and wrong.
It seems like this was written when processes store process-trees, not (pointer process-tree).

change-parent

change-parent(obj: process-tree, new-parent: process-tree) => process-treesource

Make obj a child of new-parent

change-to-last-brother

change-to-last-brother(arg0: process-tree) => process-treesource

execute-process-tree

execute-process-tree(obj: process-tree, func: function, context: kernel-context) => objectsource

Like iterate, but also requires that prevent-from-run's mask doesn't block, and that run-logic?
is true in order to call the function.

inspect-process-heap

inspect-process-heap(obj: process) => symbolsource

Inspect the heap of a process.

inspect-process-tree

inspect-process-tree(obj: process-tree, level: int, mask: int, detail: symbol) => process-treesource

Debug print a pocess-tree

iterate-process-tree

iterate-process-tree(obj: process-tree, func: function, context: kernel-context) => objectsource

Call func on all processes that aren't a process-tree. If func returns 'dead, stop.
The kernel-context is ignored.

kernel-dispatcher

kernel-dispatcher() => objectsource

Run the kernel!
This is the entry point from C++ to GOAL.

kill-by-name

kill-by-name(name: object, pool: process-tree) => symbolsource

Call deactivate on all process with the given name.

kill-by-type

kill-by-type(type: object, pool: process-tree) => symbolsource

Call deactivate on all processes with the given type

kill-not-name

kill-not-name(name: object, pool: process-tree) => symbolsource

Call deactivate on all processes that don't match the name

kill-not-type

kill-not-type(type: object, pool: process-tree) => symbolsource

Call deactivate on all prcesses that don't match the given type

load-package

load-package(package: string, allocation: kheap) => pairsource

Load a Package from a CGO/DGO

previous-brother

previous-brother(proc: process-tree) => objectsource

Get the process p where (-> p brother) is proc. Unused

process-by-name

process-by-name(name: object, pool: process-tree) => processsource

Look up a process in the given pool by name

process-count

process-count(this: process-tree) => intsource

Count number of processes in the given tree using iterate-process-tree

process-not-name

process-not-name(name: object, pool: process-tree) => processsource

Look up a process with not the given name.

remove-exit

remove-exit() => stack-framesource

reset-and-call

reset-and-call(obj: thread, func: function) => objectsource

Make the given thread the top thread, reset the stack, and call the function.
Sets up a return trampoline so when the function returns it will return to the
kernel context. Will NOT deactivate on return, so this is intended for temporary threads.
NOTE: this should only be done from the kernel, running on the
kernel's stack.

return-from-thread

return-from-thread() => nonesource

Context switch to the saved kernel context now.
This is intended to be jumped to with the ret instruction (return trampoline)
at the end of a normal function, so this should preserve rax.
To make sure this happens, all ops should be asm ops and we should have no
GOAL expressions.

return-from-thread-dead

return-from-thread-dead() => nonesource

Like return from thread, but we clean up our process with deactivate first.
The return register is not preserved here, instead we return the value of deactivate

run-function-in-process

run-function-in-process(obj: process, func: function, a0: object, a1: object, a2: object, a3: object, a4: object, a5: object) => objectsource

Switch to the given process and run the function. This is used to initialize a process.
The function will run until it attempts to change state. At the first attempt to change state,
this function will return. The idea is that you use this when you want to initialize a process NOW.
This will then return the value of the function you called!

search-process-tree

search-process-tree(obj: process-tree, func: function) => process-treesource

Find the first process which func return true on. Won't find process-tree's (by mask)

set-to-run

set-to-run(thread: cpu-thread, func: function, a0: object, a1: object, a2: object, a3: object, a4: object, a5: object) => pointersource

Set the given thread to call the given function with the given arguments next time it resumes.
Only for main threads.
Once the function returns, the process deactivates.

set-to-run-bootstrap

set-to-run-bootstrap() => nonesource

This function is a clever hack.
To reset a thread to running a new function, we stash the arguments as saved registers.
These are then restored by thread-resume on the next run of the kernel.
This stub remaps these saved registers to argument registers.
It also creates a return trampoline to return-from-thread-dead, so if the main thread returns, the
process is properly cleaned up by deactivate.

stream<-process-mask

stream<-process-mask(arg0: object, arg1: process-mask) => process-masksource

throw

throw(name: symbol, value: object) => intsource

Dynamic throw.

throw-dispatch

throw-dispatch(obj: catch-frame, value: object) => nonesource

Throw the given value to the catch frame.
Only can throw a 64-bit value. The original could throw 128 bits.

unload-package

unload-package(package: string) => pairsource

Mark a package as unloaded, if it was loaded previously

Variables


*16k-dead-pool*

*16k-dead-pool*: dead-poolsource

*4k-dead-pool*

*4k-dead-pool*: dead-poolsource

*8k-dead-pool*

*8k-dead-pool*: dead-poolsource

*active-pool*

*active-pool*: process-treesource

*camera-dead-pool*

*camera-dead-pool*: dead-poolsource

*camera-master-dead-pool*

*camera-master-dead-pool*: dead-poolsource

*camera-pool*

*camera-pool*: process-treesource

*dead-pool-list*

*dead-pool-list*: pairsource

*debug-dead-pool*

*debug-dead-pool*: dead-pool-heapsource

*deci-count*

*deci-count*: intsource

*default-dead-pool*

*default-dead-pool*: dead-poolsource

*default-pool*

*default-pool*: process-treesource

*display-pool*

*display-pool*: process-treesource

*dram-stack*

*dram-stack*: pointersource

*entity-pool*

*entity-pool*: process-treesource

*fake-scratchpad-data*

*fake-scratchpad-data*: pointersource

*fake-scratchpad-stack*

*fake-scratchpad-stack*: pointersource

*global-search-count*

*global-search-count*: intsource

*global-search-name*

*global-search-name*: basicsource

*irx-version*

*irx-version*: bintegersource

*kernel-boot-level*

*kernel-boot-level*: symbolsource

*kernel-boot-mode*

*kernel-boot-mode*: symbolsource

*kernel-context*

*kernel-context*: kernel-contextsource

*kernel-dram-stack*

*kernel-dram-stack*: unknownsource

*kernel-packages*

*kernel-packages*: pairsource

*kernel-version*

*kernel-version*: bintegersource

*last-loado-debug-usage*

*last-loado-debug-usage*: intsource

*last-loado-global-usage*

*last-loado-global-usage*: intsource

*last-loado-length*

*last-loado-length*: intsource

*listener-process*

*listener-process*: processsource

*master-mode*

*master-mode*: symbolsource

*nk-dead-pool*

*nk-dead-pool*: dead-pool-heapsource

*null-kernel-context*

*null-kernel-context*: kernel-contextsource

*null-process*

*null-process*: processsource

*pause-lock*

*pause-lock*: symbolsource

*pickup-dead-pool*

*pickup-dead-pool*: dead-poolsource

*target-dead-pool*

*target-dead-pool*: dead-poolsource

*target-pool*

*target-pool*: process-treesource

*use-old-listener-print*

*use-old-listener-print*: symbolsource

*vis-boot*

*vis-boot*: basicsource

dead-state

const dead-state: statesource

entity-deactivate-handler

entity-deactivate-handler: functionsource

gstate

source

Functions


enter-state

enter-state(arg0: object, arg1: object, arg2: object, arg3: object, arg4: object, arg5: object) => objectsource

Make the process stored in pp enter the state in pp next-state

inherit-state

inherit-state(child: state, parent: state) => statesource

Copy handler functions from parent to child

looping-code

looping-code() => symbolsource

Loop.

send-event-function

send-event-function(proc: process-tree, msg: event-message-block) => objectsource

Function to send an event to a process. Please use the send-event macros when possible

gstring

source

Functions


append-character-to-string

append-character-to-string(str: string, char: uint8) => intsource

Append char to the end of the given string.

cat-string<-string

cat-string<-string(a: string, b: string) => stringsource

Append b to a. No length checks

cat-string<-string_to_charp

cat-string<-string_to_charp(a: string, b: string, end-ptr: pointer) => pointersource

Append b to a, using chars of b up to (and including) the one pointed to by end-ptr,
or, until the end of b, whichever comes first.

catn-string<-charp

catn-string<-charp(a: string, b: pointer, len: int) => stringsource

Append b to a, exactly len chars

charp-basename

charp-basename(charp: pointer) => pointersource

Like basename in C

charp<-string

charp<-string(dst: pointer, src-string: string) => intsource

Copy a GOAL string into a character array.

clear

clear(a0-0: string) => stringsource

Make string empty

copy-charp<-charp

copy-charp<-charp(dst: pointer, src: pointer) => pointersource

C string copy.

copy-string<-string

copy-string<-string(dst: string, src: string) => stringsource

Copy data from one string to another, like strcpy

copyn-string<-charp

copyn-string<-charp(str: string, charp: pointer, len: int) => stringsource

Copy data from a charp to a GOAL string. Copies len chars, plus a null.

copyn-string<-string

copyn-string<-string(dst: string, src: string, len: int) => stringsource

Copy len bytes of data from one string to another, like strncpy

name=

name=(arg0: basic, arg1: basic) => symbolsource

Do arg0 and arg1 have the same name?
This can use either strings or symbols

string->float

string->float(str: string) => floatsource

Convert a string to a float, but it is not implemented.

string->int

string->int(str: string) => intsource

String to int. Supports binary, hex, and decimal. Negative is implemented for decimal and hex
But I think it's broken?

string-cat-to-last-char

string-cat-to-last-char(base-str: string, append-str: string, char: uint) => pointersource

Append append-str to the end of base-str, up to the last occurance of char in append-str

string-charp=

string-charp=(str: string, charp: pointer) => symbolsource

Is the data in str equal to the C string charp?

string-downcase

string-downcase(in: string, out: string) => stringsource

Lowercase the given string.

string-get-arg!!

string-get-arg!!(a-str: string, arg: string) => symbolsource

Get the first argument from a whitespace separated list of arguments.
The arguments can be in quotes or not.
Removes argument from arg string, sucks up white space before the next one
Outputs argument to a-str.

string-get-flag!!

string-get-flag!!(result: pointer, in: string, first-flag: string, second-flag: string) => symbolsource

string-get-float!!

string-get-float!!(arg0: pointer, arg1: string) => symbolsource

string-get-int32!!

string-get-int32!!(arg0: pointer, arg1: string) => symbolsource

Get an int32 from a list of arguments

string-skip-to-char

string-skip-to-char(str: pointer, char: uint) => pointersource

Return pointer to first instance of char in C string, or to the null terminator if none

string-skip-whitespace

string-skip-whitespace(arg0: pointer) => pointersource

Skip over spaces, tabs, r's and n's

string-strip-leading-whitespace!

string-strip-leading-whitespace!(str: string) => symbolsource

Remove whitespace at the front of a string

string-strip-trailing-whitespace!

string-strip-trailing-whitespace!(str: string) => symbolsource

Remove whitespace at the end of a string

string-strip-whitespace!

string-strip-whitespace!(arg0: string) => symbolsource

Remove whitespace at the beginning and end of a string

string-suck-up!

string-suck-up!(str: string, location: pointer) => symbolsource

Remove character between the start of string and location.
The char pointed to by location is now the first.

string-upcase

string-upcase(in: string, out: string) => stringsource

Uppercase the given string.

string<-charp

string<-charp(str: string, charp: pointer) => stringsource

Copy all chars from a char* to a GOAL string.
Does NO length checking.

string<=?

string<=?(a: string, b: string) => symbolsource

string<?

string<?(a: string, b: string) => symbolsource

In dictionary order, is a < b?

string=

string=(str-a: string, str-b: string) => symbolsource

Does str-a hold the same data as str-b?.
If either string is null, returns #f.

string>=?

string>=?(a: string, b: string) => symbolsource

string>?

string>?(a: string, b: string) => symbolsource

In dictionary order, is a > b?

substring!

substring!(dst: string, src: string, start: int, end: int) => stringsource

Copy the specified substring to dst. Returns an empty string if invalid indices are given.

Variables


*debug-draw-pauseable*

*debug-draw-pauseable*: symbolsource

*stdcon*

*stdcon*: stringsource

*stdcon0*

*stdcon0*: stringsource

*stdcon1*

*stdcon1*: stringsource

*string-tmp-str*

*string-tmp-str*: stringsource

*temp-string*

*temp-string*: stringsource

*temp-string2*

*temp-string2*: stringsource

pskernel

source

Types


lowmemmap

lowmemmap: structuresource
Fields
irq-info-stack: uint32
irq2-info-stack: uint32
kernel-copy-fn: uint32
kernel-write-fn: uint32
r1-save: uint128
last-time: uint32
high-time: uint32
dma-status: uint32
dma-qnext: uint32
dma-qwc: uint32
dma-tnext: uint32
dma-stack0: uint32
dma-stack1: uint32
kernel-read-fn: uint32

Functions


deinstall-debug-handler

deinstall-debug-handler() => nonesource

Set the kernel exception handler back to the default?

deinstall-debug-handlers

deinstall-debug-handlers() => nonesource

Set a bunch of excpetion handlers back to the default?

install-default-debug-handler

install-default-debug-handler(handler: object) => nonesource

Installs the given handler as the debug handler 1 through 13.
Uses the install-debug-handler function defined in kmachine.cpp

kernel-check-hardwired-addresses

kernel-check-hardwired-addresses() => nonesource

Checks a bunch of stuff in the kernel using kernel-read.
If the memory layout isn't what it expects, it prints an error and crashes.

kernel-copy-function

kernel-copy-function(unused: object, source: object, dest: object, size: object) => nonesource

Copy size words from source to dest. The a0 argument is ignored.
Uses registers a0, a1, a2, a3

kernel-copy-to-kernel-ram

kernel-copy-to-kernel-ram() => nonesource

Does a syscall 102. This is CpuConfig on released PS2 BIOSes.
I'm guessing this somehow calls kernel-copy-function

kernel-read

kernel-read() => nonesource

Does a syscall 102. I'm guessing this somehow calls kernel-read-function

kernel-read-function

kernel-read-function(unused: object, source: object) => nonesource

Read a single word (signed) from source

kernel-set-exception-vector

kernel-set-exception-vector() => nonesource

Use syscall 13/syscall 14 to set exception handlers

kernel-set-interrupt-vector

kernel-set-interrupt-vector() => nonesource

Use syscall 15 to set an interrupt handler

kernel-set-level2-vector

kernel-set-level2-vector() => nonesource

Set some handler by writing directly to kernel memory. Not sure what this is.

kernel-write

kernel-write() => nonesource

Does a syscall 102. I'm guessing this somehow calls kernel-write-function.

kernel-write-function

kernel-write-function(unused: object, source: object, dest: object) => nonesource

Writes a single word to the destination

resend-exception

resend-exception() => nonesource

I think this was to return from a GOAL crash handler back to the EE kernel's crash handler.

return-from-exception

return-from-exception(regs: object) => nonesource

Restore the registers and eret.