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3033 lines
54 KiB
Markdown
3033 lines
54 KiB
Markdown
SixtyPical Analysis
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===================
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This is a test suite, written in [Falderal][] format, for the SixtyPical
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static analysis rules.
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[Falderal]: http://catseye.tc/node/Falderal
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-> Functionality "Analyze SixtyPical program" is implemented by
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-> shell command "bin/sixtypical --analyze-only --traceback %(test-body-file) && echo ok"
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-> Tests for functionality "Analyze SixtyPical program"
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### Rudiments ###
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Routines must declare their inputs, outputs, and memory locations they trash.
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| routine up
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| inputs a
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| outputs a
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| trashes c, z, v, n
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| {
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| st off, c
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| add a, 1
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| }
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= ok
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Routines may not declare a memory location to be both an output and trashed.
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| routine main
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| outputs a
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| trashes a
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| {
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| ld a, 0
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| }
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? InconsistentConstraintsError: a
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If a routine declares it outputs a location, that location should be initialized.
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| routine main
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| outputs a, x, z, n
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| {
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| ld x, 0
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| }
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? UnmeaningfulOutputError: a
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| routine main
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| inputs a
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| outputs a
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| {
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| }
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= ok
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If a routine declares it outputs a location, that location may or may not have
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been initialized. Trashing is mainly a signal to the caller.
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| routine main
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| trashes x, z, n
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| {
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| ld x, 0
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| }
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= ok
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| routine main
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| trashes x, z, n
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| {
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| }
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= ok
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If a routine modifies a location, it needs to either output it or trash it.
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| routine main
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| {
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| ld x, 0
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| }
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? ForbiddenWriteError: x
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| routine main
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| outputs x, z, n
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| {
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| ld x, 0
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| }
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= ok
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| routine main
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| trashes x, z, n
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| {
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| ld x, 0
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| }
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= ok
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This is true regardless of whether it's an input or not.
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| routine main
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| inputs x
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| {
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| ld x, 0
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| }
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? ForbiddenWriteError: x
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| routine main
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| inputs x
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| outputs x, z, n
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| {
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| ld x, 0
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| }
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= ok
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| routine main
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| inputs x
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| trashes x, z, n
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| {
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| ld x, 0
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| }
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= ok
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If a routine trashes a location, this must be declared.
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| routine foo
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| trashes x
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| {
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| trash x
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| }
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= ok
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| routine foo
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| {
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| trash x
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| }
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? ForbiddenWriteError: x
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| routine foo
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| outputs x
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| {
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| trash x
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| }
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? UnmeaningfulOutputError: x
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If a routine causes a location to be trashed, this must be declared in the caller.
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| routine trash_x
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| trashes x, z, n
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| {
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| ld x, 0
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| }
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|
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| routine foo
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| trashes x, z, n
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| {
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| call trash_x
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| }
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= ok
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| routine trash_x
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| trashes x, z, n
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| {
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| ld x, 0
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| }
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|
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| routine foo
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| trashes z, n
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| {
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| call trash_x
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| }
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? ForbiddenWriteError: x
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| routine trash_x
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| trashes x, z, n
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| {
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| ld x, 0
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| }
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|
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| routine foo
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| outputs x
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| trashes z, n
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| {
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| call trash_x
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| }
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? UnmeaningfulOutputError: x (in foo, line 12)
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If a routine reads or writes a user-define memory location, it needs to declare that too.
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| byte b1 @ 60000
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| byte b2 : 3
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| word w1 @ 60001
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| word w2 : 2000
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|
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| routine main
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| inputs b1, w1
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| outputs b2, w2
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| trashes a, z, n
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| {
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| ld a, b1
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| st a, b2
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| copy w1, w2
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| }
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= ok
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### ld ###
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Can't `ld` from a memory location that isn't initialized.
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| routine main
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| inputs a, x
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| trashes a, z, n
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| {
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| ld a, x
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| }
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= ok
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| routine main
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| inputs a
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| trashes a
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| {
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| ld a, x
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| }
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? UnmeaningfulReadError: x
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Can't `ld` to a memory location that doesn't appear in (outputs ∪ trashes).
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| routine main
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| trashes a, z, n
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| {
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| ld a, 0
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| }
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= ok
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| routine main
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| outputs a
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| trashes z, n
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| {
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| ld a, 0
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| }
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= ok
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| routine main
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| outputs z, n
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| trashes a
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| {
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| ld a, 0
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| }
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= ok
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| routine main
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| trashes z, n
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| {
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| ld a, 0
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| }
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? ForbiddenWriteError: a
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| routine main
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| trashes a, n
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| {
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| ld a, 0
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| }
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? ForbiddenWriteError: z
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Can't `ld` a `word` type.
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| word foo
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|
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| routine main
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| inputs foo
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| trashes a, n, z
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| {
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| ld a, foo
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| }
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? TypeMismatchError: foo and a
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### st ###
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Can't `st` from a memory location that isn't initialized.
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| byte lives
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| routine main
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| inputs x
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| trashes lives
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| {
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| st x, lives
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| }
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= ok
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| byte lives
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| routine main
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| trashes x, lives
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| {
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| st x, lives
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| }
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? UnmeaningfulReadError: x
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Can't `st` to a memory location that doesn't appear in (outputs ∪ trashes).
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| byte lives
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| routine main
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| trashes lives
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| {
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| st 0, lives
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| }
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= ok
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| byte lives
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| routine main
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| outputs lives
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| {
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| st 0, lives
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| }
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= ok
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| byte lives
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| routine main
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| inputs lives
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| {
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| st 0, lives
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| }
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? ForbiddenWriteError: lives
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Can't `st` a `word` type.
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| word foo
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| routine main
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| outputs foo
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| trashes a, n, z
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| {
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| ld a, 0
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| st a, foo
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| }
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? TypeMismatchError
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### tables ###
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Storing to a table, you must use an index.
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| byte one
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| byte table[256] many
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|
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| routine main
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| outputs one
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| trashes a, x, n, z
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| {
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| ld x, 0
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| ld a, 0
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| st a, one
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| }
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= ok
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| byte one
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| byte table[256] many
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|
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| routine main
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| outputs many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| ld a, 0
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| st a, many
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| }
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? TypeMismatchError
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| byte one
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| byte table[256] many
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|
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| routine main
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| outputs one
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| trashes a, x, n, z
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| {
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| ld x, 0
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| ld a, 0
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| st a, one + x
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| }
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? TypeMismatchError
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| byte one
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| byte table[256] many
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|
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| routine main
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| outputs many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| ld a, 0
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| st a, many + x
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| }
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= ok
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The index must be initialized.
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| byte one
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| byte table[256] many
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|
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| routine main
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| outputs many
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| trashes a, x, n, z
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| {
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| ld a, 0
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| st a, many + x
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| }
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? UnmeaningfulReadError: x
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Reading from a table, you must use an index.
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| byte one
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|
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| routine main
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| outputs one
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| trashes a, x, n, z
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| {
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| ld x, 0
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| st x, one
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| ld a, one
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| }
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= ok
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| byte one
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|
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| routine main
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| outputs one
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| trashes a, x, n, z
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| {
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| ld x, 0
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| st x, one
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| ld a, one + x
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| }
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? TypeMismatchError
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| byte table[256] many
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|
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| routine main
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| outputs many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| ld a, 0
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| st a, many + x
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| ld a, many
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| }
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? TypeMismatchError
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| byte table[256] many
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|
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| routine main
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| outputs many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| ld a, 0
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| st a, many + x
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| ld a, many + x
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| }
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= ok
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| byte table[256] many
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|
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| routine main
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| inputs many
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| outputs many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| ld a, many + x
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| }
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= ok
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The index must be initialized.
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| byte table[256] many
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|
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| routine main
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| inputs many
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| outputs many
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| trashes a, x, n, z
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| {
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| ld a, many + x
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| }
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? UnmeaningfulReadError: x
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There are other operations you can do on tables. (1/3)
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| byte table[256] many
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|
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| routine main
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| inputs many
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| outputs many
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| trashes a, x, c, n, z, v
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| {
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| ld x, 0
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| ld a, 0
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| st off, c
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| add a, many + x
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| sub a, many + x
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| cmp a, many + x
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| }
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= ok
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There are other operations you can do on tables. (2/3)
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| byte table[256] many
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|
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| routine main
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| inputs many
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| outputs many
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| trashes a, x, c, n, z
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| {
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| ld x, 0
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| ld a, 0
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| and a, many + x
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| or a, many + x
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| xor a, many + x
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| }
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= ok
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There are other operations you can do on tables. (3/3)
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| byte table[256] many
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|
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| routine main
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| inputs many
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| outputs many
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| trashes a, x, c, n, z
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| {
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| ld x, 0
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| ld a, 0
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| st off, c
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| shl many + x
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| shr many + x
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| inc many + x
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| dec many + x
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| }
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= ok
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Copying to and from a word table.
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| word one
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| word table[256] many
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|
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| routine main
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| inputs one, many
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| outputs one, many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| copy one, many + x
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| copy many + x, one
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| }
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= ok
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| word one
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| word table[256] many
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|
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| routine main
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| inputs one, many
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| outputs one, many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| copy one, many
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| }
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? TypeMismatchError
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| word one
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| word table[256] many
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|
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| routine main
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| inputs one, many
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| outputs one, many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| copy one + x, many
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| }
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? TypeMismatchError
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You can also copy a literal word to a word table.
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(Even if the table has fewer than 256 entries.)
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|
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| word table[32] many
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|
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| routine main
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| inputs many
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| outputs many
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| trashes a, x, n, z
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| {
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| ld x, 0
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| copy 9999, many + x
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| }
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= ok
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#### tables: range checking ####
|
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|
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It is a static analysis error if it cannot be proven that a read or write
|
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to a table falls within the defined size of that table.
|
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|
||
(If a table has 256 entries, then there is never a problem, because a byte
|
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cannot index any entry outside of 0..255.)
|
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|
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A SixtyPical implementation must be able to prove that the index is inside
|
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the range of the table in various ways. The simplest is to show that a
|
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constant value falls inside or outside the range of the table.
|
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|
||
| byte table[32] many
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|
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| routine main
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| inputs many
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| outputs many
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| trashes a, x, n, z
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||
| {
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| ld x, 31
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| ld a, many + x
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| st a, many + x
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| }
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= ok
|
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|
||
| byte table[32] many
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|
|
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| routine main
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| inputs many
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| outputs many
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| trashes a, x, n, z
|
||
| {
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| ld x, 32
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| ld a, many + x
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| }
|
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? RangeExceededError
|
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|
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| byte table[32] many
|
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|
|
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| routine main
|
||
| inputs many
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| outputs many
|
||
| trashes a, x, n, z
|
||
| {
|
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| ld x, 32
|
||
| ld a, 0
|
||
| st a, many + x
|
||
| }
|
||
? RangeExceededError
|
||
|
||
This applies to `copy` as well.
|
||
|
||
| word one: 77
|
||
| word table[32] many
|
||
|
|
||
| routine main
|
||
| inputs many, one
|
||
| outputs many, one
|
||
| trashes a, x, n, z
|
||
| {
|
||
| ld x, 31
|
||
| copy one, many + x
|
||
| copy many + x, one
|
||
| }
|
||
= ok
|
||
|
||
| word one: 77
|
||
| word table[32] many
|
||
|
|
||
| routine main
|
||
| inputs many, one
|
||
| outputs many, one
|
||
| trashes a, x, n, z
|
||
| {
|
||
| ld x, 32
|
||
| copy many + x, one
|
||
| }
|
||
? RangeExceededError
|
||
|
||
| word one: 77
|
||
| word table[32] many
|
||
|
|
||
| routine main
|
||
| inputs many, one
|
||
| outputs many, one
|
||
| trashes a, x, n, z
|
||
| {
|
||
| ld x, 32
|
||
| copy one, many + x
|
||
| }
|
||
? RangeExceededError
|
||
|
||
`AND`'ing a register with a value ensures the range of the
|
||
register will not exceed the range of the value. This can
|
||
be used to "clip" the range of an index so that it fits in
|
||
a table.
|
||
|
||
| word one: 77
|
||
| word table[32] many
|
||
|
|
||
| routine main
|
||
| inputs a, many, one
|
||
| outputs many, one
|
||
| trashes a, x, n, z
|
||
| {
|
||
| and a, 31
|
||
| ld x, a
|
||
| copy one, many + x
|
||
| copy many + x, one
|
||
| }
|
||
= ok
|
||
|
||
Test for "clipping", but not enough.
|
||
|
||
| word one: 77
|
||
| word table[32] many
|
||
|
|
||
| routine main
|
||
| inputs a, many, one
|
||
| outputs many, one
|
||
| trashes a, x, n, z
|
||
| {
|
||
| and a, 63
|
||
| ld x, a
|
||
| copy one, many + x
|
||
| copy many + x, one
|
||
| }
|
||
? RangeExceededError
|
||
|
||
If you alter the value after "clipping" it, the range can
|
||
no longer be guaranteed.
|
||
|
||
| word one: 77
|
||
| word table[32] many
|
||
|
|
||
| routine main
|
||
| inputs a, many, one
|
||
| outputs many, one
|
||
| trashes a, x, n, z
|
||
| {
|
||
| and a, 31
|
||
| ld x, a
|
||
| inc x
|
||
| copy one, many + x
|
||
| copy many + x, one
|
||
| }
|
||
? RangeExceededError
|
||
|
||
### add ###
|
||
|
||
Can't `add` from or to a memory location that isn't initialized.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add a, 0
|
||
| }
|
||
= ok
|
||
|
||
| byte lives
|
||
| routine main
|
||
| inputs a
|
||
| outputs a
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add a, lives
|
||
| }
|
||
? UnmeaningfulReadError: lives
|
||
|
||
| byte lives
|
||
| routine main
|
||
| inputs lives
|
||
| outputs a
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add a, lives
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
Can't `add` to a memory location that isn't writeable.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| trashes c
|
||
| {
|
||
| st off, c
|
||
| add a, 0
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
You can `add` a word constant to a word memory location.
|
||
|
||
| word score
|
||
| routine main
|
||
| inputs a, score
|
||
| outputs score
|
||
| trashes a, c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add score, 1999
|
||
| }
|
||
= ok
|
||
|
||
`add`ing a word constant to a word memory location trashes `a`.
|
||
|
||
| word score
|
||
| routine main
|
||
| inputs a, score
|
||
| outputs score, a
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add score, 1999
|
||
| }
|
||
? UnmeaningfulOutputError: a
|
||
|
||
To be sure, `add`ing a word constant to a word memory location trashes `a`.
|
||
|
||
| word score
|
||
| routine main
|
||
| inputs score
|
||
| outputs score
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add score, 1999
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
You can `add` a word memory location to another word memory location.
|
||
|
||
| word score
|
||
| word delta
|
||
| routine main
|
||
| inputs score, delta
|
||
| outputs score
|
||
| trashes a, c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add score, delta
|
||
| }
|
||
= ok
|
||
|
||
`add`ing a word memory location to a word memory location trashes `a`.
|
||
|
||
| word score
|
||
| word delta
|
||
| routine main
|
||
| inputs score, delta
|
||
| outputs score
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add score, delta
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
You can `add` a word memory location, or a constant, to a pointer.
|
||
|
||
| pointer ptr
|
||
| word delta
|
||
| routine main
|
||
| inputs ptr, delta
|
||
| outputs ptr
|
||
| trashes a, c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add ptr, delta
|
||
| add ptr, word 1
|
||
| }
|
||
= ok
|
||
|
||
`add`ing a word memory location, or a constant, to a pointer, trashes `a`.
|
||
|
||
| pointer ptr
|
||
| word delta
|
||
| routine main
|
||
| inputs ptr, delta
|
||
| outputs ptr
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| add ptr, delta
|
||
| add ptr, word 1
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
### sub ###
|
||
|
||
Can't `sub` from or to a memory location that isn't initialized.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| sub a, 0
|
||
| }
|
||
= ok
|
||
|
||
| byte lives
|
||
| routine main
|
||
| inputs a
|
||
| outputs a
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| sub a, lives
|
||
| }
|
||
? UnmeaningfulReadError: lives
|
||
|
||
| byte lives
|
||
| routine main
|
||
| inputs lives
|
||
| outputs a
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| sub a, lives
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
Can't `sub` to a memory location that isn't writeable.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| trashes c
|
||
| {
|
||
| st off, c
|
||
| sub a, 0
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
You can `sub` a word constant from a word memory location.
|
||
|
||
| word score
|
||
| routine main
|
||
| inputs a, score
|
||
| outputs score
|
||
| trashes a, c, z, v, n
|
||
| {
|
||
| st on, c
|
||
| sub score, 1999
|
||
| }
|
||
= ok
|
||
|
||
`sub`ing a word constant from a word memory location trashes `a`.
|
||
|
||
| word score
|
||
| routine main
|
||
| inputs a, score
|
||
| outputs score, a
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st on, c
|
||
| sub score, 1999
|
||
| }
|
||
? UnmeaningfulOutputError: a
|
||
|
||
You can `sub` a word memory location from another word memory location.
|
||
|
||
| word score
|
||
| word delta
|
||
| routine main
|
||
| inputs score, delta
|
||
| outputs score
|
||
| trashes a, c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| sub score, delta
|
||
| }
|
||
= ok
|
||
|
||
`sub`ing a word memory location from a word memory location trashes `a`.
|
||
|
||
| word score
|
||
| word delta
|
||
| routine main
|
||
| inputs score, delta
|
||
| outputs score
|
||
| trashes c, z, v, n
|
||
| {
|
||
| st off, c
|
||
| sub score, delta
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
### inc ###
|
||
|
||
Location must be initialized and writeable.
|
||
|
||
| routine main
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| }
|
||
? UnmeaningfulReadError: x
|
||
|
||
| routine main
|
||
| inputs x
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| }
|
||
? ForbiddenWriteError: x
|
||
|
||
| routine main
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| }
|
||
= ok
|
||
|
||
Can't `inc` a `word` type.
|
||
|
||
| word foo
|
||
|
|
||
| routine main
|
||
| inputs foo
|
||
| outputs foo
|
||
| trashes z, n
|
||
| {
|
||
| inc foo
|
||
| }
|
||
? TypeMismatchError: foo
|
||
|
||
### dec ###
|
||
|
||
Location must be initialized and writeable.
|
||
|
||
| routine main
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| dec x
|
||
| }
|
||
? UnmeaningfulReadError: x
|
||
|
||
| routine main
|
||
| inputs x
|
||
| trashes z, n
|
||
| {
|
||
| dec x
|
||
| }
|
||
? ForbiddenWriteError: x
|
||
|
||
| routine main
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| dec x
|
||
| }
|
||
= ok
|
||
|
||
Can't `dec` a `word` type.
|
||
|
||
| word foo
|
||
|
|
||
| routine main
|
||
| inputs foo
|
||
| outputs foo
|
||
| trashes z, n
|
||
| {
|
||
| dec foo
|
||
| }
|
||
? TypeMismatchError: foo
|
||
|
||
### cmp ###
|
||
|
||
Some rudimentary tests for `cmp`.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| trashes z, c, n
|
||
| {
|
||
| cmp a, 4
|
||
| }
|
||
= ok
|
||
|
||
| routine main
|
||
| inputs a
|
||
| trashes z, n
|
||
| {
|
||
| cmp a, 4
|
||
| }
|
||
? ForbiddenWriteError: c
|
||
|
||
| routine main
|
||
| trashes z, c, n
|
||
| {
|
||
| cmp a, 4
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
### and ###
|
||
|
||
Some rudimentary tests for `and`.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a, z, n
|
||
| {
|
||
| and a, 4
|
||
| }
|
||
= ok
|
||
|
||
| routine main
|
||
| inputs a
|
||
| trashes z, n
|
||
| {
|
||
| and a, 4
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
| routine main
|
||
| trashes z, n
|
||
| {
|
||
| and a, 4
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
### or ###
|
||
|
||
Some rudimentary tests for `or`.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a, z, n
|
||
| {
|
||
| or a, 4
|
||
| }
|
||
= ok
|
||
|
||
| routine main
|
||
| inputs a
|
||
| trashes z, n
|
||
| {
|
||
| or a, 4
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
| routine main
|
||
| trashes z, n
|
||
| {
|
||
| or a, 4
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
### xor ###
|
||
|
||
Some rudimentary tests for `xor`.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a, z, n
|
||
| {
|
||
| xor a, 4
|
||
| }
|
||
= ok
|
||
|
||
| routine main
|
||
| inputs a
|
||
| trashes z, n
|
||
| {
|
||
| xor a, 4
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
| routine main
|
||
| trashes z, n
|
||
| {
|
||
| xor a, 4
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
### shl ###
|
||
|
||
Some rudimentary tests for `shl`.
|
||
|
||
| byte foo
|
||
| routine main
|
||
| inputs foo, a, c
|
||
| outputs foo, a, c, z, n
|
||
| {
|
||
| shl a
|
||
| shl foo
|
||
| }
|
||
= ok
|
||
|
||
| routine main
|
||
| inputs a, c
|
||
| outputs c, z, n
|
||
| {
|
||
| shl a
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a, c, z, n
|
||
| {
|
||
| shl a
|
||
| }
|
||
? UnmeaningfulReadError: c
|
||
|
||
### shr ###
|
||
|
||
Some rudimentary tests for `shr`.
|
||
|
||
| byte foo
|
||
| routine main
|
||
| inputs foo, a, c
|
||
| outputs foo, a, c, z, n
|
||
| {
|
||
| shr a
|
||
| shr foo
|
||
| }
|
||
= ok
|
||
|
||
| routine main
|
||
| inputs a, c
|
||
| outputs c, z, n
|
||
| {
|
||
| shr a
|
||
| }
|
||
? ForbiddenWriteError: a
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a, c, z, n
|
||
| {
|
||
| shr a
|
||
| }
|
||
? UnmeaningfulReadError: c
|
||
|
||
### nop ###
|
||
|
||
Some rudimentary tests for `nop`.
|
||
|
||
| routine main
|
||
| {
|
||
| nop
|
||
| }
|
||
= ok
|
||
|
||
### call ###
|
||
|
||
When calling a routine, all of the locations it lists as inputs must be
|
||
initialized.
|
||
|
||
| byte lives
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| trashes lives
|
||
| {
|
||
| st x, lives
|
||
| }
|
||
|
|
||
| routine main
|
||
| {
|
||
| call foo
|
||
| }
|
||
? UnmeaningfulReadError: x
|
||
|
||
Note that if you call a routine that trashes a location, you also trash it.
|
||
|
||
| byte lives
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| trashes lives
|
||
| {
|
||
| st x, lives
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs x, z, n
|
||
| {
|
||
| ld x, 0
|
||
| call foo
|
||
| }
|
||
? ForbiddenWriteError: lives
|
||
|
||
| byte lives
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| trashes lives
|
||
| {
|
||
| st x, lives
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs x, z, n
|
||
| trashes lives
|
||
| {
|
||
| ld x, 0
|
||
| call foo
|
||
| }
|
||
= ok
|
||
|
||
You can't output a value that the thing you called trashed.
|
||
|
||
| byte lives
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| trashes lives
|
||
| {
|
||
| st x, lives
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs x, z, n, lives
|
||
| {
|
||
| ld x, 0
|
||
| call foo
|
||
| }
|
||
? UnmeaningfulOutputError: lives
|
||
|
||
...unless you write to it yourself afterwards.
|
||
|
||
| byte lives
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| trashes lives
|
||
| {
|
||
| st x, lives
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs x, z, n, lives
|
||
| {
|
||
| ld x, 0
|
||
| call foo
|
||
| st x, lives
|
||
| }
|
||
= ok
|
||
|
||
If a routine declares outputs, they are initialized in the caller after
|
||
calling it.
|
||
|
||
| routine foo
|
||
| outputs x, z, n
|
||
| {
|
||
| ld x, 0
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs a
|
||
| trashes x, z, n
|
||
| {
|
||
| call foo
|
||
| ld a, x
|
||
| }
|
||
= ok
|
||
|
||
| routine foo
|
||
| {
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs a
|
||
| trashes x
|
||
| {
|
||
| call foo
|
||
| ld a, x
|
||
| }
|
||
? UnmeaningfulReadError: x
|
||
|
||
If a routine trashes locations, they are uninitialized in the caller after
|
||
calling it.
|
||
|
||
| routine foo
|
||
| trashes x, z, n
|
||
| {
|
||
| ld x, 0
|
||
| }
|
||
= ok
|
||
|
||
| routine foo
|
||
| trashes x, z, n
|
||
| {
|
||
| ld x, 0
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs a
|
||
| trashes x, z, n
|
||
| {
|
||
| call foo
|
||
| ld a, x
|
||
| }
|
||
? UnmeaningfulReadError: x
|
||
|
||
Calling an extern is just the same as calling a defined routine with the
|
||
same constraints.
|
||
|
||
| routine chrout
|
||
| inputs a
|
||
| trashes a
|
||
| @ 65490
|
||
|
|
||
| routine main
|
||
| trashes a, z, n
|
||
| {
|
||
| ld a, 65
|
||
| call chrout
|
||
| }
|
||
= ok
|
||
|
||
| routine chrout
|
||
| inputs a
|
||
| trashes a
|
||
| @ 65490
|
||
|
|
||
| routine main
|
||
| trashes a, z, n
|
||
| {
|
||
| call chrout
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
| routine chrout
|
||
| inputs a
|
||
| trashes a
|
||
| @ 65490
|
||
|
|
||
| routine main
|
||
| trashes a, x, z, n
|
||
| {
|
||
| ld a, 65
|
||
| call chrout
|
||
| ld x, a
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
### trash ###
|
||
|
||
Trash does nothing except indicate that we do not care about the value anymore.
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n
|
||
| {
|
||
| st a, x
|
||
| ld a, 0
|
||
| trash a
|
||
| }
|
||
= ok
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs a, x
|
||
| trashes z, n
|
||
| {
|
||
| st a, x
|
||
| ld a, 0
|
||
| trash a
|
||
| }
|
||
? UnmeaningfulOutputError: a
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n
|
||
| {
|
||
| st a, x
|
||
| trash a
|
||
| st a, x
|
||
| }
|
||
? UnmeaningfulReadError: a
|
||
|
||
### if ###
|
||
|
||
Both blocks of an `if` are analyzed.
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| cmp a, 42
|
||
| if z {
|
||
| ld x, 7
|
||
| } else {
|
||
| ld x, 23
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
If a location is initialized in one block, is must be initialized in the other as well.
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| cmp a, 42
|
||
| if z {
|
||
| ld x, 7
|
||
| } else {
|
||
| ld a, 23
|
||
| }
|
||
| }
|
||
? InconsistentInitializationError: x
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| cmp a, 42
|
||
| if z {
|
||
| ld a, 6
|
||
| } else {
|
||
| ld x, 7
|
||
| }
|
||
| }
|
||
? InconsistentInitializationError: x
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| cmp a, 42
|
||
| if not z {
|
||
| ld a, 6
|
||
| } else {
|
||
| ld x, 7
|
||
| }
|
||
| }
|
||
? InconsistentInitializationError: x
|
||
|
||
However, this only pertains to initialization. If a value is already
|
||
initialized, either because it was set previous to the `if`, or is an
|
||
input to the routine, and it is initialized in one branch, it need not
|
||
be initialized in the other.
|
||
|
||
| routine foo
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| ld x, 0
|
||
| ld a, 0
|
||
| cmp a, 42
|
||
| if z {
|
||
| ld x, 7
|
||
| } else {
|
||
| ld a, 23
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
| routine foo
|
||
| inputs x
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| ld a, 0
|
||
| cmp a, 42
|
||
| if z {
|
||
| ld x, 7
|
||
| } else {
|
||
| ld a, 23
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
An `if` with a single block is analyzed as if it had an empty `else` block.
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| cmp a, 42
|
||
| if z {
|
||
| ld x, 7
|
||
| }
|
||
| }
|
||
? InconsistentInitializationError: x
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| ld x, 0
|
||
| cmp a, 42
|
||
| if z {
|
||
| ld x, 7
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
| routine foo
|
||
| inputs a
|
||
| outputs x
|
||
| trashes a, z, n, c
|
||
| {
|
||
| ld x, 0
|
||
| cmp a, 42
|
||
| if not z {
|
||
| ld x, 7
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
The cardinal rule for trashes in an `if` is the "union rule": if one branch
|
||
trashes {`a`} and the other branch trashes {`b`} then the whole `if` statement
|
||
trashes {`a`, `b`}.
|
||
|
||
| routine foo
|
||
| inputs a, x, z
|
||
| trashes a, x
|
||
| {
|
||
| if z {
|
||
| trash a
|
||
| } else {
|
||
| trash x
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
| routine foo
|
||
| inputs a, x, z
|
||
| trashes a
|
||
| {
|
||
| if z {
|
||
| trash a
|
||
| } else {
|
||
| trash x
|
||
| }
|
||
| }
|
||
? ForbiddenWriteError: x (in foo, line 10)
|
||
|
||
| routine foo
|
||
| inputs a, x, z
|
||
| trashes x
|
||
| {
|
||
| if z {
|
||
| trash a
|
||
| } else {
|
||
| trash x
|
||
| }
|
||
| }
|
||
? ForbiddenWriteError: a (in foo, line 10)
|
||
|
||
### repeat ###
|
||
|
||
Repeat loop.
|
||
|
||
| routine main
|
||
| outputs x, y, n, z, c
|
||
| {
|
||
| ld x, 0
|
||
| ld y, 15
|
||
| repeat {
|
||
| inc x
|
||
| inc y
|
||
| cmp x, 10
|
||
| } until z
|
||
| }
|
||
= ok
|
||
|
||
You can initialize something inside the loop that was uninitialized outside.
|
||
|
||
| routine main
|
||
| outputs x, y, n, z, c
|
||
| {
|
||
| ld x, 0
|
||
| repeat {
|
||
| ld y, 15
|
||
| inc x
|
||
| cmp x, 10
|
||
| } until z
|
||
| }
|
||
= ok
|
||
|
||
But you can't UNinitialize something at the end of the loop that you need
|
||
initialized at the start.
|
||
|
||
| routine foo
|
||
| trashes y
|
||
| {
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs x, y, n, z, c
|
||
| {
|
||
| ld x, 0
|
||
| ld y, 15
|
||
| repeat {
|
||
| inc x
|
||
| inc y
|
||
| call foo
|
||
| cmp x, 10
|
||
| } until z
|
||
| }
|
||
? UnmeaningfulReadError: y
|
||
|
||
And if you trash the test expression (i.e. `z` in the below) inside the loop,
|
||
this is an error too.
|
||
|
||
| word one : 0
|
||
| word two : 0
|
||
|
|
||
| routine main
|
||
| inputs one, two
|
||
| outputs two
|
||
| trashes a, z, n
|
||
| {
|
||
| repeat {
|
||
| copy one, two
|
||
| } until z
|
||
| }
|
||
? UnmeaningfulReadError: z
|
||
|
||
The body of `repeat forever` can be empty.
|
||
|
||
| routine main
|
||
| {
|
||
| repeat {
|
||
| } forever
|
||
| }
|
||
= ok
|
||
|
||
While `repeat` is most often used with `z`, it can also be used with `n`.
|
||
|
||
| routine main
|
||
| outputs y, n, z
|
||
| {
|
||
| ld y, 15
|
||
| repeat {
|
||
| dec y
|
||
| } until n
|
||
| }
|
||
= ok
|
||
|
||
### for ###
|
||
|
||
Basic "open-faced for" loop. We'll start with the "upto" variant.
|
||
|
||
In a "for" loop, we know the exact range the loop variable takes on.
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 0
|
||
| for x up to 15 {
|
||
| ld a, tab + x
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
| byte table[15] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 0
|
||
| for x up to 15 {
|
||
| ld a, tab + x
|
||
| }
|
||
| }
|
||
? RangeExceededError
|
||
|
||
You need to initialize the loop variable before the loop.
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| for x up to 15 {
|
||
| ld a, 0
|
||
| }
|
||
| }
|
||
? UnmeaningfulReadError
|
||
|
||
You cannot modify the loop variable in a "for" loop.
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 0
|
||
| for x up to 15 {
|
||
| ld x, 0
|
||
| }
|
||
| }
|
||
? ForbiddenWriteError
|
||
|
||
This includes nesting a loop on the same variable.
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 0
|
||
| for x up to 8 {
|
||
| for x up to 15 {
|
||
| ld a, 0
|
||
| }
|
||
| }
|
||
| }
|
||
? ForbiddenWriteError
|
||
|
||
But nesting with two different variables is okay.
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, y, c, z, v, n {
|
||
| ld x, 0
|
||
| for x up to 8 {
|
||
| ld a, x
|
||
| ld y, a
|
||
| for y up to 15 {
|
||
| ld a, 0
|
||
| }
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
Inside the inner loop, the outer variable is still not writeable.
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, y, c, z, v, n {
|
||
| ld x, 0
|
||
| for x up to 8 {
|
||
| ld a, x
|
||
| ld y, a
|
||
| for y up to 15 {
|
||
| ld x, 0
|
||
| }
|
||
| }
|
||
| }
|
||
? ForbiddenWriteError
|
||
|
||
If the range isn't known to be smaller than the final value, you can't go up to it.
|
||
|
||
| byte table[32] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 16
|
||
| for x up to 15 {
|
||
| ld a, tab + x
|
||
| }
|
||
| }
|
||
? RangeExceededError
|
||
|
||
In a "for" loop (downward-counting variant), we know the exact range the loop variable takes on.
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 15
|
||
| for x down to 0 {
|
||
| ld a, tab + x
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
| byte table[15] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 15
|
||
| for x down to 0 {
|
||
| ld a, tab + x
|
||
| }
|
||
| }
|
||
? RangeExceededError
|
||
|
||
You need to initialize the loop variable before a "for" loop (downward variant).
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| for x down to 15 {
|
||
| ld a, 0
|
||
| }
|
||
| }
|
||
? UnmeaningfulReadError
|
||
|
||
You cannot modify the loop variable in a "for" loop (downward variant).
|
||
|
||
| byte table[16] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 15
|
||
| for x down to 0 {
|
||
| ld x, 0
|
||
| }
|
||
| }
|
||
? ForbiddenWriteError
|
||
|
||
If the range isn't known to be larger than the final value, you can't go down to it.
|
||
|
||
| byte table[32] tab
|
||
|
|
||
| define foo routine inputs tab trashes a, x, c, z, v, n {
|
||
| ld x, 0
|
||
| for x down to 0 {
|
||
| ld a, tab + x
|
||
| }
|
||
| }
|
||
? RangeExceededError
|
||
|
||
You can initialize something inside the loop that was uninitialized outside.
|
||
|
||
| routine main
|
||
| outputs x, y, n, z
|
||
| trashes c
|
||
| {
|
||
| ld x, 0
|
||
| for x up to 15 {
|
||
| ld y, 15
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
But you can't UNinitialize something at the end of the loop that you need
|
||
initialized at the start of that loop.
|
||
|
||
| routine foo
|
||
| trashes y
|
||
| {
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs x, y, n, z
|
||
| trashes c
|
||
| {
|
||
| ld x, 0
|
||
| ld y, 15
|
||
| for x up to 15 {
|
||
| inc y
|
||
| call foo
|
||
| }
|
||
| }
|
||
? UnmeaningfulReadError: y
|
||
|
||
### save ###
|
||
|
||
Basic neutral test, where the `save` makes no difference.
|
||
|
||
| routine main
|
||
| inputs a, x
|
||
| outputs a, x
|
||
| trashes z, n
|
||
| {
|
||
| ld a, 1
|
||
| save x {
|
||
| ld a, 2
|
||
| }
|
||
| ld a, 3
|
||
| }
|
||
= ok
|
||
|
||
Saving any location (other than `a`) will trash `a`.
|
||
|
||
| routine main
|
||
| inputs a, x
|
||
| outputs a, x
|
||
| trashes z, n
|
||
| {
|
||
| ld a, 1
|
||
| save x {
|
||
| ld a, 2
|
||
| }
|
||
| }
|
||
? UnmeaningfulOutputError
|
||
|
||
Saving `a` does not trash anything.
|
||
|
||
| routine main
|
||
| inputs a, x
|
||
| outputs a, x
|
||
| trashes z, n
|
||
| {
|
||
| ld x, 1
|
||
| save a {
|
||
| ld x, 2
|
||
| }
|
||
| ld x, 3
|
||
| }
|
||
= ok
|
||
|
||
A defined value that has been saved can be trashed inside the block.
|
||
It will continue to be defined outside the block.
|
||
|
||
| routine main
|
||
| outputs x, y
|
||
| trashes a, z, n
|
||
| {
|
||
| ld x, 0
|
||
| save x {
|
||
| ld y, 0
|
||
| trash x
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
A trashed value that has been saved can be used inside the block.
|
||
It will continue to be trashed outside the block.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a, x
|
||
| trashes z, n
|
||
| {
|
||
| ld x, 0
|
||
| trash x
|
||
| save x {
|
||
| ld a, 0
|
||
| ld x, 1
|
||
| }
|
||
| }
|
||
? UnmeaningfulOutputError: x
|
||
|
||
A value which is not output from the routine, is preserved by the
|
||
routine; and can appear in a `save` exactly because a `save` preserves it.
|
||
|
||
| routine main
|
||
| outputs y
|
||
| trashes a, z, n
|
||
| {
|
||
| save x {
|
||
| ld y, 0
|
||
| ld x, 1
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
Because saving anything except `a` trashes `a`, a common idiom is to save `a`
|
||
first in a nested series of `save`s.
|
||
|
||
| routine main
|
||
| inputs a
|
||
| outputs a
|
||
| trashes z, n
|
||
| {
|
||
| save a {
|
||
| save x {
|
||
| ld a, 0
|
||
| ld x, 1
|
||
| }
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
### copy ###
|
||
|
||
Can't `copy` from a memory location that isn't initialized.
|
||
|
||
| byte lives
|
||
| routine main
|
||
| inputs x
|
||
| outputs lives
|
||
| trashes a, z, n
|
||
| {
|
||
| copy x, lives
|
||
| }
|
||
= ok
|
||
|
||
| byte lives
|
||
| routine main
|
||
| outputs lives
|
||
| trashes x, a, z, n
|
||
| {
|
||
| copy x, lives
|
||
| }
|
||
? UnmeaningfulReadError: x
|
||
|
||
Can't `copy` to a memory location that doesn't appear in (outputs ∪ trashes).
|
||
|
||
| byte lives
|
||
| routine main
|
||
| trashes lives, a, z, n
|
||
| {
|
||
| copy 0, lives
|
||
| }
|
||
= ok
|
||
|
||
| byte lives
|
||
| routine main
|
||
| outputs lives
|
||
| trashes a, z, n
|
||
| {
|
||
| copy 0, lives
|
||
| }
|
||
= ok
|
||
|
||
| byte lives
|
||
| routine main
|
||
| inputs lives
|
||
| trashes a, z, n
|
||
| {
|
||
| copy 0, lives
|
||
| }
|
||
? ForbiddenWriteError: lives
|
||
|
||
a, z, and n are trashed, and must be declared as such
|
||
|
||
| byte lives
|
||
| routine main
|
||
| outputs lives
|
||
| {
|
||
| copy 0, lives
|
||
| }
|
||
? ForbiddenWriteError: n
|
||
|
||
a, z, and n are trashed, and must not be declared as outputs.
|
||
|
||
| byte lives
|
||
| routine main
|
||
| outputs lives, a, z, n
|
||
| {
|
||
| copy 0, lives
|
||
| }
|
||
? UnmeaningfulOutputError: n
|
||
|
||
Unless of course you subsequently initialize them.
|
||
|
||
| byte lives
|
||
| routine main
|
||
| outputs lives, a, z, n
|
||
| {
|
||
| copy 0, lives
|
||
| ld a, 0
|
||
| }
|
||
= ok
|
||
|
||
Can `copy` from a `byte` to a `byte`.
|
||
|
||
| byte source : 0
|
||
| byte dest
|
||
|
|
||
| routine main
|
||
| inputs source
|
||
| outputs dest
|
||
| trashes a, z, n
|
||
| {
|
||
| copy source, dest
|
||
| }
|
||
= ok
|
||
|
||
The understanding is that, because `copy` trashes `a`, `a` cannot be used
|
||
as the destination of a `copy`.
|
||
|
||
| byte source : 0
|
||
| byte dest
|
||
|
|
||
| routine main
|
||
| inputs source
|
||
| outputs dest
|
||
| trashes a, z, n
|
||
| {
|
||
| copy source, a
|
||
| }
|
||
? ForbiddenWriteError
|
||
|
||
Can `copy` from a `word` to a `word`.
|
||
|
||
| word source : 0
|
||
| word dest
|
||
|
|
||
| routine main
|
||
| inputs source
|
||
| outputs dest
|
||
| trashes a, z, n
|
||
| {
|
||
| copy source, dest
|
||
| }
|
||
= ok
|
||
|
||
Can't `copy` from a `byte` to a `word`.
|
||
|
||
| byte source : 0
|
||
| word dest
|
||
|
|
||
| routine main
|
||
| inputs source
|
||
| outputs dest
|
||
| trashes a, z, n
|
||
| {
|
||
| copy source, dest
|
||
| }
|
||
? TypeMismatchError
|
||
|
||
Can't `copy` from a `word` to a `byte`.
|
||
|
||
| word source : 0
|
||
| byte dest
|
||
|
|
||
| routine main
|
||
| inputs source
|
||
| outputs dest
|
||
| trashes a, z, n
|
||
| {
|
||
| copy source, dest
|
||
| }
|
||
? TypeMismatchError
|
||
|
||
### Buffers and pointers ###
|
||
|
||
Note that `^buf` is a constant value, so it by itself does not require `buf` to be
|
||
listed in any input/output sets.
|
||
|
||
However, if the code reads from it through a pointer, it *should* be in `inputs`.
|
||
|
||
Likewise, if the code writes to it through a pointer, it *should* be in `outputs`.
|
||
|
||
Of course, unless you write to *all* the bytes in a buffer, some of those bytes
|
||
might not be meaningful. So how meaningful is this check?
|
||
|
||
This is an open problem.
|
||
|
||
For now, convention says: if it is being read, list it in `inputs`, and if it is
|
||
being modified, list it in both `inputs` and `outputs`.
|
||
|
||
Write literal through a pointer.
|
||
|
||
| buffer[2048] buf
|
||
| pointer ptr
|
||
|
|
||
| routine main
|
||
| inputs buf
|
||
| outputs y, buf
|
||
| trashes a, z, n, ptr
|
||
| {
|
||
| ld y, 0
|
||
| copy ^buf, ptr
|
||
| copy 123, [ptr] + y
|
||
| }
|
||
= ok
|
||
|
||
It does use `y`.
|
||
|
||
| buffer[2048] buf
|
||
| pointer ptr
|
||
|
|
||
| routine main
|
||
| inputs buf
|
||
| outputs buf
|
||
| trashes a, z, n, ptr
|
||
| {
|
||
| copy ^buf, ptr
|
||
| copy 123, [ptr] + y
|
||
| }
|
||
? UnmeaningfulReadError
|
||
|
||
Write stored value through a pointer.
|
||
|
||
| buffer[2048] buf
|
||
| pointer ptr
|
||
| byte foo
|
||
|
|
||
| routine main
|
||
| inputs foo, buf
|
||
| outputs y, buf
|
||
| trashes a, z, n, ptr
|
||
| {
|
||
| ld y, 0
|
||
| copy ^buf, ptr
|
||
| copy foo, [ptr] + y
|
||
| }
|
||
= ok
|
||
|
||
Read through a pointer.
|
||
|
||
| buffer[2048] buf
|
||
| pointer ptr
|
||
| byte foo
|
||
|
|
||
| routine main
|
||
| inputs buf
|
||
| outputs foo
|
||
| trashes a, y, z, n, ptr
|
||
| {
|
||
| ld y, 0
|
||
| copy ^buf, ptr
|
||
| copy [ptr] + y, foo
|
||
| }
|
||
= ok
|
||
|
||
Read and write through two pointers.
|
||
|
||
| buffer[2048] buf
|
||
| pointer ptra
|
||
| pointer ptrb
|
||
|
|
||
| routine main
|
||
| inputs buf
|
||
| outputs buf
|
||
| trashes a, y, z, n, ptra, ptrb
|
||
| {
|
||
| ld y, 0
|
||
| copy ^buf, ptra
|
||
| copy ^buf, ptrb
|
||
| copy [ptra] + y, [ptrb] + y
|
||
| }
|
||
= ok
|
||
|
||
Read through a pointer to the `a` register. Note that this is done with `ld`,
|
||
not `copy`.
|
||
|
||
| buffer[2048] buf
|
||
| pointer ptr
|
||
| byte foo
|
||
|
|
||
| routine main
|
||
| inputs buf
|
||
| outputs a
|
||
| trashes y, z, n, ptr
|
||
| {
|
||
| ld y, 0
|
||
| copy ^buf, ptr
|
||
| ld a, [ptr] + y
|
||
| }
|
||
= ok
|
||
|
||
Write the `a` register through a pointer. Note that this is done with `st`,
|
||
not `copy`.
|
||
|
||
| buffer[2048] buf
|
||
| pointer ptr
|
||
| byte foo
|
||
|
|
||
| routine main
|
||
| inputs buf
|
||
| outputs buf
|
||
| trashes a, y, z, n, ptr
|
||
| {
|
||
| ld y, 0
|
||
| copy ^buf, ptr
|
||
| ld a, 255
|
||
| st a, [ptr] + y
|
||
| }
|
||
= ok
|
||
|
||
### routines ###
|
||
|
||
Routines are constants. You need not, and in fact cannot, specify a constant
|
||
as an input to, an output of, or as a trashed value of a routine.
|
||
|
||
| vector routine
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| }
|
||
|
|
||
| routine main
|
||
| inputs foo
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
? ConstantConstraintError: foo
|
||
|
||
| vector routine
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec, foo
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
? ConstantConstraintError: foo
|
||
|
||
| vector routine
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n, foo
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
? ConstantConstraintError: foo
|
||
|
||
#### routine-vector type compatibility
|
||
|
||
You can copy the address of a routine into a vector, if that vector type
|
||
is at least as "wide" as the type of the routine. More specifically,
|
||
|
||
- the vector must take _exactly_ the same inputs as the routine
|
||
- the vector must make _exactly_ the same outputs as the routine
|
||
- the vector must trash _at least_ what the routine trashes
|
||
|
||
If the vector and the routine have the very same signature, that's not an error.
|
||
|
||
| vector routine
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| inc y
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
= ok
|
||
|
||
If the vector takes an input that the routine doesn't take, that's not an error.
|
||
(The interface requires that a parameter be specified before calling, but the
|
||
implementation doesn't actually read it.)
|
||
|
||
| vector routine
|
||
| inputs x, y, a
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| inc y
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
= ok
|
||
|
||
If the vector fails to take an input that the routine takes, that's an error.
|
||
|
||
| vector routine
|
||
| inputs x
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| inc y
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
? IncompatibleConstraintsError
|
||
|
||
If the vector produces an output that the routine doesn't produce, that's not an error.
|
||
(The interface claims the result of calling the routine is defined, but the implementation
|
||
actually preserves it instead of changing it; the caller can still treat it as a defined
|
||
output.)
|
||
|
||
| vector routine
|
||
| inputs x, y
|
||
| outputs x, y, a
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| inc y
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
= ok
|
||
|
||
If the vector fails to produce an output that the routine produces, that's an error.
|
||
|
||
| vector routine
|
||
| inputs x, y
|
||
| outputs x
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| inc y
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
? IncompatibleConstraintsError
|
||
|
||
If the vector fails to trash something the routine trashes, that's an error.
|
||
|
||
| vector routine
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| inc y
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
? IncompatibleConstraintsError
|
||
|
||
If the vector trashes something the routine doesn't trash, that's not an error.
|
||
(The implementation preserves something the interface doesn't guarantee is
|
||
preserved. The caller gets no guarantee that it's preserved. It actually is,
|
||
but it doesn't know that.)
|
||
|
||
| vector routine
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes a, z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x, y
|
||
| outputs x, y
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| inc y
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
= ok
|
||
|
||
#### other properties of routines
|
||
|
||
Routines are read-only.
|
||
|
||
| vector routine
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| vec
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy vec, foo
|
||
| }
|
||
? TypeMismatchError
|
||
|
||
Indirect call.
|
||
|
||
| vector routine
|
||
| outputs x trashes z, n
|
||
| foo
|
||
|
|
||
| routine bar outputs x trashes z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main outputs x, foo trashes a, z, n {
|
||
| copy bar, foo
|
||
| call foo
|
||
| }
|
||
= ok
|
||
|
||
Calling the vector does indeed trash the things the vector says it does.
|
||
|
||
| vector routine trashes x, z, n foo
|
||
|
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main outputs x, foo trashes z, n {
|
||
| ld x, 0
|
||
| copy bar, foo
|
||
| call foo
|
||
| }
|
||
? UnmeaningfulOutputError: x
|
||
|
||
`goto`, if present, must be in tail position (the final instruction in a routine.)
|
||
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| ld x, 0
|
||
| goto bar
|
||
| }
|
||
= ok
|
||
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| goto bar
|
||
| ld x, 0
|
||
| }
|
||
? IllegalJumpError
|
||
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| ld x, 0
|
||
| if z {
|
||
| ld x, 1
|
||
| goto bar
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| ld x, 0
|
||
| if z {
|
||
| ld x, 1
|
||
| goto bar
|
||
| }
|
||
| ld x, 0
|
||
| }
|
||
? IllegalJumpError
|
||
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| ld x, 0
|
||
| if z {
|
||
| ld x, 1
|
||
| goto bar
|
||
| } else {
|
||
| ld x, 0
|
||
| goto bar
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| ld x, 0
|
||
| if z {
|
||
| ld x, 1
|
||
| goto bar
|
||
| } else {
|
||
| ld x, 0
|
||
| }
|
||
| }
|
||
= ok
|
||
|
||
For the purposes of `goto`, the end of a loop is never tail position.
|
||
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| ld x, 0
|
||
| repeat {
|
||
| inc x
|
||
| goto bar
|
||
| } until z
|
||
| }
|
||
? IllegalJumpError
|
||
|
||
Can't `goto` a routine that outputs or trashes more than the current routine.
|
||
|
||
| routine bar trashes x, y, z, n {
|
||
| ld x, 200
|
||
| ld y, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| ld x, 0
|
||
| goto bar
|
||
| }
|
||
? IncompatibleConstraintsError
|
||
|
||
| routine bar outputs y trashes z, n {
|
||
| ld y, 200
|
||
| }
|
||
|
|
||
| routine main trashes x, z, n {
|
||
| ld x, 0
|
||
| goto bar
|
||
| }
|
||
? IncompatibleConstraintsError
|
||
|
||
Can `goto` a routine that outputs or trashes less than the current routine.
|
||
|
||
| routine bar trashes x, z, n {
|
||
| ld x, 1
|
||
| }
|
||
|
|
||
| routine main trashes a, x, z, n {
|
||
| ld a, 0
|
||
| ld x, 0
|
||
| goto bar
|
||
| }
|
||
= ok
|
||
|
||
Indirect goto.
|
||
|
||
| vector routine outputs x trashes a, z, n foo
|
||
|
|
||
| routine bar outputs x trashes a, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main outputs x trashes foo, a, z, n {
|
||
| copy bar, foo
|
||
| goto foo
|
||
| }
|
||
= ok
|
||
|
||
Jumping through the vector does indeed trash, or output, the things the
|
||
vector says it does.
|
||
|
||
| vector routine
|
||
| trashes a, x, z, n
|
||
| foo
|
||
|
|
||
| routine bar
|
||
| trashes a, x, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine sub
|
||
| trashes foo, a, x, z, n {
|
||
| ld x, 0
|
||
| copy bar, foo
|
||
| goto foo
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs a
|
||
| trashes foo, x, z, n {
|
||
| call sub
|
||
| ld a, x
|
||
| }
|
||
? UnmeaningfulReadError: x
|
||
|
||
| vector routine
|
||
| outputs x
|
||
| trashes a, z, n foo
|
||
|
|
||
| routine bar
|
||
| outputs x
|
||
| trashes a, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine sub
|
||
| outputs x
|
||
| trashes foo, a, z, n {
|
||
| ld x, 0
|
||
| copy bar, foo
|
||
| goto foo
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs a
|
||
| trashes foo, x, z, n {
|
||
| call sub
|
||
| ld a, x
|
||
| }
|
||
= ok
|
||
|
||
### vector tables ###
|
||
|
||
A vector can be copied into a vector table.
|
||
|
||
| vector routine
|
||
| outputs x
|
||
| trashes a, z, n
|
||
| one
|
||
| vector (routine
|
||
| outputs x
|
||
| trashes a, z, n)
|
||
| table[256] many
|
||
|
|
||
| routine bar outputs x trashes a, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main
|
||
| inputs one, many
|
||
| outputs one, many
|
||
| trashes a, x, n, z
|
||
| {
|
||
| ld x, 0
|
||
| copy bar, one
|
||
| copy one, many + x
|
||
| }
|
||
= ok
|
||
|
||
A vector can be copied out of a vector table.
|
||
|
||
| vector routine
|
||
| outputs x
|
||
| trashes a, z, n
|
||
| one
|
||
| vector (routine
|
||
| outputs x
|
||
| trashes a, z, n)
|
||
| table[256] many
|
||
|
|
||
| routine bar outputs x trashes a, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main
|
||
| inputs one, many
|
||
| outputs one, many
|
||
| trashes a, x, n, z
|
||
| {
|
||
| ld x, 0
|
||
| copy many + x, one
|
||
| call one
|
||
| }
|
||
= ok
|
||
|
||
A routine can be copied into a vector table.
|
||
|
||
| vector (routine
|
||
| outputs x
|
||
| trashes a, z, n)
|
||
| table[256] many
|
||
|
|
||
| routine bar outputs x trashes a, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main
|
||
| inputs many
|
||
| outputs many
|
||
| trashes a, x, n, z
|
||
| {
|
||
| ld x, 0
|
||
| copy bar, many + x
|
||
| }
|
||
= ok
|
||
|
||
A vector in a vector table cannot be directly called.
|
||
|
||
| vector (routine
|
||
| outputs x
|
||
| trashes a, z, n)
|
||
| table[256] many
|
||
|
|
||
| routine bar outputs x trashes a, z, n {
|
||
| ld x, 200
|
||
| }
|
||
|
|
||
| routine main
|
||
| inputs many
|
||
| outputs many
|
||
| trashes a, x, n, z
|
||
| {
|
||
| ld x, 0
|
||
| copy bar, many + x
|
||
| call many + x
|
||
| }
|
||
? SyntaxError
|
||
|
||
### typedef ###
|
||
|
||
A typedef is a more-readable alias for a type. "Alias" means
|
||
that types have structural equivalence, not name equivalence.
|
||
|
||
| typedef routine
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| routine_type
|
||
|
|
||
| vector routine_type vec
|
||
|
|
||
| routine foo
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| {
|
||
| inc x
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
= ok
|
||
|
||
The new style routine definitions support typedefs.
|
||
|
||
| typedef routine
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| routine_type
|
||
|
|
||
| vector routine_type vec
|
||
|
|
||
| define foo routine_type
|
||
| {
|
||
| inc x
|
||
| }
|
||
|
|
||
| routine main
|
||
| outputs vec
|
||
| trashes a, z, n
|
||
| {
|
||
| copy foo, vec
|
||
| }
|
||
= ok
|
||
|
||
### static ###
|
||
|
||
When memory locations are defined static to a routine, they cannot be
|
||
directly input, nor directly output; and since they are always initialized,
|
||
they cannot be trashed. Thus, they really don't participate in the analysis.
|
||
|
||
| define foo routine
|
||
| inputs x
|
||
| outputs x
|
||
| trashes z, n
|
||
| static byte t : 0
|
||
| {
|
||
| st x, t
|
||
| inc t
|
||
| ld x, t
|
||
| }
|
||
|
|
||
| define main routine
|
||
| trashes a, x, z, n
|
||
| static byte t : 0
|
||
| {
|
||
| ld x, t
|
||
| call foo
|
||
| }
|
||
= ok
|