2063 lines
99 KiB
Scheme
2063 lines
99 KiB
Scheme
;;; Copyright 1984-2017 Cisco Systems, Inc.
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;;;
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;;; Licensed under the Apache License, Version 2.0 (the "License");
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;;; you may not use this file except in compliance with the License.
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;;; You may obtain a copy of the License at
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;;;
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;;; http://www.apache.org/licenses/LICENSE-2.0
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;;;
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;;; Unless required by applicable law or agreed to in writing, software
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;;; distributed under the License is distributed on an "AS IS" BASIS,
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;;; WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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;;; See the License for the specific language governing permissions and
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;;; limitations under the License.
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#|
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todo:
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- consider adding uid form, with warnings if nested ftypes do not
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also have uid forms...need to check ftd generative? flag.
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alternatively, consider implementing textual ftype equality.
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would need some sort of union-find algorithm and a couple of extra
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indirects to reduce the cost of checks. either way, generalize
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syntaxes that now require ftype names to allow arbitrary ftypes
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- consider passing $fptr-ref-xxx, $fptr-set-xxx! more info to
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produce better error messages
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- consider support for variable-length arrays. there may be no good
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way to do so. don't want to make ftds generative, but can't
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avoid doing so if the lengths aren't known until run time since
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each evaluation of an ftype form could result in different sizes.
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as an alternative, perhaps give some way to define array-length
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constants, e.g., (define-ftype-constant x 10).
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- consider moving verify-ftype-pointer checks into $fptr-&ref,
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$fptr-ref, and $fptr-set! to reduce the amount of generated code.
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we'd end up doing more checks that way when pointer indirects are
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followed and new fptrs are generated, but that probably isn't a
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big deal. would need to pass $fptr-ref a who argument for use in
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following pointers from ftype-&ref and ftype-set!
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- consider trying to fix 32-bit macos x powerpc alignment issues.
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doubles and long-longs are aligned on 8-byte boundaries if they
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are first in a struct; otherwise, they are mostly aligned on
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4-byte boundaries. haven't entirely penetrated the rules governing
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unions, but it's clear the same union can have a different size
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depending on whether it is stand-alone or embedded in a struct
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|#
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#|
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(define-ftype ftype-name ftype) [syntax]
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ftype-name -> identifier
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ftype ->
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ftype-name
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(* ftype)
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(struct (field-name ftype) ...)
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(union (field-name ftype) ...)
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(array length ftype)
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(bits (field-name signedness bits) ...)
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(function (arg-type ...) result-type)
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(function conv ... (arg-type ...) result-type)
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(packed ftype)
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(unpacked ftype)
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(endian endianness ftype)
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length -> exact nonnegative integer
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field-name -> identifier
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signedness -> signed | unsigned
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bits -> exact positive integer
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endianness -> native | big | little
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built-in ftype names:
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short | unsigned-short
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int | unsigned | unsigned-int
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long | unsigned-long
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long-long | unsigned-long-long
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char | wchar
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float | double
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void* | iptr | uptr
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fixnum | boolean
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integer-8 | unsigned-8
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integer-16 | unsigned-16
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integer-24 | unsigned-24
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integer-32 | unsigned-32
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integer-40 | unsigned-40
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integer-48 | unsigned-48
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integer-56 | unsigned-56
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integer-64 | unsigned-64
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single-float | double-float
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size_t | ssize_t | ptrdiff_t | wchar_t
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notes:
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- underscore ( _ ) can be used as the field name for one or
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more fields of a struct or union. such fields are included
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in the layout but are considered unnamed and cannot be accessed
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via the ftype operators described below.
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- non-underscore field names are handled symbolically, i.e.,
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they are treated as symbols rather than identifiers. each
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symbol must be unique (as a symbol) with respect to the other
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field names within a single struct or union, but need not be
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unique with respect to field names in other structs or
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unions, including those nested inside the struct or union.
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- by default, padding is inserted where appropriate to maintain
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proper alignment of multibyte scalar values in an attempt to
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mirror the target machine's (often poorly documented) C struct
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layout conventions. for packed ftypes (ftypes wrapped in a
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packed form with no closer enclosing unpacked form), this
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padding is not inserted.
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- the overall size of an ftype (including padding) must be a fixnum.
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- the total size n of the fields within an ftype bits form must
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be 8, 16, 24, 32, 40, 48, 56, or 64. padding must be added manually
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if needed. (Performance might suffer when the total is not a power
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of two or is 64 on a 32-bit machine.) For little-endian machines,
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the first field occupies the low-order bits of the container, with
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each subsequent field just above the preceding field, while for
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big-endian machines, the first field occupies the high-order bits,
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with each subsequent field just below the preceding field.
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- ftype pointers are records encapsulating an ftype descriptor
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(ftd) along with the address of the foreign object, except that
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pointers of type void* are just addresses. the encapsulated
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ftd is used to verify the applicability of an ftype-&ref,
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ftype-ref, or ftype-set! operation.
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- two ftypes are considered equivalent if and only if their uids are
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equivalent. a fresh uid is created each time an ftype declaration
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is expanded. thus, textually distinct ftypes are not considered
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equivalent even if they are identical in structure.
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- all signed or unsigned integer fields (including bit fields) can
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be set to an exact integer in the range -2^{k-1}..+2^k-1, where
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k is the size in bits of the integer
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- most run-time checks are disabled at optimize-level 3.
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- the use of packed ftypes or the use of improperly aligned
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addresses can result in unaligned references, which are inefficient
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on some machines and result in invalid-memory reference exceptions
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on others.
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ftype operators:
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(ftype-sizeof ftype-name) [syntax]
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returns the size in bytes of an object with type ftype-name.
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(make-ftype-pointer ftype-name address) [syntax]
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creates an ftype pointer encapsulating an ftype descriptor (ftd)
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for the named ftype along with the address.
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(ftype-pointer? expr) [syntax]
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(ftype-pointer? ftype-name expr) [syntax]
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in the first form, return #t if the value of expr is an ftype
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pointer, otherwise #f. in the second form, returns #t if the
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value of expr is an ftype pointer of the named ftype,
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otherwise #f.
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(ftype-pointer-address fptr) [procedure]
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returns the address encapsulated within fptr.
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(ftype-pointer-null? fptr) [procedure]
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returns #t if the address encapsulated within fptr is 0,
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otherwise #f.
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(ftype-pointer=? fptr1 fptr2) [procedure]
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returns #t if the addresses encapsulated within fptr are
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the same, otherwise #f.
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(ftype-pointer-ftype fptr) [procedure]
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returns an s-expression representation of fptr's ftype. the
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s-expression should not be modified.
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(ftype-pointer->sexpr fptr) [procedure]
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returns an s-expression representation of the foreign object
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pointed to by fptr. the s-expression should not be modified.
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(ftype-&ref ftype-name (access ...) fptr-expr) [syntax]
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returns an ftype pointer to the named field of the foreign object
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pointed to by the value of fptr-expr, which must be an ftype
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pointer of the named ftype. each access must be a field name or
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array index expression, as appropriate for the named ftype; it is a
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syntax error if this is not the case. the values of all array indices
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must be in bounds for the array. any nonnegative index is considered
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in bounds for an array of size zero. the return value is a freshly
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allocated ftype pointer, except that if (access ...) is empty, the
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return value might be eq to the value of fptr-expr.
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(ftype-ref ftype-name (access ...) fptr-expr) [syntax]
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returns the value of the specified field of the foreign object pointed
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to by the value of fptr-expr, which must be an ftype pointer of the
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named ftype. The access and fptr-expr requirements stated under
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ftype-&ref apply as well to ftype-ref. In addition, the field must
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be a scalar field, i.e., one of the base types, an alias for one of
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the base types, or a pointer. If the result is a pointer value,
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other than one declared as void*, the return value is a freshly
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allocated ftype pointer.
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It (access ...) is empty, the "specified field" is the object pointed
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to by the ftype pointer. For example, if x is an ftype-pointer pointing
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to a double, (ftype-ref double () x) returns the double.
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(ftype-set! ftype-name (access ...) fptr-expr val-expr) [syntax]
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sets the value of the named field of the foreign object pointed to
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by the value of fptr-expr, which must be an ftype pointer of the
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named ftype, to the value of val-expr. The access and fptr-expr
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requirements stated under ftype-&ref and ftype-ref apply as well
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to ftype-set!. val-expr must evaluate to a value appropriate for
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the identified field; for pointer fields other than those declared as
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void*, the value must be an ftype pointer with the appropriate ftype.
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Otherwise, the value of val-expr must be of the appropriate type,
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e.g., a character for types char and wchar and an integer of the
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appropriate size for int and unsigned.
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|#
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(begin
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(let ()
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(include "types.ss")
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(define-syntax rtd/fptr
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(let ([rtd ($make-record-type #!base-rtd #f
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'#{ftype-pointer a9pth58056u34h517jsrqv-0}
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'((immutable uptr address))
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#f
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#f)])
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(lambda (x) #`'#,rtd)))
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(define $fptr? (record-predicate rtd/fptr))
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(define $ftype-pointer-address (record-accessor rtd/fptr 0))
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(define-syntax rtd/ftd
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(let ([rtd ($make-record-type #!base-rtd #!base-rtd
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'#{rtd/ftd a9pth58056u34h517jsrqv-1}
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'((immutable ptr stype)
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(immutable ptr size)
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(immutable ptr alignment))
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#f
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#f)])
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(lambda (x) #`'#,rtd)))
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(define ftd? (record-predicate rtd/ftd))
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(define ftd-stype (record-accessor rtd/ftd 0))
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(define ftd-size (record-accessor rtd/ftd 1))
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(define ftd-alignment (record-accessor rtd/ftd 2))
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(define-syntax define-ftd-record-type
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(lambda (x)
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(define construct-name
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(lambda (template-identifier . args)
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(datum->syntax
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template-identifier
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(string->symbol
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(apply string-append
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(map (lambda (x)
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(if (string? x)
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x
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(symbol->string (syntax->datum x))))
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args))))))
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(define ftd-field
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(lambda (field)
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(syntax-case field (mutable)
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[field-name
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(identifier? #'field-name)
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#'field-name]
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[(mutable field-name)
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(identifier? #'field-name)
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#'field-name])))
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(define ftd-accessors
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(lambda (record-name field*)
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(define accessor
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(lambda (field-name ordinal)
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#`(define #,(construct-name field-name "ftd-" record-name "-" field-name)
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(record-accessor rtd #,ordinal))))
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(define mutator
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(lambda (field-name ordinal)
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#`(define #,(construct-name field-name "ftd-" record-name "-" field-name "-set!")
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(record-mutator rtd #,ordinal))))
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(let f ([field* field*] [ordinal 0])
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(if (null? field*)
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'()
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(syntax-case (car field*) (mutable)
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[field-name
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(identifier? #'field-name)
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(cons (accessor #'field-name ordinal)
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(f (cdr field*) (+ ordinal 1)))]
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[(mutable field-name)
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(identifier? #'field-name)
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(cons (mutator #'field-name ordinal)
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(cons (accessor #'field-name ordinal)
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(f (cdr field*) (+ ordinal 1))))])))))
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(syntax-case x ()
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[(_ record-name ?uid field ...)
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(with-syntax ([(field-name ...) (map ftd-field #'(field ...))]
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[constructor-name (construct-name #'record-name "make-ftd-" #'record-name)])
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#`(begin
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(define-syntax rtd
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(let ([rtd ($make-record-type #!base-rtd rtd/ftd
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'?uid
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'(field ...)
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#t
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#f)])
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(lambda (x) #`'#,rtd)))
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(define constructor-name
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(lambda (parent uid stype size alignment field-name ...)
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($make-record-type rtd parent (or uid #,(symbol->string (datum record-name))) '() #f #f stype size alignment field-name ...)))
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(define #,(construct-name #'record-name "ftd-" #'record-name "?")
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(record-predicate rtd))
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#,@(ftd-accessors #'record-name #'(field ...))))])))
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(define-ftd-record-type base #{rtd/ftd-base a9pth58056u34h517jsrqv-8} swap? type)
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(define-ftd-record-type struct #{rtd/ftd-struct a9pth58056u34h517jsrqv-3} field*)
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(define-ftd-record-type union #{rtd/ftd-union a9pth58056u34h517jsrqv-4} field*)
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(define-ftd-record-type array #{rtd/ftd-array a9pth58056u34h517jsrqv-5} length ftd)
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(define-ftd-record-type pointer #{rtd/ftd-pointer a9pth58056u34h517jsrqv-6} (mutable ftd))
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(define-ftd-record-type bits #{rtd/ftd-ibits a9pth58056u34h517jsrqv-9} swap? field*)
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(define-ftd-record-type function #{rtd/ftd-function a9pth58056u34h517jsrqv-11} conv* arg-type* result-type)
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(module (pointer-size alignment pointer-alignment native-base-ftds swap-base-ftds)
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(define alignment
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(lambda (max-alignment size)
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(gcd max-alignment size)))
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(define pointer-size (/ (constant address-bits) 8))
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(define pointer-alignment (gcd (constant max-integer-alignment) pointer-size))
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(define base-types
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'(short unsigned-short int unsigned unsigned-int long
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unsigned-long long-long unsigned-long-long char wchar float
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double void* iptr uptr fixnum boolean integer-8 unsigned-8
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integer-16 unsigned-16 integer-24 unsigned-24 integer-32 unsigned-32
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integer-40 unsigned-40 integer-48 unsigned-48 integer-56 unsigned-56
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integer-64 unsigned-64 single-float double-float wchar_t size_t ssize_t ptrdiff_t))
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(define-who mfb
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(lambda (swap?)
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(lambda (ty)
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(define-syntax make
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(syntax-rules ()
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[(_ type bytes pred)
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(if (and swap? (fx= bytes 1))
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(find (lambda (ftd) (eq? (ftd-base-type ftd) ty)) native-base-ftds)
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(make-ftd-base rtd/fptr
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; creating static gensym so base ftypes are nongenerative to support
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; separate compilation of ftype definitions and uses. creating unique
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; name so this works even when this file is reloaded, e.g., as a patch
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; file. machine-type is included in the unique name so that we get
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; a different rtd/ftd with the correct "extras" (including size and
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; alignment) when cross compiling between machines with different
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; base-type characteristics.
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(let ([pname (format "~a~:[~;s~]" ty swap?)])
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(let ([gstring (format "~aa9pth58056u34h517jsrqv-~s-~a" pname (constant machine-type-name) pname)])
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($intern3 gstring (string-length pname) (string-length gstring))))
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(if swap?
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`(endian ,(constant-case native-endianness
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[(big) 'little]
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[(little) 'big])
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,ty)
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ty)
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bytes (alignment (if (memq 'type '(single-float double-float)) (constant max-float-alignment) (constant max-integer-alignment)) bytes) swap? ty))]))
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(record-datatype cases (filter-foreign-type ty) make
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($oops who "unrecognized type ~s" ty)))))
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(define native-base-ftds (map (mfb #f) base-types))
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(define swap-base-ftds (map (mfb #t) base-types)))
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(define expand-field-names
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(lambda (x*)
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(let f ([x* x*] [seen* '()])
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(if (null? x*)
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'()
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(let ([x (car x*)] [x* (cdr x*)])
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(unless (identifier? x) (syntax-error x "invalid field name"))
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(if (free-identifier=? x #'_)
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(cons #f (f x* seen*))
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(let ([s (syntax->datum x)])
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(if (memq s seen*)
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(syntax-error x "duplicate field name")
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(cons s (f x* (cons s seen*)))))))))))
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(define expand-ftype-name
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(case-lambda
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[(r ftype) (expand-ftype-name r ftype #t)]
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[(r ftype error?)
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(cond
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[(let ([maybe-ftd (r ftype)]) (and maybe-ftd (ftd? maybe-ftd) maybe-ftd)) => (lambda (ftd) ftd)]
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[(find (let ([x (syntax->datum ftype)])
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(lambda (ftd) (eq? (ftd-base-type ftd) x)))
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native-base-ftds)]
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[else (and error? (syntax-error ftype "unrecognized ftype name"))])]))
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(define expand-ftype
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(case-lambda
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[(r defid ftype) (expand-ftype r '() defid ftype)]
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[(r def-alist defid ftype)
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(define (check-size ftd)
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(unless (ftd-function? ftd)
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(let ([size (ftd-size ftd)])
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(unless (and (>= size 0) (< size (constant most-positive-fixnum)))
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(syntax-error ftype "non-fixnum overall size for ftype"))))
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ftd)
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(check-size
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(let f/flags ([ftype ftype] [defid defid] [stype (syntax->datum ftype)] [packed? #f] [swap? #f] [funok? #t])
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(define (pad n k) (if packed? n (logand (+ n (- k 1)) (- k))))
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(let f ([ftype ftype] [defid defid] [stype stype] [funok? funok?])
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(if (identifier? ftype)
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(cond
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[(assp (lambda (x) (bound-identifier=? ftype x)) def-alist) =>
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(lambda (a)
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(let ([ftd (let ([ftd (cdr a)])
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(if (ftd? ftd)
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ftd
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(or (find (let ([x (syntax->datum ftype)])
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(lambda (ftd)
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(eq? (ftd-base-type ftd) x)))
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(if swap? swap-base-ftds native-base-ftds))
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ftd)))])
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(unless (ftd? ftd)
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(syntax-error ftype "recursive or forward reference outside pointer field"))
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(unless funok?
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(when (ftd-function? ftd)
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(syntax-error ftype "unexpected function ftype name outside pointer field")))
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ftd))]
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[(let ([maybe-ftd (r ftype)]) (and maybe-ftd (ftd? maybe-ftd) maybe-ftd)) =>
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(lambda (ftd)
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(unless funok?
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(when (ftd-function? ftd)
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(syntax-error ftype "unexpected function ftype name outside pointer field")))
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ftd)]
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[(find (let ([x (syntax->datum ftype)])
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(lambda (ftd) (eq? (ftd-base-type ftd) x)))
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(if swap? swap-base-ftds native-base-ftds))]
|
|
[else (syntax-error ftype "unrecognized ftype name")])
|
|
(syntax-case ftype ()
|
|
[(struct-kwd (field-name ftype) ...)
|
|
(eq? (datum struct-kwd) 'struct)
|
|
(let loop ([id* (expand-field-names #'(field-name ...))]
|
|
[ftd* (map (lambda (ftype stype) (f ftype #f stype #f))
|
|
#'(ftype ...) (datum (ftype ...)))]
|
|
[offset 0] [alignment 1] [field* '()])
|
|
(if (null? id*)
|
|
(let ([field* (reverse field*)])
|
|
(make-ftd-struct (if (null? field*) rtd/fptr (caddar field*))
|
|
(and defid (symbol->string (syntax->datum defid)))
|
|
stype (pad offset alignment) alignment field*))
|
|
(let ([ftd (car ftd*)])
|
|
(let ([offset (pad offset (ftd-alignment ftd))])
|
|
(loop (cdr id*) (cdr ftd*)
|
|
(+ offset (ftd-size ftd))
|
|
(max alignment (ftd-alignment ftd))
|
|
(cons (list (car id*) offset ftd) field*))))))]
|
|
[(union-kwd (field-name ftype) ...)
|
|
(eq? (datum union-kwd) 'union)
|
|
(let ([id* (expand-field-names #'(field-name ...))]
|
|
[ftd* (map (lambda (ftype stype) (f ftype #f stype #f))
|
|
#'(ftype ...) (datum (ftype ...)))])
|
|
(let ([alignment (apply max 1 (map ftd-alignment ftd*))])
|
|
(make-ftd-union rtd/fptr
|
|
(and defid (symbol->string (syntax->datum defid)))
|
|
stype
|
|
(pad (apply max 0 (map ftd-size ftd*)) alignment)
|
|
alignment
|
|
(map cons id* ftd*))))]
|
|
[(array-kwd ?n ftype)
|
|
(eq? (datum array-kwd) 'array)
|
|
(let ([n (datum ?n)])
|
|
(unless (and (integer? n) (exact? n) (>= n 0))
|
|
(syntax-error #'?n "invalid array size"))
|
|
(let ([ftd (f #'ftype #f (datum ftype) #f)])
|
|
(make-ftd-array ftd
|
|
(and defid (symbol->string (syntax->datum defid)))
|
|
stype
|
|
(* n (ftd-size ftd))
|
|
(ftd-alignment ftd)
|
|
n ftd)))]
|
|
[(bits-kwd (field-name signedness bits) ...)
|
|
(eq? (datum bits-kwd) 'bits)
|
|
(let ()
|
|
(define parse-fields
|
|
(lambda ()
|
|
(define signed?
|
|
(lambda (s)
|
|
(case (syntax->datum s)
|
|
[(signed) #t]
|
|
[(unsigned) #f]
|
|
[else (syntax-error s "invalid bit-field signedness specifier")])))
|
|
(let f ([id* (expand-field-names #'(field-name ...))]
|
|
[s* #'(signedness ...)]
|
|
[bits* #'(bits ...)]
|
|
[bit-offset 0])
|
|
(if (null? id*)
|
|
(values bit-offset '())
|
|
(let ([bits (syntax->datum (car bits*))])
|
|
(unless (and (fixnum? bits) (fx>= bits 1))
|
|
(syntax-error (car bits*) "invalid bit-field bit count"))
|
|
(let-values ([(bit-size field*) (f (cdr id*) (cdr s*) (cdr bits*) (+ bit-offset bits))])
|
|
(values bit-size
|
|
(let ([start (if (eq? (native-endianness) (if swap? 'little 'big))
|
|
(- bit-size bit-offset bits)
|
|
bit-offset)])
|
|
(cons (list (car id*) (signed? (car s*)) start (+ start bits))
|
|
field*)))))))))
|
|
(let-values ([(bit-size field*) (parse-fields)])
|
|
(unless (memq bit-size '(8 16 24 32 40 48 56 64))
|
|
(syntax-error ftype "bit counts do not add up to 8, 16, 32, or 64"))
|
|
(let ([offset (fxsrl bit-size 3)])
|
|
(make-ftd-bits rtd/fptr
|
|
(and defid (symbol->string (syntax->datum defid)))
|
|
stype offset (alignment (constant max-integer-alignment) offset)
|
|
(and swap? (fx> offset 1)) field*))))]
|
|
[(*-kwd ftype)
|
|
(eq? (datum *-kwd) '*)
|
|
(cond
|
|
[(and (identifier? #'ftype)
|
|
(assp (lambda (x) (bound-identifier=? #'ftype x)) def-alist)) =>
|
|
(lambda (a)
|
|
(if (ftd? (cdr a))
|
|
(make-ftd-pointer rtd/fptr
|
|
(and defid (symbol->string (syntax->datum defid)))
|
|
stype pointer-size pointer-alignment (cdr a))
|
|
(let ([ftd (make-ftd-pointer rtd/fptr
|
|
(and defid (symbol->string (syntax->datum defid)))
|
|
stype pointer-size pointer-alignment #f)])
|
|
(set-cdr! a (cons ftd (cdr a)))
|
|
ftd)))]
|
|
[else (make-ftd-pointer rtd/fptr
|
|
(and defid (symbol->string (syntax->datum defid)))
|
|
stype pointer-size pointer-alignment (f #'ftype #f (datum ftype) #t))])]
|
|
[(function-kwd (arg-type ...) result-type)
|
|
(eq? (datum function-kwd) 'function)
|
|
(f #'(function-kwd #f (arg-type ...) result-type) #f stype funok?)]
|
|
[(function-kwd conv ... (arg-type ...) result-type)
|
|
(eq? (datum function-kwd) 'function)
|
|
(let ()
|
|
(define filter-type
|
|
(lambda (r x result?)
|
|
(let ([what (if result? 'result 'argument)])
|
|
(or ($fp-filter-type (expand-fp-ftype 'function-ftype what r x def-alist) result?)
|
|
(syntax-error x (format "invalid function-ftype ~s type specifier" what))))))
|
|
(unless funok? (syntax-error ftype "unexpected function ftype outside pointer field"))
|
|
(make-ftd-function rtd/fptr
|
|
(and defid (symbol->string (syntax->datum defid)))
|
|
stype #f #f
|
|
($filter-conv 'function-ftype #'(conv ...))
|
|
(map (lambda (x) (filter-type r x #f)) #'(arg-type ...))
|
|
(filter-type r #'result-type #t)))]
|
|
[(packed-kwd ftype)
|
|
(eq? (datum packed-kwd) 'packed)
|
|
(f/flags #'ftype #f stype #t swap? funok?)]
|
|
[(unpacked-kwd ftype)
|
|
(eq? (datum unpacked-kwd) 'unpacked)
|
|
(f/flags #'ftype #f stype #f swap? funok?)]
|
|
[(endian-kwd ?eness ftype)
|
|
(eq? (datum endian-kwd) 'endian)
|
|
(let ([eness (datum ?eness)])
|
|
(unless (memq eness '(big little native))
|
|
(syntax-error #'?eness "invalid endianness"))
|
|
(let ([swap? (and (not (eq? eness 'native))
|
|
(not (eq? eness (constant native-endianness))))])
|
|
(f/flags #'ftype #f stype packed? swap? funok?)))]
|
|
[_ (syntax-error ftype "invalid ftype")])))))]))
|
|
(define expand-fp-ftype
|
|
(lambda (who what r ftype def-alist)
|
|
(syntax-case ftype ()
|
|
[(*/&-kwd ftype-name)
|
|
(and (or (eq? (datum */&-kwd) '*)
|
|
(eq? (datum */&-kwd) '&))
|
|
(identifier? #'ftype-name))
|
|
(let* ([stype (syntax->datum ftype)]
|
|
[ftd
|
|
(cond
|
|
[(assp (lambda (x) (bound-identifier=? #'ftype-name x)) def-alist) =>
|
|
(lambda (a)
|
|
(if (ftd? (cdr a))
|
|
(make-ftd-pointer rtd/fptr #f stype pointer-size pointer-alignment (cdr a))
|
|
(let ([ftd (make-ftd-pointer rtd/fptr #f stype pointer-size pointer-alignment #f)])
|
|
(set-cdr! a (cons ftd (cdr a)))
|
|
ftd)))]
|
|
[(expand-ftype-name r #'ftype-name #f) =>
|
|
(lambda (ftd)
|
|
(make-ftd-pointer rtd/fptr #f stype pointer-size pointer-alignment ftd))]
|
|
[else (syntax-error #'ftype-name (format "unrecognized ~s ~s ftype name" who what))])])
|
|
;; Scheme-side argument is a pointer to a value, but foreign side has two variants:
|
|
(if (eq? (datum */&-kwd) '&)
|
|
(cond
|
|
[(ftd-array? (ftd-pointer-ftd ftd))
|
|
(syntax-error ftype (format "array value invalid as ~a ~s" who what))]
|
|
[else
|
|
(box ftd)]) ; boxed ftd => pass/receive the value (as opposed to a pointer to the value)
|
|
ftd))] ; plain ftd => pass/receive a pointer to the value
|
|
[_ (cond
|
|
[(and (identifier? ftype) (expand-ftype-name r ftype #f)) =>
|
|
(lambda (ftd)
|
|
(unless (ftd-base? ftd)
|
|
(syntax-error ftype (format "invalid (non-base) ~s ~s ftype" who what)))
|
|
(when (ftd-base-swap? ftd)
|
|
(syntax-error ftype (format "invalid (swapped) ~s ~s ftype" who what)))
|
|
(ftd-base-type ftd))]
|
|
[else (syntax->datum ftype)])])))
|
|
(define-who indirect-ftd-pointer
|
|
(lambda (x)
|
|
(cond
|
|
[(ftd? x)
|
|
(if (ftd-pointer? x)
|
|
(ftd-pointer-ftd x)
|
|
($oops who "~s is not an ftd-pointer" x))]
|
|
[(box? x)
|
|
(box (indirect-ftd-pointer (unbox x)))]
|
|
[else x])))
|
|
(define-who expand-ftype-defns
|
|
(lambda (r defid* ftype*)
|
|
(define patch-pointer-ftds!
|
|
(lambda (id ftd)
|
|
(lambda (pointer-ftd)
|
|
(ftd-pointer-ftd-set! pointer-ftd ftd))))
|
|
(let ([alist (map list defid*)])
|
|
(for-each
|
|
(lambda (defid ftype a)
|
|
(let ([ftd (expand-ftype r alist defid ftype)])
|
|
(for-each (patch-pointer-ftds! defid ftd) (cdr a))
|
|
(set-cdr! a ftd)))
|
|
defid* ftype* alist)
|
|
(map cdr alist))))
|
|
(define unsigned-type
|
|
(lambda (size)
|
|
(case size
|
|
[(1) 'unsigned-8]
|
|
[(2) 'unsigned-16]
|
|
[(3) 'unsigned-24]
|
|
[(4) 'unsigned-32]
|
|
[(5) 'unsigned-40]
|
|
[(6) 'unsigned-48]
|
|
[(7) 'unsigned-56]
|
|
[(8) 'unsigned-64]
|
|
[else ($oops 'unsigned-type "unexpected size ~s" size)])))
|
|
(define-record-type src-info
|
|
(nongenerative #{src-info sls7d75lyfm0jejerbq3n-0})
|
|
(sealed #f)
|
|
(fields src)
|
|
(protocol
|
|
(lambda (new)
|
|
(lambda (expr)
|
|
(new
|
|
(let ([a (syntax->annotation expr)])
|
|
(and (and a (fxlogtest (annotation-flags a) (constant annotation-debug)))
|
|
(annotation-source a))))))))
|
|
(define-record-type field-info
|
|
(parent src-info)
|
|
(nongenerative #{field-info sls7d75lyfm0jejerbq3n-1})
|
|
(sealed #t)
|
|
(fields type)
|
|
(protocol
|
|
(lambda (pargs->new)
|
|
(lambda (type expr)
|
|
((pargs->new expr) type)))))
|
|
(define-record-type ftd-info
|
|
(parent src-info)
|
|
(nongenerative #{ftd-info sls7d75lyfm0jejerbq3n-2})
|
|
(sealed #t)
|
|
(fields who ftd)
|
|
(protocol
|
|
(lambda (pargs->new)
|
|
(lambda (whoid expr ftd)
|
|
((pargs->new expr) (syntax->datum whoid) ftd)))))
|
|
(define-record-type index-info
|
|
(parent src-info)
|
|
(nongenerative #{index-info sls7d75lyfm0jejerbq3n-3})
|
|
(sealed #t)
|
|
(fields who ftd pointer?)
|
|
(protocol
|
|
(lambda (pargs->new)
|
|
(lambda (whoid expr ftd pointer?)
|
|
((pargs->new expr) (syntax->datum whoid) ftd pointer?)))))
|
|
(record-writer rtd/ftd
|
|
(lambda (x p wr)
|
|
(fprintf p "#<ftd ~s>" (record-type-name x))))
|
|
(record-writer rtd/fptr
|
|
(lambda (x p wr)
|
|
(fprintf p "#<ftype-pointer ~s ~s>" (record-type-name (record-rtd x)) ($ftype-pointer-address x))))
|
|
(set! $verify-ftype-address
|
|
(lambda (who addr)
|
|
(define address?
|
|
(lambda (x)
|
|
(constant-case address-bits
|
|
[(32) ($integer-32? x)]
|
|
[(64) ($integer-64? x)])))
|
|
(unless (address? addr)
|
|
(if (or (procedure? addr) (string? addr))
|
|
($oops who "non-function ftype with ~s address" addr)
|
|
($oops who "invalid address ~s" addr)))))
|
|
(set! $verify-ftype-pointer
|
|
(lambda (info fptr)
|
|
(unless (record? fptr (ftd-info-ftd info))
|
|
($source-violation (ftd-info-who info) (src-info-src info) #t
|
|
(if ($fptr? fptr)
|
|
"ftype mismatch for ~s"
|
|
"~s is not an ftype pointer")
|
|
fptr))))
|
|
(set! $invalid-ftype-index
|
|
(lambda (info i)
|
|
($source-violation (index-info-who info) (src-info-src info) #t
|
|
"invalid index ~s for ~:[~;indirection of ~]~s" i (index-info-pointer? info) (index-info-ftd info))))
|
|
(set! $trans-define-ftype
|
|
(lambda (x)
|
|
(lambda (r)
|
|
(syntax-case x ()
|
|
[(_ ftype-name ftype)
|
|
(identifier? #'ftype-name)
|
|
#`(define-syntax ftype-name
|
|
(make-compile-time-value
|
|
'#,(car (expand-ftype-defns r #'(ftype-name) #'(ftype)))))]
|
|
[(_ [ftype-name ftype] ...)
|
|
(andmap identifier? #'(ftype-name ...))
|
|
(with-syntax ([(ftd ...) (expand-ftype-defns r #'(ftype-name ...) #'(ftype ...))])
|
|
#'(begin
|
|
(define-syntax ftype-name
|
|
(make-compile-time-value 'ftd))
|
|
...))]))))
|
|
(set! $trans-make-ftype-pointer
|
|
(lambda (x)
|
|
(lambda (r)
|
|
(syntax-case x ()
|
|
[(_ ftype ?addr)
|
|
(identifier? #'ftype)
|
|
(let ([ftd (expand-ftype-name r #'ftype)])
|
|
(with-syntax ([addr-expr
|
|
(if (ftd-function? ftd)
|
|
#`(let ([x ?addr])
|
|
(cond
|
|
;; we need to make a code object, lock it, set addr to
|
|
;; (foreign-callable-entry-point code-object)
|
|
[(procedure? x)
|
|
(let ([co #,($make-foreign-callable 'make-ftype-pointer
|
|
(ftd-function-conv* ftd)
|
|
#'x
|
|
(map indirect-ftd-pointer (ftd-function-arg-type* ftd))
|
|
(indirect-ftd-pointer (ftd-function-result-type ftd)))])
|
|
(lock-object co)
|
|
(foreign-callable-entry-point co))]
|
|
;; otherwise, it is a string, so lookup the foreign-entry
|
|
[(string? x) (foreign-entry x)]
|
|
;; otherwise, assume it is an address, let normal check
|
|
;; complain otherwise
|
|
[else x]))
|
|
#'?addr)])
|
|
#`($make-fptr '#,ftd
|
|
#,(if (or (fx= (optimize-level) 3)
|
|
(syntax-case #'addr-expr (ftype-pointer-address)
|
|
[(ftype-pointer-address x) #t]
|
|
[else #f]))
|
|
#'addr-expr
|
|
#'(let ([addr addr-expr])
|
|
($verify-ftype-address 'make-ftype addr)
|
|
addr)))))]))))
|
|
(set! $trans-ftype-pointer?
|
|
(lambda (x)
|
|
(lambda (r)
|
|
(syntax-case x ()
|
|
[(_ x) #`(record? x '#,rtd/fptr)]
|
|
[(_ ftype x) (identifier? #'ftype) #`(record? x '#,(expand-ftype-name r #'ftype))]))))
|
|
(set-who! ftype-pointer-address
|
|
(lambda (fptr)
|
|
(unless ($fptr? fptr) ($oops who "~s is not an ftype pointer" fptr))
|
|
($ftype-pointer-address fptr)))
|
|
(set-who! ftype-pointer-null?
|
|
(lambda (fptr)
|
|
(unless ($fptr? fptr) ($oops who "~s is not an ftype pointer" fptr))
|
|
(#3%ftype-pointer-null? fptr)))
|
|
(set-who! ftype-pointer=?
|
|
(lambda (fptr1 fptr2)
|
|
(unless ($fptr? fptr1) ($oops who "~s is not an ftype pointer" fptr1))
|
|
(unless ($fptr? fptr2) ($oops who "~s is not an ftype pointer" fptr2))
|
|
(#3%ftype-pointer=? fptr1 fptr2)))
|
|
(set-who! ftype-pointer-ftype
|
|
(lambda (fptr)
|
|
(unless ($fptr? fptr) ($oops who "~s is not an ftype pointer" fptr))
|
|
(ftd-stype (record-rtd fptr))))
|
|
(set-who! ftype-pointer->sexpr
|
|
(lambda (fptr)
|
|
(module (record replay)
|
|
(define ht (make-eqv-hashtable))
|
|
(define-syntax record
|
|
(syntax-rules ()
|
|
[(_ ?fptr expr)
|
|
(let ([fptr ?fptr])
|
|
(let ([addr (ftype-pointer-address fptr)])
|
|
(cond
|
|
[(hashtable-ref ht addr #f) => (lambda (x) fptr)]
|
|
[else
|
|
(hashtable-set! ht addr #t)
|
|
(let ([x expr])
|
|
(hashtable-set! ht addr x)
|
|
x)])))]))
|
|
(define replay
|
|
(lambda (x)
|
|
(let f ([x x])
|
|
(if ($fptr? x)
|
|
(hashtable-ref ht (ftype-pointer-address x) #f)
|
|
(begin
|
|
(when (pair? x)
|
|
(set-car! x (f (car x)))
|
|
(set-cdr! x (f (cdr x))))
|
|
x)))
|
|
x)))
|
|
(unless ($fptr? fptr) ($oops who "~s is not an ftype pointer" fptr))
|
|
(replay
|
|
(let fptr->sexpr ([fptr fptr])
|
|
(record fptr
|
|
(let f ([fptr fptr] [ftd (record-rtd fptr)] [offset 0])
|
|
(cond
|
|
[(ftd-struct? ftd)
|
|
`(struct
|
|
,@(map (lambda (field)
|
|
(if (car field)
|
|
`(,(car field) ,(f fptr (caddr field) (+ offset (cadr field))))
|
|
'(_ _)))
|
|
(ftd-struct-field* ftd)))]
|
|
[(ftd-union? ftd)
|
|
`(union
|
|
,@(map (lambda (field)
|
|
(if (car field)
|
|
`(,(car field) ,(f fptr (cdr field) offset))
|
|
'(_ _)))
|
|
(ftd-union-field* ftd)))]
|
|
[(ftd-array? ftd)
|
|
(let ([n (ftd-array-length ftd)]
|
|
[ftd (ftd-array-ftd ftd)])
|
|
(if (and (ftd-base? ftd) (memq (ftd-base-type ftd) '(char wchar)))
|
|
(let g ([i 0])
|
|
(if (fx= i n)
|
|
(make-string n)
|
|
(let ([c (f fptr ftd (+ offset (* i (ftd-size ftd))))])
|
|
(if (or (eq? c 'invalid) (eqv? c #\nul))
|
|
(if (fx= i 0) `(array ,n invalid) (make-string i))
|
|
(let ([s (g (fx+ i 1))])
|
|
(string-set! s i c)
|
|
s)))))
|
|
`(array ,n
|
|
,@(let g ([i 0])
|
|
(if (fx= i n)
|
|
'()
|
|
(cons (f fptr ftd (+ offset (* i (ftd-size ftd))))
|
|
(g (fx+ i 1))))))))]
|
|
[(ftd-pointer? ftd)
|
|
(cond
|
|
[(guard (c [#t #f]) ($fptr-fptr-ref fptr offset (ftd-pointer-ftd ftd))) =>
|
|
(lambda (fptr)
|
|
(if (zero? (ftype-pointer-address fptr))
|
|
'null
|
|
(let ([ftd (ftd-pointer-ftd ftd)])
|
|
(if (and (ftd-base? ftd) (memq (ftd-base-type ftd) '(char wchar)))
|
|
(let g ([i 0])
|
|
(let ([c (f fptr ftd (* i (ftd-size ftd)))])
|
|
(if (or (eq? c 'invalid) (eqv? c #\nul))
|
|
(if (fx= i 0) '(* invalid) (make-string i))
|
|
(let ([s (g (fx+ i 1))])
|
|
(string-set! s i c)
|
|
s))))
|
|
`(* ,(fptr->sexpr fptr))))))]
|
|
[else 'invalid])]
|
|
[(ftd-function? ftd)
|
|
(let ([addr (ftype-pointer-address fptr)])
|
|
`(function ,(or (foreign-address-name addr) addr)))]
|
|
[(ftd-bits? ftd)
|
|
(let ([type (unsigned-type (ftd-size ftd))])
|
|
`(bits
|
|
,@(map (lambda (field)
|
|
(apply
|
|
(lambda (id signed? start end)
|
|
(if id
|
|
`(,id
|
|
,(guard (c [#t 'invalid])
|
|
($fptr-ref-bits type (ftd-bits-swap? ftd) signed?
|
|
fptr offset start end)))
|
|
'(_ _)))
|
|
field))
|
|
(ftd-bits-field* ftd))))]
|
|
[(ftd-base? ftd)
|
|
(guard (c [#t 'invalid])
|
|
($fptr-ref (filter-foreign-type (ftd-base-type ftd))
|
|
(ftd-base-swap? ftd) fptr offset))]
|
|
[else ($oops '$fptr->sexpr "unhandled ftd ~s" ftd)])))))))
|
|
(set! $unwrap-ftype-pointer
|
|
(lambda (fptr)
|
|
(let f ([ftd (record-rtd fptr)])
|
|
(cond
|
|
[(ftd-struct? ftd)
|
|
`(struct
|
|
,@(map (lambda (field)
|
|
`(,(car field) . ,($fptr-&ref fptr (cadr field) (caddr field))))
|
|
(ftd-struct-field* ftd)))]
|
|
[(ftd-union? ftd)
|
|
`(union
|
|
,@(map (lambda (field)
|
|
`(,(car field) . ,($fptr-&ref fptr 0 (cdr field))))
|
|
(ftd-union-field* ftd)))]
|
|
[(ftd-array? ftd)
|
|
(let ([n (ftd-array-length ftd)]
|
|
[ftd (ftd-array-ftd ftd)])
|
|
`(array ,n
|
|
,(lambda (i)
|
|
(unless (and (fixnum? i) (if (fx= n 0) (fx>= i 0) ($fxu< i n)))
|
|
(errorf '$dump-foreign-type "invalid index ~s for array of length ~s" i n))
|
|
($fptr-&ref fptr (* i (ftd-size ftd)) ftd))))]
|
|
[(ftd-pointer? ftd)
|
|
(let ([ftd (ftd-pointer-ftd ftd)])
|
|
`(* ,(lambda () ($fptr-fptr-ref fptr 0 ftd))
|
|
,(lambda (who v)
|
|
($verify-ftype-pointer (make-ftd-info who #f ftd) v)
|
|
(#3%$fptr-fptr-set! fptr 0 v))))]
|
|
[(ftd-function? ftd)
|
|
(let ([addr (ftype-pointer-address fptr)])
|
|
`(function ,(foreign-address-name addr)))]
|
|
[(ftd-bits? ftd)
|
|
(let ([type (unsigned-type (ftd-size ftd))])
|
|
`(bits
|
|
,@(map (lambda (field)
|
|
(apply
|
|
(lambda (id signed? start end)
|
|
`(,id ,(lambda ()
|
|
(guard (c [#t 'invalid])
|
|
($fptr-ref-bits type (ftd-bits-swap? ftd) signed? fptr 0 start end)))
|
|
,(lambda (v)
|
|
(#2%$fptr-set-bits! type (ftd-bits-swap? ftd) fptr 0
|
|
start end v))))
|
|
field))
|
|
(ftd-bits-field* ftd))))]
|
|
[(ftd-base? ftd)
|
|
(let ([type (filter-foreign-type (ftd-base-type ftd))])
|
|
`(base
|
|
,type
|
|
,(lambda () (guard (c [#t 'invalid]) ($fptr-ref type (ftd-base-swap? ftd) fptr 0)))
|
|
,(lambda (v) (#2%$fptr-set! (ftd-base-type ftd) type (ftd-base-swap? ftd) fptr 0 v))))]
|
|
[else ($oops '$unwrap-ftype-pointer "unhandled ftd ~s" ftd)]))))
|
|
(set! $trans-ftype-sizeof
|
|
(lambda (x)
|
|
(lambda (r)
|
|
(syntax-case x ()
|
|
[(_ ftype)
|
|
(identifier? #'ftype)
|
|
(let ([ftd (expand-ftype-name r #'ftype)])
|
|
(when (ftd-function? ftd)
|
|
($oops 'ftype-sizeof "function ftypes have unknown size"))
|
|
(ftd-size ftd))]))))
|
|
(set! $ftd?
|
|
(lambda (x)
|
|
(ftd? x)))
|
|
(set! $ftd-as-box? ; represents `(& <ftype>)` from `$expand-fp-ftype`
|
|
(lambda (x)
|
|
(and (box? x) (ftd? (unbox x)))))
|
|
(set! $ftd-size
|
|
(lambda (x)
|
|
(ftd-size x)))
|
|
(set! $ftd-alignment
|
|
(lambda (x)
|
|
(ftd-alignment x)))
|
|
(set! $ftd-compound?
|
|
(lambda (x)
|
|
(or (ftd-struct? x)
|
|
(ftd-union? x)
|
|
(ftd-array? x))))
|
|
(set! $ftd-unsigned?
|
|
(lambda (x)
|
|
(and (ftd-base? x)
|
|
(case (ftd-base-type x)
|
|
[(unsigned-8 unsigned-16 unsigned-32 unsigned-64) #t]
|
|
[else #f]))))
|
|
(set! $ftd->members
|
|
(lambda (x)
|
|
;; Currently used for x86_64 and arm32 ABI: Returns a list of
|
|
;; (list 'integer/'float size offset)
|
|
(let loop ([x x] [offset 0] [accum '()])
|
|
(cond
|
|
[(ftd-base? x)
|
|
(cons (list (case (ftd-base-type x)
|
|
[(double double-float float single-float)
|
|
'float]
|
|
[else 'integer])
|
|
(ftd-size x)
|
|
offset)
|
|
accum)]
|
|
[(ftd-struct? x)
|
|
(let struct-loop ([field* (ftd-struct-field* x)] [accum accum])
|
|
(cond
|
|
[(null? field*) accum]
|
|
[else (let* ([fld (car field*)]
|
|
[sub-ftd (caddr fld)]
|
|
[sub-offset (cadr fld)])
|
|
(struct-loop (cdr field*)
|
|
(loop sub-ftd (+ offset sub-offset) accum)))]))]
|
|
[(ftd-union? x)
|
|
(let union-loop ([field* (ftd-union-field* x)] [accum accum])
|
|
(cond
|
|
[(null? field*) accum]
|
|
[else (let* ([fld (car field*)]
|
|
[sub-ftd (cdr fld)])
|
|
(union-loop (cdr field*)
|
|
(loop sub-ftd offset accum)))]))]
|
|
[(ftd-array? x)
|
|
(let ([elem-ftd (ftd-array-ftd x)])
|
|
(let array-loop ([len (ftd-array-length x)] [offset offset] [accum accum])
|
|
(cond
|
|
[(fx= len 0) accum]
|
|
[else (array-loop (fx- len 1)
|
|
(+ offset (ftd-size elem-ftd))
|
|
(loop elem-ftd offset accum))])))]
|
|
[else (cons (list 'integer (ftd-size x) offset) accum)]))))
|
|
(set! $ftd-atomic-category
|
|
(lambda (x)
|
|
;; Currently used for PowerPC32 ABI
|
|
(cond
|
|
[(ftd-base? x)
|
|
(case (ftd-base-type x)
|
|
[(double double-float float single-float)
|
|
'float]
|
|
[(unsigned-short unsigned unsigned-int
|
|
unsigned-long unsigned-long-long
|
|
unsigned-8 unsigned-16 unsigned-32 unsigned-64)
|
|
'unsigned]
|
|
[else 'integer])]
|
|
[else 'integer])))
|
|
(set! $expand-fp-ftype ; for foreign-procedure, foreign-callable
|
|
(lambda (who what r ftype)
|
|
(indirect-ftd-pointer
|
|
(expand-fp-ftype who what r ftype '()))))
|
|
(let ()
|
|
(define-who ftype-access-code
|
|
(lambda (whoid ftd a* fptr-expr offset)
|
|
(let loop ([ftd ftd] [a* a*] [fptr-expr fptr-expr] [offset offset] [idx* '()])
|
|
(if (null? a*)
|
|
(values fptr-expr offset ftd idx* #f)
|
|
(let ([a (car a*)])
|
|
(cond
|
|
[(ftd-struct? ftd)
|
|
(let ([s (syntax->datum a)])
|
|
(cond
|
|
[(and (symbol? s) (assq s (ftd-struct-field* ftd))) =>
|
|
(lambda (field)
|
|
(let ([offset #`(#3%fx+ #,offset #,(cadr field))] [ftd (caddr field)])
|
|
(loop ftd (cdr a*) fptr-expr offset idx*)))]
|
|
[else (syntax-error a "unexpected accessor")]))]
|
|
[(ftd-union? ftd)
|
|
(let ([s (syntax->datum a)])
|
|
(cond
|
|
[(and (symbol? s) (assq s (ftd-union-field* ftd))) =>
|
|
(lambda (field)
|
|
(let ([ftd (cdr field)])
|
|
(loop ftd (cdr a*) fptr-expr offset idx*)))]
|
|
[else (syntax-error a "unexpected accessor")]))]
|
|
[(ftd-array? ftd)
|
|
(let ([elt-ftd (ftd-array-ftd ftd)] [len (ftd-array-length ftd)])
|
|
(if (memv (syntax->datum a) '(* 0))
|
|
(loop elt-ftd (cdr a*) fptr-expr offset idx*)
|
|
(let ([a-id (car (generate-temporaries (list #'i)))])
|
|
(loop elt-ftd (cdr a*) fptr-expr
|
|
#`(#3%fx+ #,offset (#3%fx* #,a-id #,(ftd-size elt-ftd)))
|
|
(cons (list ftd a-id a len) idx*)))))]
|
|
[(ftd-pointer? ftd)
|
|
(let ([elt-ftd (ftd-pointer-ftd ftd)])
|
|
(let ([fptr-expr #`(#3%$fptr-fptr-ref #,fptr-expr #,offset '#,elt-ftd)])
|
|
(if (memv (syntax->datum a) '(* 0))
|
|
(loop elt-ftd (cdr a*) fptr-expr 0 idx*)
|
|
(let ([a-id (car (generate-temporaries (list #'i)))])
|
|
(loop elt-ftd (cdr a*) fptr-expr
|
|
(trans-idx a-id a elt-ftd (make-index-info whoid a ftd #f))
|
|
(cons (list ftd a-id a #f) idx*))))))]
|
|
[(ftd-bits? ftd)
|
|
(let ([s (syntax->datum a)])
|
|
(cond
|
|
[(and (symbol? s) (assq s (ftd-bits-field* ftd))) =>
|
|
(lambda (field)
|
|
(unless (null? (cdr a*))
|
|
(syntax-error (cadr a*) "unexpected accessor"))
|
|
(values fptr-expr offset ftd idx* field))]
|
|
[else (syntax-error a "unexpected accessor")]))]
|
|
[(ftd-base? ftd) (syntax-error a "unexpected accessor")]
|
|
[(ftd-function? ftd) (syntax-error a "unexpected accessor")]
|
|
[else ($oops who "unhandled ftd ~s" ftd)]))))))
|
|
(define trans-bitfield
|
|
(lambda (ftd signed? offset start end do-base do-bits)
|
|
(define (little-endian?)
|
|
(constant-case native-endianness
|
|
[(little) (not (ftd-bits-swap? ftd))]
|
|
[(big) (ftd-bits-swap? ftd)]))
|
|
(let ([width (fx- end start)])
|
|
(cond
|
|
[(and (fx= width 8) (fx= (mod start 8) 0))
|
|
(do-base (if signed? 'integer-8 'unsigned-8) #f
|
|
#`(fx+ #,offset
|
|
#,(if (little-endian?)
|
|
(div start 8)
|
|
(fx- (ftd-size ftd) (div start 8) 1))))]
|
|
[(and (fx= width 16) (fx= (mod start 16) 0))
|
|
(do-base (if signed? 'integer-16 'unsigned-16) (ftd-bits-swap? ftd)
|
|
#`(fx+ #,offset
|
|
#,(if (little-endian?)
|
|
(div start 8)
|
|
(fx- (ftd-size ftd) (div start 8) 2))))]
|
|
[(and (fx= width 32) (fx= (mod start 32) 0))
|
|
(do-base (if signed? 'integer-32 'unsigned-32) (ftd-bits-swap? ftd)
|
|
#`(fx+ #,offset
|
|
#,(if (little-endian?)
|
|
(div start 8)
|
|
(fx- (ftd-size ftd) (div start 8) 4))))]
|
|
[(and (fx= width 64) (fx= start 0))
|
|
(do-base (if signed? 'integer-64 'unsigned-64) (ftd-bits-swap? ftd) offset)]
|
|
[else
|
|
(or (and (and (fx= (ftd-size ftd) 8) (fx= (constant ptr-bits) 32))
|
|
(cond
|
|
[(and (fx>= start 0) (fx<= end 32))
|
|
(do-bits 4 (if (little-endian?) offset #`(fx+ #,offset 4)) start end)]
|
|
[(and (fx>= start 32) (fx<= end 64))
|
|
(do-bits 4 (if (little-endian?) #`(fx+ #,offset 4) offset) (fx- start 32) (fx- end 32))]
|
|
[else #f]))
|
|
(do-bits (ftd-size ftd) offset start end))]))))
|
|
(define trans-idx
|
|
(lambda (?idx ?orig-idx ftd info)
|
|
(if (memv (syntax->datum ?idx) '(* 0))
|
|
0
|
|
(if (ftd-function? ftd)
|
|
(syntax-error ?orig-idx "cannot calculate offset for function index")
|
|
(let ([size (ftd-size ftd)])
|
|
(if (fx= (optimize-level) 3)
|
|
#`(#3%fx* #,size #,?idx)
|
|
#`(let ([idx #,?idx])
|
|
(or (and (fixnum? idx)
|
|
(let ([offset (* #,size idx)])
|
|
(and (fixnum? offset)
|
|
(fixnum? (+ offset #,(fx- size 1)))
|
|
offset)))
|
|
($invalid-ftype-index '#,info idx)))))))))
|
|
(set! $trans-ftype-&ref
|
|
(lambda (q)
|
|
(define trans
|
|
(lambda (ftype a* fptr-expr ?idx)
|
|
(lambda (r)
|
|
(let ([ftd (expand-ftype-name r ftype)])
|
|
(let ([fptr-expr (if (fx= (optimize-level) 3)
|
|
fptr-expr
|
|
#`(let ([fptr #,fptr-expr])
|
|
($verify-ftype-pointer '#,(make-ftd-info 'ftype-&ref fptr-expr ftd) fptr)
|
|
fptr))])
|
|
(if (and (null? a*) (memv (syntax->datum ?idx) '(* 0)))
|
|
fptr-expr
|
|
#`(let ([offset #,(trans-idx ?idx ?idx ftd (make-index-info #'ftype-&ref ?idx ftd #t))])
|
|
#,(let-values ([(fptr-expr offset ftd idx* bitfield)
|
|
(ftype-access-code #'ftype-&ref ftd a* fptr-expr #'offset)])
|
|
(when bitfield (syntax-error q "cannot take address of bit field"))
|
|
(with-syntax ([((containing-ftd a-id a len) ...) idx*])
|
|
(with-syntax ([(info ...) (map (lambda (a containing-ftd) (make-index-info 'ftype-&ref a containing-ftd #f)) #'(a ...) #'(containing-ftd ...))])
|
|
#`(let ([a-id a] ...)
|
|
(unless (or #,(fx= (optimize-level) 3) (not len))
|
|
(unless (and (fixnum? a-id) (if (eqv? len 0) (fx>= a-id 0) ($fxu< a-id len)))
|
|
($invalid-ftype-index 'info a-id)))
|
|
...
|
|
(#3%$fptr-&ref #,fptr-expr #,offset '#,ftd))))))))))))
|
|
(syntax-case q ()
|
|
[(_ ftype (a ...) fptr-expr)
|
|
(identifier? #'ftype)
|
|
(trans #'ftype #'(a ...) #'fptr-expr 0)]
|
|
[(_ ftype (a ...) fptr-expr ?idx)
|
|
(identifier? #'ftype)
|
|
(trans #'ftype #'(a ...) #'fptr-expr #'?idx)])))
|
|
(set! $trans-ftype-ref
|
|
(lambda (q)
|
|
(define trans
|
|
(lambda (ftype a* fptr-expr ?idx)
|
|
(lambda (r)
|
|
(let ([ftd (expand-ftype-name r ftype)])
|
|
(let ([fptr-expr (if (fx= (optimize-level) 3)
|
|
fptr-expr
|
|
#`(let ([fptr #,fptr-expr])
|
|
($verify-ftype-pointer '#,(make-ftd-info 'ftype-ref fptr-expr ftd) fptr)
|
|
fptr))])
|
|
#`(let ([offset #,(trans-idx ?idx ?idx ftd (make-index-info #'ftype-ref ?idx ftd #t))])
|
|
#,(let-values ([(fptr-expr offset ftd idx* bitfield)
|
|
(ftype-access-code #'ftype-ref ftd a* fptr-expr #'offset)])
|
|
(define (do-base type swap? offset)
|
|
(with-syntax ([$fptr-ref-x (datum->syntax #'kwd
|
|
(string->symbol
|
|
(format "$fptr-ref-~:[~;swap-~]~a"
|
|
swap? type)))])
|
|
#`(#3%$fptr-ref-x #,fptr-expr #,offset)))
|
|
(with-syntax ([((containing-ftd a-id a len) ...) idx*])
|
|
(with-syntax ([(info ...) (map (lambda (a containing-ftd) (make-index-info 'ftype-ref a containing-ftd #f)) #'(a ...) #'(containing-ftd ...))])
|
|
#`(let ([a-id a] ...)
|
|
(unless (or #,(fx= (optimize-level) 3) (not len))
|
|
(unless (and (fixnum? a-id) (if (eqv? len 0) (fx>= a-id 0) ($fxu< a-id len)))
|
|
($invalid-ftype-index 'info a-id)))
|
|
...
|
|
#,(cond
|
|
[bitfield
|
|
(apply
|
|
(lambda (id signed? start end)
|
|
(trans-bitfield ftd signed? offset start end do-base
|
|
(lambda (size offset start end)
|
|
(with-syntax ([$fptr-ref-bits-x (datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-~:[u~;i~]bits-~:[~;swap-~]~a"
|
|
signed?
|
|
(ftd-bits-swap? ftd)
|
|
(unsigned-type size))))])
|
|
#`(#3%$fptr-ref-bits-x #,fptr-expr #,offset #,start #,end)))))
|
|
bitfield)]
|
|
[(ftd-base? ftd) (do-base (filter-foreign-type (ftd-base-type ftd)) (ftd-base-swap? ftd) offset)]
|
|
[(ftd-pointer? ftd) #`(#3%$fptr-fptr-ref #,fptr-expr #,offset '#,(ftd-pointer-ftd ftd))]
|
|
[(ftd-function? ftd)
|
|
($make-foreign-procedure 'make-ftype-pointer
|
|
(ftd-function-conv* ftd)
|
|
#f
|
|
#`($fptr-offset-addr #,fptr-expr offset)
|
|
(map indirect-ftd-pointer (ftd-function-arg-type* ftd))
|
|
(indirect-ftd-pointer (ftd-function-result-type ftd)))]
|
|
[else (syntax-error q "non-scalar value cannot be referenced")])))))))))))
|
|
(syntax-case q ()
|
|
[(_ ftype (a ...) fptr-expr)
|
|
(identifier? #'ftype)
|
|
(trans #'ftype #'(a ...) #'fptr-expr 0)]
|
|
[(_ ftype (a ...) fptr-expr ?idx)
|
|
(identifier? #'ftype)
|
|
(trans #'ftype #'(a ...) #'fptr-expr #'?idx)])))
|
|
(set! $trans-ftype-set!
|
|
(lambda (q)
|
|
(define trans
|
|
(lambda (ftype a* fptr-expr ?idx val-expr)
|
|
(lambda (r)
|
|
(let ([ftd (expand-ftype-name r ftype)])
|
|
(let ([fptr-expr (if (fx= (optimize-level) 3)
|
|
fptr-expr
|
|
#`(let ([fptr #,fptr-expr])
|
|
($verify-ftype-pointer '#,(make-ftd-info 'ftype-set! fptr-expr ftd) fptr)
|
|
fptr))])
|
|
#`(let ([offset #,(trans-idx ?idx ?idx ftd (make-index-info #'ftype-set! ?idx ftd #t))] [val #,val-expr])
|
|
#,(let-values ([(fptr-expr offset ftd idx* bitfield)
|
|
(ftype-access-code #'ftype-set! ftd a* fptr-expr #'offset)])
|
|
(define (do-base orig-type)
|
|
(lambda (type swap? offset)
|
|
(with-syntax ([$fptr-set-x! (datum->syntax #'kwd
|
|
(string->symbol
|
|
(format "$fptr-set-~:[~;swap-~]~a!"
|
|
swap? type)))])
|
|
#`($fptr-set-x! '#,(make-field-info orig-type val-expr) #,fptr-expr #,offset val))))
|
|
(with-syntax ([((containing-ftd a-id a len) ...) idx*])
|
|
(with-syntax ([(info ...) (map (lambda (a containing-ftd) (make-index-info 'ftype-set! a containing-ftd #f)) #'(a ...) #'(containing-ftd ...))])
|
|
#`(let ([a-id a] ...)
|
|
(unless (or #,(fx= (optimize-level) 3) (not len))
|
|
(unless (and (fixnum? a-id) (if (eqv? len 0) (fx>= a-id 0) ($fxu< a-id len)))
|
|
($invalid-ftype-index 'info a-id)))
|
|
...
|
|
#,(cond
|
|
[bitfield
|
|
(apply
|
|
(lambda (id signed? start end)
|
|
(trans-bitfield ftd signed? offset start end (do-base 'bit-field)
|
|
(lambda (size offset start end)
|
|
(with-syntax ([$fptr-set-bits-x! (datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-set-bits-~:[~;swap-~]~a!"
|
|
(ftd-bits-swap? ftd)
|
|
(unsigned-type size))))])
|
|
#`($fptr-set-bits-x! #,fptr-expr #,offset #,start #,end val)))))
|
|
bitfield)]
|
|
[(ftd-base? ftd)
|
|
(let ([orig-type (ftd-base-type ftd)])
|
|
((do-base orig-type) (filter-foreign-type orig-type) (ftd-base-swap? ftd) offset))]
|
|
[(ftd-pointer? ftd)
|
|
#`(begin
|
|
(unless #,(fx= (optimize-level) 3)
|
|
($verify-ftype-pointer '#,(make-ftd-info 'ftype-set! val-expr (ftd-pointer-ftd ftd)) val))
|
|
(#3%$fptr-fptr-set! #,fptr-expr #,offset val))]
|
|
[else (syntax-error q "non-scalar value cannot be assigned")])))))))))))
|
|
(syntax-case q ()
|
|
[(_ ftype (a ...) fptr-expr val-expr)
|
|
(identifier? #'ftype)
|
|
(trans #'ftype #'(a ...) #'fptr-expr 0 #'val-expr)]
|
|
[(_ ftype (a ...) fptr-expr ?idx val-expr)
|
|
(identifier? #'ftype)
|
|
(trans #'ftype #'(a ...) #'fptr-expr #'?idx #'val-expr)])))
|
|
(set-who! $trans-ftype-locked-op!
|
|
(lambda (who q prim)
|
|
(define trans
|
|
(lambda (ftype a* fptr-expr ?idx)
|
|
(lambda (r)
|
|
(let ([ftd (expand-ftype-name r ftype)])
|
|
(let ([fptr-expr (if (fx= (optimize-level) 3)
|
|
fptr-expr
|
|
#`(let ([fptr #,fptr-expr])
|
|
($verify-ftype-pointer '#,(make-ftd-info who fptr-expr ftd) fptr)
|
|
fptr))])
|
|
#`(let ([offset #,(trans-idx ?idx ?idx ftd (make-index-info who ?idx ftd #t))])
|
|
#,(let-values ([(fptr-expr offset ftd idx* bitfield)
|
|
(ftype-access-code who ftd a* fptr-expr #'offset)])
|
|
(with-syntax ([((containing-ftd a-id a len) ...) idx*])
|
|
(with-syntax ([(info ...) (map (lambda (a containing-ftd) (make-index-info who a containing-ftd #f)) #'(a ...) #'(containing-ftd ...))])
|
|
#`(let ([a-id a] ...)
|
|
(unless (or #,(fx= (optimize-level) 3) (not len))
|
|
(unless (and (fixnum? a-id) (if (eqv? len 0) (fx>= a-id 0) ($fxu< a-id len)))
|
|
($invalid-ftype-index 'info a-id)))
|
|
...
|
|
#,(cond
|
|
[(ftd-base? ftd)
|
|
(let ([type (filter-foreign-type (ftd-base-type ftd))])
|
|
(unless (memq type
|
|
(constant-case ptr-bits
|
|
[(64) '(unsigned-64 integer-64)]
|
|
[(32) '(unsigned-32 integer-32)]))
|
|
(syntax-error q "locked operation on non-integer or non-word-size field unsupported"))
|
|
(when (ftd-base-swap? ftd)
|
|
(syntax-error q "locked operation on swapped field unsupported"))
|
|
#`(($primitive 3 #,prim) #,fptr-expr #,offset))]
|
|
[else (syntax-error q "locked operation on non-base-type field unsupported")])))))))))))
|
|
(syntax-case q ()
|
|
[(_ ftype (a ...) fptr-expr)
|
|
(identifier? #'ftype)
|
|
(trans #'ftype #'(a ...) #'fptr-expr 0)]
|
|
[(_ ftype (a ...) fptr-expr ?idx)
|
|
(identifier? #'ftype)
|
|
(trans #'ftype #'(a ...) #'fptr-expr #'?idx)])))
|
|
(set! $trans-ftype-guardian
|
|
(lambda (q)
|
|
(lambda (r)
|
|
(syntax-case q ()
|
|
[(_ ftype)
|
|
(identifier? #'ftype)
|
|
(let ([ftd (expand-ftype-name r #'ftype)])
|
|
(unless (let lockable? ([ftd ftd])
|
|
(cond
|
|
[(ftd-base? ftd)
|
|
(let ([type (filter-foreign-type (ftd-base-type ftd))])
|
|
(and (memq type
|
|
(constant-case ptr-bits
|
|
[(64) '(unsigned-64 integer-64)]
|
|
[(32) '(unsigned-32 integer-32)]))
|
|
(not (ftd-base-swap? ftd))))]
|
|
[(ftd-struct? ftd)
|
|
(let ([ls (ftd-struct-field* ftd)])
|
|
(if (null? ls)
|
|
#f
|
|
(lockable? (caddr (car ls)))))]
|
|
[(ftd-union? ftd) (ormap lockable? (map cdr (ftd-union-field* ftd)))]
|
|
[(ftd-array? ftd) (lockable? (ftd-array-ftd ftd))]
|
|
[else #f]))
|
|
(syntax-error q "first field must be a word-sized integer with native endianness"))
|
|
#`(($primitive #,(if (fx= (optimize-level) 3) 3 2) $make-ftype-guardian) '#,ftd))])))))
|
|
; procedural entry point for inspector to simplify bootstrapping
|
|
(set! $ftype-pointer? (lambda (x) ($fptr? x)))
|
|
(set! $make-fptr
|
|
(lambda (ftd addr)
|
|
(#2%$make-fptr ftd addr)))
|
|
(set! $fptr-offset-addr
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-offset-addr fptr offset)))
|
|
(set! $fptr-&ref
|
|
(lambda (fptr offset ftd)
|
|
(#3%$fptr-&ref fptr offset ftd)))
|
|
(set! $fptr-fptr-ref
|
|
(lambda (fptr offset ftd)
|
|
(#3%$fptr-fptr-ref fptr offset ftd)))
|
|
|
|
(set! $fptr-ref-integer-8
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-integer-8 fptr offset)))
|
|
(set! $fptr-ref-unsigned-8
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-unsigned-8 fptr offset)))
|
|
|
|
(set! $fptr-ref-integer-16
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-integer-16 fptr offset)))
|
|
(set! $fptr-ref-unsigned-16
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-unsigned-16 fptr offset)))
|
|
(set! $fptr-ref-swap-integer-16
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-integer-16 fptr offset)))
|
|
(set! $fptr-ref-swap-unsigned-16
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-unsigned-16 fptr offset)))
|
|
|
|
(set! $fptr-ref-integer-24
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-integer-24 fptr offset)))
|
|
(set! $fptr-ref-unsigned-24
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-unsigned-24 fptr offset)))
|
|
(set! $fptr-ref-swap-integer-24
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-integer-24 fptr offset)))
|
|
(set! $fptr-ref-swap-unsigned-24
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-unsigned-24 fptr offset)))
|
|
|
|
(set! $fptr-ref-integer-32
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-integer-32 fptr offset)))
|
|
(set! $fptr-ref-unsigned-32
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-unsigned-32 fptr offset)))
|
|
(set! $fptr-ref-swap-integer-32
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-integer-32 fptr offset)))
|
|
(set! $fptr-ref-swap-unsigned-32
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-unsigned-32 fptr offset)))
|
|
|
|
(set! $fptr-ref-integer-40
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-integer-40 fptr offset)))
|
|
(set! $fptr-ref-unsigned-40
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-unsigned-40 fptr offset)))
|
|
(set! $fptr-ref-swap-integer-40
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-integer-40 fptr offset)))
|
|
(set! $fptr-ref-swap-unsigned-40
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-unsigned-40 fptr offset)))
|
|
|
|
(set! $fptr-ref-integer-48
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-integer-48 fptr offset)))
|
|
(set! $fptr-ref-unsigned-48
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-unsigned-48 fptr offset)))
|
|
(set! $fptr-ref-swap-integer-48
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-integer-48 fptr offset)))
|
|
(set! $fptr-ref-swap-unsigned-48
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-unsigned-48 fptr offset)))
|
|
|
|
(set! $fptr-ref-integer-56
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-integer-56 fptr offset)))
|
|
(set! $fptr-ref-unsigned-56
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-unsigned-56 fptr offset)))
|
|
(set! $fptr-ref-swap-integer-56
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-integer-56 fptr offset)))
|
|
(set! $fptr-ref-swap-unsigned-56
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-unsigned-56 fptr offset)))
|
|
|
|
(set! $fptr-ref-integer-64
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-integer-64 fptr offset)))
|
|
(set! $fptr-ref-unsigned-64
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-unsigned-64 fptr offset)))
|
|
(set! $fptr-ref-swap-integer-64
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-integer-64 fptr offset)))
|
|
(set! $fptr-ref-swap-unsigned-64
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-unsigned-64 fptr offset)))
|
|
|
|
(set! $fptr-ref-double-float
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-double-float fptr offset)))
|
|
(set! $fptr-ref-swap-double-float
|
|
(lambda (fptr offset)
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-ref-swap-double-float fptr offset)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
(bytevector-u64-set! bv 0
|
|
(foreign-ref 'unsigned-64 ($ftype-pointer-address fptr) offset)
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))
|
|
($object-ref 'double-float bv (constant bytevector-data-disp)))])))
|
|
|
|
(set! $fptr-ref-single-float
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-single-float fptr offset)))
|
|
(set! $fptr-ref-swap-single-float
|
|
(lambda (fptr offset)
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-ref-swap-single-float fptr offset)]
|
|
[(32) (let ([bv (make-bytevector 4)])
|
|
(bytevector-u32-set! bv 0
|
|
(foreign-ref 'unsigned-32 ($ftype-pointer-address fptr) offset)
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))
|
|
($object-ref 'single-float bv (constant bytevector-data-disp)))])))
|
|
|
|
(set! $fptr-ref-char
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-char fptr offset)))
|
|
|
|
(set! $fptr-ref-wchar
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-wchar fptr offset)))
|
|
(set! $fptr-ref-swap-wchar
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-wchar fptr offset)))
|
|
|
|
(set! $fptr-ref-boolean
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-boolean fptr offset)))
|
|
(set! $fptr-ref-swap-boolean
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-boolean fptr offset)))
|
|
|
|
(set! $fptr-ref-fixnum
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-fixnum fptr offset)))
|
|
(set! $fptr-ref-swap-fixnum
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-ref-swap-fixnum fptr offset)))
|
|
|
|
(set-who! $fptr-ref
|
|
(lambda (ty swap? fptr offset)
|
|
(define-syntax proc
|
|
(lambda (x)
|
|
(syntax-case x (scheme-object)
|
|
[(_ scheme-object bytes pred) #'($oops who "unexpected type ~s" ty)]
|
|
[(_ type bytes pred)
|
|
(if (memq (datum type) '(char integer-8 unsigned-8))
|
|
(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-~a" (datum type))))
|
|
#`(if swap?
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-swap-~a" (datum type))))
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-~a" (datum type))))))])))
|
|
((record-datatype cases ty proc
|
|
($oops who "unrecognized type ~s" ty))
|
|
fptr offset)))
|
|
|
|
(set-who! $fptr-fptr-set!
|
|
(lambda (fptr offset val)
|
|
(#3%$fptr-fptr-set! fptr offset val)))
|
|
|
|
(let ()
|
|
(define invalid-value
|
|
(lambda (info val)
|
|
($source-violation 'ftype-set! (src-info-src info) #t
|
|
"invalid value ~s for type ~s" val (field-info-type info))))
|
|
(set! $fptr-set-integer-8!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-8? val) (invalid-value info val))
|
|
(#3%$fptr-set-integer-8! info fptr offset val)))
|
|
(set! $fptr-set-unsigned-8!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-8? val) (invalid-value info val))
|
|
(#3%$fptr-set-unsigned-8! info fptr offset val)))
|
|
|
|
(set! $fptr-set-integer-16!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-16? val) (invalid-value info val))
|
|
(#3%$fptr-set-integer-16! info fptr offset val)))
|
|
(set! $fptr-set-unsigned-16!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-16? val) (invalid-value info val))
|
|
(#3%$fptr-set-unsigned-16! info fptr offset val)))
|
|
(set! $fptr-set-swap-integer-16!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-16? val) (invalid-value info val))
|
|
(#3%$fptr-set-swap-integer-16! info fptr offset val)))
|
|
(set! $fptr-set-swap-unsigned-16!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-16? val) (invalid-value info val))
|
|
(#3%$fptr-set-swap-unsigned-16! info fptr offset val)))
|
|
|
|
(set! $fptr-set-integer-24!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-24? val) (invalid-value info val))
|
|
(#3%$fptr-set-integer-24! info fptr offset val)))
|
|
(set! $fptr-set-unsigned-24!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-24? val) (invalid-value info val))
|
|
(#3%$fptr-set-unsigned-24! info fptr offset val)))
|
|
(set! $fptr-set-swap-integer-24!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-24? val) (invalid-value info val))
|
|
(#3%$fptr-set-swap-integer-24! info fptr offset val)))
|
|
(set! $fptr-set-swap-unsigned-24!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-24? val) (invalid-value info val))
|
|
(#3%$fptr-set-swap-unsigned-24! info fptr offset val)))
|
|
|
|
(set! $fptr-set-integer-32!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-32? val) (invalid-value info val))
|
|
(#3%$fptr-set-integer-32! info fptr offset val)))
|
|
(set! $fptr-set-unsigned-32!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-32? val) (invalid-value info val))
|
|
(#3%$fptr-set-unsigned-32! info fptr offset val)))
|
|
(set! $fptr-set-swap-integer-32!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-32? val) (invalid-value info val))
|
|
(#3%$fptr-set-swap-integer-32! info fptr offset val)))
|
|
(set! $fptr-set-swap-unsigned-32!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-32? val) (invalid-value info val))
|
|
(#3%$fptr-set-swap-unsigned-32! info fptr offset val)))
|
|
|
|
(set! $fptr-set-integer-40!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-40? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-integer-40! info fptr offset val)]
|
|
[(32) (foreign-set! 'integer-40 ($ftype-pointer-address fptr) offset val)])))
|
|
(set! $fptr-set-unsigned-40!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-40? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-unsigned-40! info fptr offset val)]
|
|
[(32) (foreign-set! 'unsigned-40 ($ftype-pointer-address fptr) offset val)])))
|
|
(set! $fptr-set-swap-integer-40!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-40? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-integer-40! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'integer-40 bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-40 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u40-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
(set! $fptr-set-swap-unsigned-40!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-40? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-unsigned-40! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'unsigned-40 bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-40 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u40-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
|
|
(set! $fptr-set-integer-48!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-48? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-integer-48! info fptr offset val)]
|
|
[(32) (foreign-set! 'integer-48 ($ftype-pointer-address fptr) offset val)])))
|
|
(set! $fptr-set-unsigned-48!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-48? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-unsigned-48! info fptr offset val)]
|
|
[(32) (foreign-set! 'unsigned-48 ($ftype-pointer-address fptr) offset val)])))
|
|
(set! $fptr-set-swap-integer-48!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-48? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-integer-48! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'integer-48 bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-48 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u48-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
(set! $fptr-set-swap-unsigned-48!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-48? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-unsigned-48! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'unsigned-48 bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-48 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u48-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
|
|
(set! $fptr-set-integer-56!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-56? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-integer-56! info fptr offset val)]
|
|
[(32) (foreign-set! 'integer-56 ($ftype-pointer-address fptr) offset val)])))
|
|
(set! $fptr-set-unsigned-56!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-56? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-unsigned-56! info fptr offset val)]
|
|
[(32) (foreign-set! 'unsigned-56 ($ftype-pointer-address fptr) offset val)])))
|
|
(set! $fptr-set-swap-integer-56!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-56? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-integer-56! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'integer-56 bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-56 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u56-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
(set! $fptr-set-swap-unsigned-56!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-56? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-unsigned-56! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'unsigned-56 bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-56 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u56-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
|
|
(set! $fptr-set-integer-64!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-64? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-integer-64! info fptr offset val)]
|
|
[(32) (foreign-set! 'integer-64 ($ftype-pointer-address fptr) offset val)])))
|
|
(set! $fptr-set-unsigned-64!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-64? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-unsigned-64! info fptr offset val)]
|
|
[(32) (foreign-set! 'unsigned-64 ($ftype-pointer-address fptr) offset val)])))
|
|
(set! $fptr-set-swap-integer-64!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-64? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-integer-64! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'integer-64 bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-64 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u64-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
(set! $fptr-set-swap-unsigned-64!
|
|
(lambda (info fptr offset val)
|
|
(unless ($integer-64? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-unsigned-64! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'unsigned-64 bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-64 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u64-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
|
|
(set! $fptr-set-double-float!
|
|
(lambda (info fptr offset val)
|
|
(unless (flonum? val) (invalid-value info val))
|
|
(#3%$fptr-set-double-float! info fptr offset val)))
|
|
(set! $fptr-set-swap-double-float!
|
|
(lambda (info fptr offset val)
|
|
(unless (flonum? val) (invalid-value info val))
|
|
(constant-case ptr-bits
|
|
[(64) (#3%$fptr-set-swap-double-float! info fptr offset val)]
|
|
[(32) (let ([bv (make-bytevector 8)])
|
|
($object-set! 'double-float bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-64 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u64-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))])))
|
|
|
|
(set! $fptr-set-single-float!
|
|
(lambda (info fptr offset val)
|
|
(unless (flonum? val) (invalid-value info val))
|
|
(#3%$fptr-set-single-float! info fptr offset val)))
|
|
(set! $fptr-set-swap-single-float!
|
|
(lambda (info fptr offset val)
|
|
(unless (flonum? val) (invalid-value info val))
|
|
(let ([bv (make-bytevector 4)])
|
|
($object-set! 'single-float bv (constant bytevector-data-disp) val)
|
|
(foreign-set! 'unsigned-32 ($ftype-pointer-address fptr) offset
|
|
(bytevector-u32-ref bv 0
|
|
(if (eq? (constant native-endianness) 'big) 'little 'big))))))
|
|
|
|
(set! $fptr-set-char!
|
|
(lambda (info fptr offset val)
|
|
(unless (char? val) (invalid-value info val))
|
|
(#3%$fptr-set-char! info fptr offset val)))
|
|
|
|
(set! $fptr-set-wchar!
|
|
(lambda (info fptr offset val)
|
|
(unless (char? val) (invalid-value info val))
|
|
(#3%$fptr-set-wchar! info fptr offset val)))
|
|
(set! $fptr-set-swap-wchar!
|
|
(lambda (info fptr offset val)
|
|
(unless (char? val) (invalid-value info val))
|
|
(#3%$fptr-set-swap-wchar! info fptr offset val)))
|
|
|
|
(set! $fptr-set-boolean!
|
|
(lambda (info fptr offset val)
|
|
(#3%$fptr-set-boolean! info fptr offset val)))
|
|
(set! $fptr-set-swap-boolean!
|
|
(lambda (info fptr offset val)
|
|
(#3%$fptr-set-swap-boolean! info fptr offset val)))
|
|
|
|
(set! $fptr-set-fixnum!
|
|
(lambda (info fptr offset val)
|
|
(unless (fixnum? val) (invalid-value info val))
|
|
(#3%$fptr-set-fixnum! info fptr offset val)))
|
|
(set! $fptr-set-swap-fixnum!
|
|
(lambda (info fptr offset val)
|
|
(unless (fixnum? val) (invalid-value info val))
|
|
(#3%$fptr-set-swap-fixnum! info fptr offset val)))
|
|
)
|
|
|
|
(set-who! $fptr-set!
|
|
(lambda (orig-type ty swap? fptr offset val)
|
|
(define-syntax proc
|
|
(lambda (x)
|
|
(syntax-case x (scheme-object)
|
|
[(_ scheme-object bytes pred) #'($oops who "unexpected type ~s" ty)]
|
|
[(_ type bytes pred)
|
|
(if (memq (datum type) '(char integer-8 unsigned-8))
|
|
#`($primitive 2
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-set-~a!" (datum type)))))
|
|
#`(if swap?
|
|
($primitive 2
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-set-swap-~a!" (datum type)))))
|
|
($primitive 2
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-set-~a!" (datum type)))))))])))
|
|
((record-datatype cases ty proc
|
|
($oops who "unrecognized type ~s" ty))
|
|
orig-type fptr offset val)))
|
|
|
|
(let ()
|
|
(define-syntax $fptr-ref-ibits
|
|
(lambda (x)
|
|
(syntax-case x ()
|
|
[(kwd k swap?)
|
|
(with-syntax ([$fptr-ref-x (datum->syntax #'kwd
|
|
(string->symbol
|
|
(format "$fptr-ref-~:[~;swap-~]unsigned-~a"
|
|
(datum swap?)
|
|
(datum k))))])
|
|
(if (<= (expt 2 (datum k)) (constant most-positive-fixnum))
|
|
#'(lambda (fptr offset start end)
|
|
(let ([radix (fxsll 1 (fx- end start))])
|
|
(let ([n (fxlogand
|
|
(fxsra ($fptr-ref-x fptr offset) start)
|
|
(fx- radix 1))])
|
|
(if (fx>= n (fxsra radix 1)) (fx- n radix) n))))
|
|
#'(lambda (fptr offset start end)
|
|
(let ([radix (bitwise-arithmetic-shift-left 1 (fx- end start))])
|
|
(let ([n (logand
|
|
(bitwise-arithmetic-shift-right
|
|
($fptr-ref-x fptr offset)
|
|
start)
|
|
(- radix 1))])
|
|
(if (>= n (bitwise-arithmetic-shift-right radix 1))
|
|
(- n radix)
|
|
n))))))])))
|
|
(set! $fptr-ref-ibits-unsigned-8 ($fptr-ref-ibits 8 #f))
|
|
(set! $fptr-ref-ibits-swap-unsigned-16 ($fptr-ref-ibits 16 #t))
|
|
(set! $fptr-ref-ibits-unsigned-16 ($fptr-ref-ibits 16 #f))
|
|
(set! $fptr-ref-ibits-swap-unsigned-24 ($fptr-ref-ibits 24 #t))
|
|
(set! $fptr-ref-ibits-unsigned-24 ($fptr-ref-ibits 24 #f))
|
|
(set! $fptr-ref-ibits-swap-unsigned-32 ($fptr-ref-ibits 32 #t))
|
|
(set! $fptr-ref-ibits-unsigned-32 ($fptr-ref-ibits 32 #f))
|
|
(set! $fptr-ref-ibits-swap-unsigned-40 ($fptr-ref-ibits 40 #t))
|
|
(set! $fptr-ref-ibits-unsigned-40 ($fptr-ref-ibits 40 #f))
|
|
(set! $fptr-ref-ibits-swap-unsigned-48 ($fptr-ref-ibits 48 #t))
|
|
(set! $fptr-ref-ibits-unsigned-48 ($fptr-ref-ibits 48 #f))
|
|
(set! $fptr-ref-ibits-swap-unsigned-56 ($fptr-ref-ibits 56 #t))
|
|
(set! $fptr-ref-ibits-unsigned-56 ($fptr-ref-ibits 56 #f))
|
|
(set! $fptr-ref-ibits-swap-unsigned-64 ($fptr-ref-ibits 64 #t))
|
|
(set! $fptr-ref-ibits-unsigned-64 ($fptr-ref-ibits 64 #f)))
|
|
|
|
(let ()
|
|
(define-syntax $fptr-ref-ubits
|
|
(lambda (x)
|
|
(syntax-case x ()
|
|
[(kwd k swap?)
|
|
(with-syntax ([$fptr-ref-x (datum->syntax #'kwd
|
|
(string->symbol
|
|
(format "$fptr-ref-~:[~;swap-~]unsigned-~a"
|
|
(datum swap?)
|
|
(datum k))))])
|
|
(if (<= (expt 2 (datum k)) (constant most-positive-fixnum))
|
|
#'(lambda (fptr offset start end)
|
|
(let ([radix (fxsll 1 (fx- end start))])
|
|
(fxlogand
|
|
(fxsrl ($fptr-ref-x fptr offset) start)
|
|
(fx- radix 1))))
|
|
#'(lambda (fptr offset start end)
|
|
(let ([radix (bitwise-arithmetic-shift-left 1 (fx- end start))])
|
|
(logand
|
|
(bitwise-arithmetic-shift-right ($fptr-ref-x fptr offset) start)
|
|
(- radix 1))))))])))
|
|
(set! $fptr-ref-ubits-unsigned-8 ($fptr-ref-ubits 8 #f))
|
|
(set! $fptr-ref-ubits-swap-unsigned-16 ($fptr-ref-ubits 16 #t))
|
|
(set! $fptr-ref-ubits-unsigned-16 ($fptr-ref-ubits 16 #f))
|
|
(set! $fptr-ref-ubits-swap-unsigned-24 ($fptr-ref-ubits 24 #t))
|
|
(set! $fptr-ref-ubits-unsigned-24 ($fptr-ref-ubits 24 #f))
|
|
(set! $fptr-ref-ubits-swap-unsigned-32 ($fptr-ref-ubits 32 #t))
|
|
(set! $fptr-ref-ubits-unsigned-32 ($fptr-ref-ubits 32 #f))
|
|
(set! $fptr-ref-ubits-swap-unsigned-40 ($fptr-ref-ubits 40 #t))
|
|
(set! $fptr-ref-ubits-unsigned-40 ($fptr-ref-ubits 40 #f))
|
|
(set! $fptr-ref-ubits-swap-unsigned-48 ($fptr-ref-ubits 48 #t))
|
|
(set! $fptr-ref-ubits-unsigned-48 ($fptr-ref-ubits 48 #f))
|
|
(set! $fptr-ref-ubits-swap-unsigned-56 ($fptr-ref-ubits 56 #t))
|
|
(set! $fptr-ref-ubits-unsigned-56 ($fptr-ref-ubits 56 #f))
|
|
(set! $fptr-ref-ubits-swap-unsigned-64 ($fptr-ref-ubits 64 #t))
|
|
(set! $fptr-ref-ubits-unsigned-64 ($fptr-ref-ubits 64 #f)))
|
|
|
|
(set-who! $fptr-ref-bits
|
|
(lambda (ty swap? signed? fptr offset start end)
|
|
(define-syntax proc
|
|
(lambda (x)
|
|
(syntax-case x ()
|
|
[(_ type)
|
|
(if (memq (datum type) '(char integer-8 unsigned-8))
|
|
#`(if signed?
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-ibits-~a" (datum type))))
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-ubits-~a" (datum type)))))
|
|
#`(if swap?
|
|
(if signed?
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-ibits-swap-~a" (datum type))))
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-ubits-swap-~a" (datum type)))))
|
|
(if signed?
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-ibits-~a" (datum type))))
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-ref-ubits-~a" (datum type)))))))])))
|
|
((case ty
|
|
[(unsigned-8) (proc unsigned-8)]
|
|
[(unsigned-16) (proc unsigned-16)]
|
|
[(unsigned-32) (proc unsigned-32)]
|
|
[(unsigned-64) (proc unsigned-64)]
|
|
[else ($oops who "unexpected type ~s" ty)])
|
|
fptr offset start end)))
|
|
|
|
(let ()
|
|
(define-syntax $fptr-set-bits!
|
|
(lambda (x)
|
|
(syntax-case x ()
|
|
[(kwd k swap?)
|
|
(with-syntax ([orig-type (datum->syntax #'kwd
|
|
(string->symbol
|
|
(format "unsigned-~a" (datum k))))]
|
|
[$fptr-ref-x (datum->syntax #'kwd
|
|
(string->symbol
|
|
(format "$fptr-ref-~:[~;swap-~]unsigned-~a"
|
|
(datum swap?)
|
|
(datum k))))]
|
|
[$fptr-set-x! (datum->syntax #'kwd
|
|
(string->symbol
|
|
(format "$fptr-set-~:[~;swap-~]unsigned-~a!"
|
|
(datum swap?)
|
|
(datum k))))])
|
|
(if (<= (expt 2 (datum k)) (constant most-positive-fixnum))
|
|
#'(lambda (fptr offset start end val)
|
|
(let* ([size (fx- end start)]
|
|
[radix (fxsll 1 size)]
|
|
[radix/2 (fxsrl radix 1)])
|
|
(unless (and (integer? val) (exact? val) (>= val (- radix/2)) (< val radix))
|
|
($oops 'ftype-set! "invalid value ~s for bit field of size ~s" val size))
|
|
($fptr-set-x! 'orig-type fptr offset
|
|
(fxlogor
|
|
(fxlogand
|
|
($fptr-ref-x fptr offset)
|
|
(fxlognot (fxsll (- radix 1) start)))
|
|
(fxsll
|
|
(if (fx< val 0) (fx+ val radix) val)
|
|
start)))))
|
|
#'(lambda (fptr offset start end val)
|
|
(let* ([size (fx- end start)]
|
|
[radix (bitwise-arithmetic-shift-left 1 size)]
|
|
[radix/2 (bitwise-arithmetic-shift-right radix 1)])
|
|
(unless (and (integer? val) (exact? val) (>= val (- radix/2)) (< val radix))
|
|
($oops 'ftype-set! "invalid value ~s for bit field of size ~s" val size))
|
|
($fptr-set-x! 'orig-type fptr offset
|
|
(logor
|
|
(logand
|
|
($fptr-ref-x fptr offset)
|
|
(lognot (bitwise-arithmetic-shift-left (- radix 1) start)))
|
|
(bitwise-arithmetic-shift-left
|
|
(if (< val 0) (+ val radix) val)
|
|
start)))))))])))
|
|
(set! $fptr-set-bits-unsigned-8! ($fptr-set-bits! 8 #f))
|
|
(set! $fptr-set-bits-swap-unsigned-16! ($fptr-set-bits! 16 #t))
|
|
(set! $fptr-set-bits-unsigned-16! ($fptr-set-bits! 16 #f))
|
|
(set! $fptr-set-bits-swap-unsigned-24! ($fptr-set-bits! 24 #t))
|
|
(set! $fptr-set-bits-unsigned-24! ($fptr-set-bits! 24 #f))
|
|
(set! $fptr-set-bits-swap-unsigned-32! ($fptr-set-bits! 32 #t))
|
|
(set! $fptr-set-bits-unsigned-32! ($fptr-set-bits! 32 #f))
|
|
(set! $fptr-set-bits-swap-unsigned-40! ($fptr-set-bits! 40 #t))
|
|
(set! $fptr-set-bits-unsigned-40! ($fptr-set-bits! 40 #f))
|
|
(set! $fptr-set-bits-swap-unsigned-48! ($fptr-set-bits! 48 #t))
|
|
(set! $fptr-set-bits-unsigned-48! ($fptr-set-bits! 48 #f))
|
|
(set! $fptr-set-bits-swap-unsigned-56! ($fptr-set-bits! 56 #t))
|
|
(set! $fptr-set-bits-unsigned-56! ($fptr-set-bits! 56 #f))
|
|
(set! $fptr-set-bits-swap-unsigned-64! ($fptr-set-bits! 64 #t))
|
|
(set! $fptr-set-bits-unsigned-64! ($fptr-set-bits! 64 #f)))
|
|
|
|
(set-who! $fptr-set-bits!
|
|
(lambda (ty swap? fptr offset start end val)
|
|
(define-syntax proc
|
|
(lambda (x)
|
|
(syntax-case x ()
|
|
[(_ type)
|
|
(if (memq (datum type) '(char integer-8 unsigned-8))
|
|
(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-set-bits-~a!" (datum type))))
|
|
#`(if swap?
|
|
($primitive 2
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-set-bits-swap-~a!" (datum type)))))
|
|
($primitive 2
|
|
#,(datum->syntax #'*
|
|
(string->symbol
|
|
(format "$fptr-set-bits-~a!" (datum type)))))))])))
|
|
((case ty
|
|
[(unsigned-8) (proc unsigned-8)]
|
|
[(unsigned-16) (proc unsigned-16)]
|
|
[(unsigned-32) (proc unsigned-32)]
|
|
[(unsigned-64) (proc unsigned-64)]
|
|
[else ($oops who "unexpected type ~s" ty)])
|
|
fptr offset start end val)))
|
|
|
|
(set! $fptr-locked-incr!
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-locked-incr! fptr offset)))
|
|
|
|
(set! $fptr-locked-decr!
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-locked-decr! fptr offset)))
|
|
|
|
(set! $fptr-init-lock!
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-init-lock! fptr offset)))
|
|
|
|
(set! $fptr-lock!
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-lock! fptr offset)))
|
|
|
|
(set! $fptr-spin-lock!
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-spin-lock! fptr offset)))
|
|
|
|
(set! $fptr-unlock!
|
|
(lambda (fptr offset)
|
|
(#3%$fptr-unlock! fptr offset)))
|
|
)
|
|
|
|
(define-syntax define-ftype (lambda (x) ($trans-define-ftype x)))
|
|
(define-syntax make-ftype-pointer (lambda (x) ($trans-make-ftype-pointer x)))
|
|
(define-syntax ftype-pointer? (lambda (x) ($trans-ftype-pointer? x)))
|
|
(define-syntax ftype-sizeof (lambda (x) ($trans-ftype-sizeof x)))
|
|
(define-syntax ftype-guardian (lambda (x) ($trans-ftype-guardian x)))
|
|
(define-syntax ftype-&ref (lambda (x) ($trans-ftype-&ref x)))
|
|
(define-syntax ftype-ref (lambda (x) ($trans-ftype-ref x)))
|
|
(define-syntax ftype-locked-incr! (lambda (x) ($trans-ftype-locked-op! #'ftype-locked-incr! x #'$fptr-locked-incr!)))
|
|
(define-syntax ftype-locked-decr! (lambda (x) ($trans-ftype-locked-op! #'ftype-locked-decr! x #'$fptr-locked-decr!)))
|
|
(define-syntax ftype-init-lock! (lambda (x) ($trans-ftype-locked-op! #'ftype-init-lock! x #'$fptr-init-lock!)))
|
|
(define-syntax ftype-lock! (lambda (x) ($trans-ftype-locked-op! #'ftype-lock! x #'$fptr-lock!)))
|
|
(define-syntax ftype-spin-lock! (lambda (x) ($trans-ftype-locked-op! #'ftype-spin-lock! x #'$fptr-spin-lock!)))
|
|
(define-syntax ftype-unlock! (lambda (x) ($trans-ftype-locked-op! #'ftype-unlock! x #'$fptr-unlock!)))
|
|
(define-syntax ftype-set! (lambda (x) ($trans-ftype-set! x)))
|
|
)
|