/usr/share/calc/help/protect is in apcalc-common 2.12.5.0-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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protect - read or adjust protect status for a variable or named block
SYNOPSIS
protect(var [, N [, depth])
protect(nblk [, N [, depth]])
TYPES
var lvalue
nblk named block
N integer, abs(N) < 65536
depth nonnegative integer
return null value
DESCRIPTION
The protection status of the association of an lvalue A with
its value is represented by a nonnegative integer less than 2^16.
The current value sts of this status is returned by protect(A).
Each nonzero bit of the low eight bits of sts corresponds to a
builtin kind of protection as follows:
bit value protection
1 no assign to A
2 no change of A by assignment
4 no change of type value of A
8 no error value for A
16 no copy to A
32 no relocation for A or its elements
64 no assign from A
128 no copy from A
For example, A having protection status 65 = 1 + 64 prevents
execution of assignments of the forms A = expression and V = A
where V is an lvalue. Attempting either of these assignments
will return an error value and leave the value of A or V unchanged.
Initally, when created, any lvalue A has zero status corresponding
to "no protection". This may be restored at any time by protect(A, 0).
If N is positive and A does not already have the protection
corresponding to a nonzero bit of N, protect(A, N) adds that
protection to the status of A. For example, if protect(A) is 65,
protect(A, 17) will add the no-copy-to protection so that the
new protection status of A will be 81 = 1 + 16 + 64.
Similarly, if N is negative and A has the protection corresponding
to a nonzero bit of abs(N), protect(A,N) will remove that kind of
protection. For example if protect(A) = 65, then protect(A, -17)
will remove the no-assign-to protection and the new value of
protect(A) will be 64. Note that protect(A, -65535) has the same
effect as protect(A, 0).
For the purposes of this function, the depth of a global or local
variable is zero; if A has depth d and the value of A is a list,
matrix, object or association, its elements have depth d + 1.
For example, after:
; obj point {x,y}
; X = mat[3] = {1, list(2,3), mat[2] = {obj point, obj point} }
X has depth 0; X[0], X[1] and X[2] have depth 1; X[1][0], X[1][1],
X[2][0] and X[2][1] have depth 2; X[2][0].x, X[2][0].y, X[2][1].x
and X[2][1].y have depth 3. For any lvalue A, protect(A, N, depth)
applies protect(A, N) to A and to all elements, elements of
elements, etc., up tothe stated depth. In the above example,
protect(X, 20, 2) gives no-type-change and no-copy-to protection
to 8 of the listed lvalues, but not to the components of the
objects X[2][0] and X[2][1]; With any d >= 3, protect(X, 20, d)
would give that protection the 12 listed lvalues.
If B is a variable with positive status and assignment of B to A is
permitted, execution of the assignment A = B adds to the protections
of A all protections of B that A does not already have. Except when
the value returned is the result of the evqluation of an lvalue with
positive status, calc's builtin operators and functions return values
with zero protection status. For example, whatever the protection
statuses of X and Y, X + sqrt(Y) will have zero status, but
t ? X : Y may have nonzero status. The list, matrix, object or
association returned by the use of list, mat, obj or assoc will have
zero status, but any element specified by an lvalue will receive
its status; e.g. after L = list(X, X^2) , protect(L[0]) equals
protect(X) and both protect(L) and protect(L[1]) are zero.
Users may define functions that return values with positive status, e.g.
; define noassigntovalue(x) {protect(x,1); return x};
; S = noassigntovalue(42);
will result in S having the value 42 and no-assign-to protection.
By using a backquote with a variable as argument, an even simpler
function:
; define noassignto(x) = protect(x, 1);
gives no-assign-to protection to the variable; i.e. noassignto(`A)
achieves the same as protect(A,1).
In the brief descriptions above of builtin kinds of protectiopn,
"assign" refers to use of '=' as in A = expr to assign the value
of expr to A, and in A = {..., expr, ...} to assign the value of expr
to some component of A, and to the assignments implicit in
quomod(x, y, A, B), and pre or post ++ or --. Swapping of lvalues is
prevented if either value has no-assign-to or no-assign-from
protection. (Swapping of octets is prevented if at least one of
them is in a string or block with no-copy-to or no-copy-from
protection.)
"Copying" refers to initialization using {...} and to the operations
copy and blkcpy as applied to strings, blocks, lists and matrices.
Although A = {..., expr, ...) assigns the value of expr to an
elment of A, it is also regarded as copying to A. Thus, initialization
of A may be prevented either by giving no-copy-to protection to A or
no-assignment=to protection to the elements of A. Assignments to and
from characters or octets in strings or blocks are also regarded as
copying to or from the string or block. For example, after
A = "abc", protect(A,16) would prevent the assignment A[0] = 'x'.
(Note that in this example, A[0] is not an lvalue in the sense
normally understood - the only values it can have are nonnegative
integers less than 256. The only kinds of protection relevant to an
octet are the no-copy-to, no-copy-from and no-change protections of
the string or block in which the octet resides.)
The no-relocate protection applies to lists and blocks. For lists,
it refers to the operations push, pop, append, remove, insert and
delete. For example, if A = list(2,3,5,7), protect(A, 32) will
prevent any change in the content or size of the list.
No-relocation protection of a block prevents reallocation of the
memory used by a block and the freeing of a named block, For example,
if a block B has maxsize 256, then after:
; protect(B, 32);
copy(A, B) will fail if the copying would cause size(B) to equal or
exceed 256; if B is a named block, blkfree(B) will not be permitted.
The elements of the list returned by list(...) will initially have zero
protection status except when an argument is an lvalue with positive
status, in which case the corresponding element will receive that
status. E.g., L = list(A,B) will result in L[0] having status
protect(A) and L[1] having status protect(B). L itself will have
the status L had before the assignment. There is a similar copying
of protection status when "= { ... }" initialization is used for
matrices, lists or objects. For example, except when A or B has
no-assign-from protection, M = mat [2] = {A,B} or mat M[2] = {A,B}
will result in M[0] and M[1] having statuses protect(A) and
protect(B) respectively. (If A or B has no-assign-from protection,
mat[2] = {A,B} returns an error value.)
Although M = mat[2] = {...} and mat M[2] = {...} do the same thing,
these are different from (M = mat[2]) = {...} and (mat M[3]) = {...}.
In the former pair of statements, the result of mat[2] = {...} is being
assigned to M. In the latter statments, a matrix with zero elements is
being assigned to M and then that matrix is being "reinitialized". Both
will fail if M has no-asssign-to protection, but only the latter
would be prevented by M having no-copy-to protection.
When the functions which mave move elements like of sort, reverse,
swap, insert, pop, remove, push and append. are evaluated, the
protection statuses move with the values, e.g. if among the values
and elements involved, there is just one with value 42, then the
lvalue to which the value 42 is moved will get the status the lvalue
with value 42 had before the evaluation of the function. This is
relevant to evaluation of expressions like A = sort(A),
append(A, pop(A)), insert(A,2,B,C). Note that when pop(A) is first
evaluated it is located on the stack calc uses for calculating
expressions rather than being the value of an lvalue. With an
explicit assignment like X = pop(A) or the implied assignment in
append(A, pop(A)), it becomes the value of an lvalue.
Users may use higher bits values for other kinds of protection or
simply to store information about an lvalue and its current value.
For example 1024 might be used to indicate that the lvalue is always
to have positive value. Then code for evaluating a function might
include lines like
; if (protect(A) & 1024 && B <= 0) {
;; return newerror("Prohibited assignment");
;; }
; A = B;
When an operation forbidden by a particular bit in the protection
status of A is attempted, an error value is created but unless this
causes errcount to exceed errmax, the only immediate evidence
for the error might be the incrementing of errcount. Sometimes the
failure causes the return of the error value; e.g. swap(A,B) if
not permitted returns an appropriate error value rather than the
null value. If the value of A is a number and A has no-type-change
protection, A = "abc" returns an error value. The error-number of
the most recent error value is returned by errno(), a string
describing it by strerror().
A named block may be referred to by using the blocks() or blk()
functions, or by assigning it to a variable A and then using either
A or *A. In the latter cases, protect(A, sts) sets the status for
the variable A; protect(*A, sts) assigns the status for the named
block. For example, protect(*A,16) will prevent any copying to the
named block; protect(A,16) will prevent any copying to the named block
only when it is referred to by A.
EXAMPLE
; A = 27
; protect(A,1)
; A = 45
; A
27
; strerror()
"No-assign-to destination for assign"
; protect(A,64)
; protect(A)
65
; X = A
; X
0
; strerror()
"No-assign-from source for assign"
; protect(A,-1)
; protect(A)
64
; protect(A,4)
; protect(A)
68
; A = "abc"
; A
27
; strerror()
"No-type-change destination for assign"
; B = 45
; swap(A,B)
Error 10372
; strerror()
"No-assign-to-or-from argument for swap"
; protect(A,-64)
; protect(A)
4
; swap(A,B)
; A
45
; B
27
; A = mat[4] = {1,2,3,4}
; B = list(5,6,7,8)
; protect(A,16)
; copy(B,A)
Error 10226
; strerror()
"No-copy-to destination variable"
; A = list(1,2,3)
; protect(A,32)
; append(A,4)
Error 10402
; strerror()
"No-relocate for list append"
; A = blk(0,5)
; copy("abc", A)
; copy("de",A)
Error 10229
; strerror()
"No-relocate destination variable"
; A = blk("alpha") = {1,2,3,4,5}
; protect(A,0)
; protect(*A, 16)
; copy("abc", A)
Error 10228
; strerror()
"No-copy-to destination named block"
LIMITS
none
LINK LIBRARY
none
SEE ALSO
assign, copy, blk, error, errno, strerror
## Copyright (C) 1999-2006 Landon Curt Noll
##
## Calc is open software; you can redistribute it and/or modify it under
## the terms of the version 2.1 of the GNU Lesser General Public License
## as published by the Free Software Foundation.
##
## Calc is distributed in the hope that it will be useful, but WITHOUT
## ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
## or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General
## Public License for more details.
##
## A copy of version 2.1 of the GNU Lesser General Public License is
## distributed with calc under the filename COPYING-LGPL. You should have
## received a copy with calc; if not, write to Free Software Foundation, Inc.
## 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
##
## @(#) $Revision: 30.1 $
## @(#) $Id: protect,v 30.1 2007/03/16 11:10:42 chongo Exp $
## @(#) $Source: /usr/local/src/bin/calc/help/RCS/protect,v $
##
## Under source code control: 1997/07/10 22:38:44
## File existed as early as: 1997
##
## chongo <was here> /\oo/\ http://www.isthe.com/chongo/
## Share and enjoy! :-) http://www.isthe.com/chongo/tech/comp/calc/
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