42 KiB
SixtyPical Analysis
This is a test suite, written in Falderal format, for the SixtyPical static analysis rules.
-> Functionality "Analyze SixtyPical program" is implemented by
-> shell command "bin/sixtypical --analyze-only --traceback %(test-body-file) && echo ok"
-> Tests for functionality "Analyze SixtyPical program"
Rudiments
Routines must declare their inputs, outputs, and memory locations they trash.
| routine up
| inputs a
| outputs a
| trashes c, z, v, n
| {
| st off, c
| add a, 1
| }
= ok
Routines may not declare a memory location to be both an output and trashed.
| routine main
| outputs a
| trashes a
| {
| ld a, 0
| }
? InconsistentConstraintsError: a
If a routine declares it outputs a location, that location should be initialized.
| routine main
| outputs a, x, z, n
| {
| ld x, 0
| }
? UnmeaningfulOutputError: a
| routine main
| inputs a
| outputs a
| {
| }
= ok
If a routine declares it outputs a location, that location may or may not have been initialized. Trashing is mainly a signal to the caller.
| routine main
| trashes x, z, n
| {
| ld x, 0
| }
= ok
| routine main
| trashes x, z, n
| {
| }
= ok
If a routine modifies a location, it needs to either output it or trash it.
| routine main
| {
| ld x, 0
| }
? ForbiddenWriteError: x
| routine main
| outputs x, z, n
| {
| ld x, 0
| }
= ok
| routine main
| trashes x, z, n
| {
| ld x, 0
| }
= ok
This is true regardless of whether it's an input or not.
| routine main
| inputs x
| {
| ld x, 0
| }
? ForbiddenWriteError: x
| routine main
| inputs x
| outputs x, z, n
| {
| ld x, 0
| }
= ok
| routine main
| inputs x
| trashes x, z, n
| {
| ld x, 0
| }
= ok
If a routine trashes a location, this must be declared.
| routine foo
| trashes x
| {
| trash x
| }
= ok
| routine foo
| {
| trash x
| }
? ForbiddenWriteError: x
| routine foo
| outputs x
| {
| trash x
| }
? UnmeaningfulOutputError: x
If a routine causes a location to be trashed, this must be declared in the caller.
| routine trash_x
| trashes x, z, n
| {
| ld x, 0
| }
|
| routine foo
| trashes x, z, n
| {
| call trash_x
| }
= ok
| routine trash_x
| trashes x, z, n
| {
| ld x, 0
| }
|
| routine foo
| trashes z, n
| {
| call trash_x
| }
? ForbiddenWriteError: x
| routine trash_x
| trashes x, z, n
| {
| ld x, 0
| }
|
| routine foo
| outputs x
| trashes z, n
| {
| call trash_x
| }
? UnmeaningfulOutputError: x (in foo, line 12)
If a routine reads or writes a user-define memory location, it needs to declare that too.
| byte b1 @ 60000
| byte b2 : 3
| word w1 @ 60001
| word w2 : 2000
|
| routine main
| inputs b1, w1
| outputs b2, w2
| trashes a, z, n
| {
| ld a, b1
| st a, b2
| copy w1, w2
| }
= ok
ld
Can't ld
from a memory location that isn't initialized.
| routine main
| inputs a, x
| trashes a, z, n
| {
| ld a, x
| }
= ok
| routine main
| inputs a
| trashes a
| {
| ld a, x
| }
? UnmeaningfulReadError: x
Can't ld
to a memory location that doesn't appear in (outputs ∪ trashes).
| routine main
| trashes a, z, n
| {
| ld a, 0
| }
= ok
| routine main
| outputs a
| trashes z, n
| {
| ld a, 0
| }
= ok
| routine main
| outputs z, n
| trashes a
| {
| ld a, 0
| }
= ok
| routine main
| trashes z, n
| {
| ld a, 0
| }
? ForbiddenWriteError: a
| routine main
| trashes a, n
| {
| ld a, 0
| }
? ForbiddenWriteError: z
Can't ld
a word
type.
| word foo
|
| routine main
| inputs foo
| trashes a, n, z
| {
| ld a, foo
| }
? TypeMismatchError: foo and a
st
Can't st
from a memory location that isn't initialized.
| byte lives
| routine main
| inputs x
| trashes lives
| {
| st x, lives
| }
= ok
| byte lives
| routine main
| trashes x, lives
| {
| st x, lives
| }
? UnmeaningfulReadError: x
Can't st
to a memory location that doesn't appear in (outputs ∪ trashes).
| byte lives
| routine main
| trashes lives
| {
| st 0, lives
| }
= ok
| byte lives
| routine main
| outputs lives
| {
| st 0, lives
| }
= ok
| byte lives
| routine main
| inputs lives
| {
| st 0, lives
| }
? ForbiddenWriteError: lives
Can't st
a word
type.
| word foo
|
| routine main
| outputs foo
| trashes a, n, z
| {
| ld a, 0
| st a, foo
| }
? TypeMismatchError
tables
Storing to a table, you must use an index.
| byte one
| byte table[256] many
|
| routine main
| outputs one
| trashes a, x, n, z
| {
| ld x, 0
| ld a, 0
| st a, one
| }
= ok
| byte one
| byte table[256] many
|
| routine main
| outputs many
| trashes a, x, n, z
| {
| ld x, 0
| ld a, 0
| st a, many
| }
? TypeMismatchError
| byte one
| byte table[256] many
|
| routine main
| outputs one
| trashes a, x, n, z
| {
| ld x, 0
| ld a, 0
| st a, one + x
| }
? TypeMismatchError
| byte one
| byte table[256] many
|
| routine main
| outputs many
| trashes a, x, n, z
| {
| ld x, 0
| ld a, 0
| st a, many + x
| }
= ok
The index must be initialized.
| byte one
| byte table[256] many
|
| routine main
| outputs many
| trashes a, x, n, z
| {
| ld a, 0
| st a, many + x
| }
? UnmeaningfulReadError: x
Reading from a table, you must use an index.
| byte one
|
| routine main
| outputs one
| trashes a, x, n, z
| {
| ld x, 0
| st x, one
| ld a, one
| }
= ok
| byte one
|
| routine main
| outputs one
| trashes a, x, n, z
| {
| ld x, 0
| st x, one
| ld a, one + x
| }
? TypeMismatchError
| byte table[256] many
|
| routine main
| outputs many
| trashes a, x, n, z
| {
| ld x, 0
| ld a, 0
| st a, many + x
| ld a, many
| }
? TypeMismatchError
| byte table[256] many
|
| routine main
| outputs many
| trashes a, x, n, z
| {
| ld x, 0
| ld a, 0
| st a, many + x
| ld a, many + x
| }
= ok
| byte table[256] many
|
| routine main
| inputs many
| outputs many
| trashes a, x, n, z
| {
| ld x, 0
| ld a, many + x
| }
= ok
The index must be initialized.
| byte table[256] many
|
| routine main
| inputs many
| outputs many
| trashes a, x, n, z
| {
| ld a, many + x
| }
? UnmeaningfulReadError: x
Copying to and from a word table.
| word one
| word table[256] many
|
| routine main
| inputs one, many
| outputs one, many
| trashes a, x, n, z
| {
| ld x, 0
| copy one, many + x
| copy many + x, one
| }
= ok
| word one
| word table[256] many
|
| routine main
| inputs one, many
| outputs one, many
| trashes a, x, n, z
| {
| ld x, 0
| copy one, many
| }
? TypeMismatchError
| word one
| word table[256] many
|
| routine main
| inputs one, many
| outputs one, many
| trashes a, x, n, z
| {
| ld x, 0
| copy one + x, many
| }
? TypeMismatchError
You can also copy a literal word to a word table. (Even if the table has fewer than 256 entries.)
| word table[32] many
|
| routine main
| inputs many
| outputs many
| trashes a, x, n, z
| {
| ld x, 0
| copy 9999, many + x
| }
= ok
tables: range checking
It is a static analysis error if it cannot be proven that a read or write to a table falls within the defined size of that table.
(If a table has 256 entries, then there is never a problem, because a byte cannot index any entry outside of 0..255.)
A SixtyPical implementation must be able to prove that the index is inside the range of the table in various ways. The simplest is to show that a constant value falls inside or outside the range of the table.
| byte table[32] many
|
| routine main
| inputs many
| outputs many
| trashes a, x, n, z
| {
| ld x, 31
| ld a, many + x
| st a, many + x
| }
= ok
| byte table[32] many
|
| routine main
| inputs many
| outputs many
| trashes a, x, n, z
| {
| ld x, 32
| ld a, many + x
| }
? RangeExceededError
| byte table[32] many
|
| routine main
| inputs many
| outputs many
| trashes a, x, n, z
| {
| 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
Writing unit tests on a train. Wow.
| 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
Writing unit tests on a train. Wow.
| 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.
| routine main
| inputs a, c
| outputs a, c, z, n
| {
| shl a
| }
= 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.
| routine main
| inputs a, c
| outputs a, c, z, n
| {
| shr a
| }
= 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
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
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 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
You can copy the address of a routine into a vector, if that vector is declared appropriately.
| 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 foo, vec
| }
= ok
But not if the vector is declared inappropriately.
| vector routine
| inputs y
| outputs y
| trashes z, n
| vec
|
| routine foo
| inputs x
| outputs x
| trashes z, n
| {
| inc x
| }
|
| routine main
| outputs vec
| trashes a, z, n
| {
| copy foo, vec
| }
? IncompatibleConstraintsError
"Appropriately" means, if the routine affects no more than what is named in the input/output sets of the vector.
| vector routine
| inputs a, x
| outputs x
| trashes a, z, n
| vec
|
| routine foo
| inputs x
| outputs x
| trashes z, n
| {
| inc x
| }
|
| routine main
| outputs vec
| trashes a, z, n
| {
| copy foo, vec
| }
= ok
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
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