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;;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: C -*-
;;;;
;;; CMPSYSFUN Database for system functions.
;;;
;;; Copyright (c) 2010-2012, Jean-Claude Beaudoin.
;;; Copyright (c) 2003, Juan Jose Garcia Ripoll.
;;; Copyright (c) 1991, Giuseppe Attardi. All rights reserved.
;;;
;;; This program is free software; you can redistribute it and/or
;;; modify it under the terms of the GNU Lesser General Public
;;; License as published by the Free Software Foundation; either
;;; version 3 of the License, or (at your option) any later version.
;;;
;;; See file '../../Copyright' for full details.
;;;
;;; DATABASE OF FUNCTION PROCLAMATIONS AND INLINE EXPANSIONS
;;;
;;; What follows is the complete list of function type proclamations for the
;;; most important functions in the MKCL core library, together with some useful
;;; inline expansions.
;;;
;;; The function proclamations are created with PROCLAIM-FUNCTION, as in
;;;
;;; (PROCLAIM-FUNCTION function-name ([arg-type]*) return-type
;;; &key no-sp-change predicate no-side-effects)
;;;
;;; with the following interpretation: ARG-TYPE and RETURN-TYPE denote the most
;;; general types for the input and output values of this function. If the
;;; compiler detects that some of the values passed to this function does not
;;; match these types, it will generate an error. NO-SP-CHANGE should be
;;; supplied if the function is known to not change any special variable. A more
;;; strict declaration is NO-SIDE-EFFECTS which means that the function's output
;;; does only depend in the input values, that these input values are not
;;; changed, and that under normal conditions (i.e. no error signaled) the
;;; function has no side effect (i.e. does not change global variables, does not
;;; perform input/output, etc). Notice that allocating memory and creating new
;;; elementary objects (i.e. conses, floats, integers, etc) is not considered a
;;; side effect, while creating other objects (classes, streams, structures) is.
;;;
;;; Inline expansions, on the other hand, have the following syntax
;;;
;;; (DEF-INLINE function-name kind ([arg-type]*) return-rep-type
;;; expansion-string)
;;;
;;; Here, ARG-TYPE is the list of argument types belonging to the lisp family,
;;; while RETURN-REP-TYPE is a representation type, i.e. the C type of the
;;; output expression. EXPANSION-STRING is a C/C++ expression template, like the
;;; ones used by C-INLINE. Finally, KIND can be :ALWAYS, :SAFE or :UNSAFE,
;;; depending on whether the inline expression should be applied always, in safe
;;; or in unsafe compilation mode, respectively.
;;;
;;;
;;; Usage consideration for PROCLAIM-FUNCTION and DEF-INLINE. (JCB)
;;;
;;; Both these macros are pure side-effect producers that expand to NIL.
;;; It is therefore useless to compile their invocation since all
;;; their side-effects will stay in the compiler instance that compiled
;;; them. To be of any useful effect they need to be "interpreted"
;;; in the same context than the compiler instance that will benefit from them.
;;;
;;; Here :fixnum stands for the machine-level representational type that is used
;;; to unbox the Common Lisp type FIXNUM, the two types are not completely
;;; equivalent since :fixnum (usually mapped to a mkcl_word) has a somewhat wider
;;; range of values. See cmpffi.lsp for a list of representational types
;;; available for use in def-inline. JCB
;;; While writing a DEF-INLINE clause you should be aware that in its argument
;;; list only unboxed types can be considered as "safe", any other type will
;;; end up being mapped to :object and will thus skip any type validation
;;; either on function entry or assignment. During inlining only the following
;;; types are unboxed: FIXNUM, BASE-CHAR, CHARACTER, SINGLE-FLOAT, DOUBLE-FLOAT,
;;; LONG-FLOAT. JCB
(in-package "COMPILER")
(defmacro proclaim-function (name arg-types return-type
&key no-sp-change predicate no-side-effects)
(unless (equal arg-types '(*))
(put-sysprop name 'proclaimed-arg-types
(mapcar #'(lambda (x)
(if (member x '(* &optional &rest &key &allow-other-keys))
x
arg-types)))
(when (and return-type (not (eq 'T return-type)))
(put-sysprop name 'proclaimed-return-type
(if (eql return-type '*) '* (si::type-filter return-type t))))
(when no-sp-change
(put-sysprop name 'no-sp-change t))
(when predicate
(put-sysprop name 'predicate t))
(when no-side-effects
(put-sysprop name 'no-side-effects t))
(rem-sysprop name ':inline-always)
(rem-sysprop name ':inline-safe)
(rem-sysprop name ':inline-unsafe)
nil)
(defconstant +rep-type-canonical-map+
#+(and x86-64 (not windows))
'((:int8-t . :byte) (:uint8-t . :unsigned-byte)
(:int16-t . :short) (:uint16-t . :unsigned-short)
(:int32-t . :int) (:uint32-t . :unsigned-int)
(:int64-t . :long) (:uint64-t . :unsigned-long)
(:unsigned-char . :char)
#-long-float
(:long-double . :double)
(t . :object)
)
#+(or x86 windows)
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'((:int8-t . :byte) (:uint8-t . :unsigned-byte)
(:int16-t . :short) (:uint16-t . :unsigned-short)
(:int32-t . :int) (:uint32-t . :unsigned-int)
(:int64-t . :long-long) (:uint64-t . :unsigned-long-long)
(:unsigned-char . :char)
#-long-float
(:long-double . :double)
(t . :object)
)
)
(defun canonical-rep-type (rep-type)
(or (cdr (assoc rep-type +rep-type-canonical-map+)) rep-type))
(defmacro def-inline (name safety arg-types return-rep-type expansion
&key (one-liner t) (exact-return-type nil)
&aux arg-rep-types)
(setf safety
(case safety
(:unsafe :inline-unsafe)
(:safe :inline-safe)
(:always :inline-always)
(t (error "In DEF-INLINE, wrong value of SAFETY"))))
(setf arg-rep-types
(mapcar #'(lambda (x) (if (eq x '*) x (lisp-type->rep-type x)))
arg-types))
(when (eq return-rep-type t)
(setf return-rep-type :object))
(setq return-rep-type (canonical-rep-type return-rep-type))
(let* ((return-type (rep-type->lisp-type return-rep-type))
(inline-info
(make-inline-info :arg-rep-types arg-rep-types
:return-rep-type return-rep-type
:return-type (rep-type->lisp-type return-rep-type)
:arg-types arg-types
:exact-return-type exact-return-type
:one-liner one-liner
:expansion expansion))
(previous (get-sysprop name safety)))
(declare (ignorable return-type))
#+(or)
(loop for i in previous
when (and (equalp (inline-info-arg-types i) arg-types)
(not (equalp return-type (inline-info-return-type i))))
do (format t "~&;;; Redundand inline definition for ~A~&;;; ~<~A~>~&;;; ~<~A~>"
name i inline-info))
(put-sysprop name safety (cons inline-info previous)))
nil)
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; AUXILIARY TYPES
;;
(deftype string-designator () '(or string symbol character))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;;
;;; ALL FUNCTION DECLARATIONS AND INLINE FORMS
;;;
(defparameter +all-optimizers+
'(
(proclaim-function si:make-pure-array (*) array)
(proclaim-function si:make-vector (*) vector)
(proclaim-function aref (array *) t :no-side-effects t)
(def-inline aref :always (array t) t "mkcl_aref(env, #0, #1)")
(def-inline aref :always (array fixnum) t "mkcl_aref_index(env, #0,#1)")
(def-inline aref :always ((array t) fixnum) t "mkcl_aref_index_object(env, #0, #1)")
(def-inline aref :always ((array fixnum) fixnum) t "mkcl_aref_index_fixnum(env, #0, #1)")
(def-inline aref :always ((array double-float) fixnum) t "mkcl_aref_index_df(env, #0, #1)")
(def-inline aref :always ((array single-float) fixnum) t "mkcl_aref_index_sf(env, #0, #1)")
(def-inline aref :always ((array bit) fixnum) t "mkcl_aref_index_bit(env, #0, #1)")
(def-inline aref :always ((array mkcl:cl-index) fixnum) t "mkcl_aref_index_index(env, #0, #1)")
(def-inline aref :always ((array mkcl:cl-word) fixnum) t "mkcl_aref_index_word(env, #0, #1)")
#+unicode
(def-inline aref :always ((array character) fixnum) t "mkcl_aref_index_ch(env, #0, #1)")
#+unicode
(def-inline aref :always (string fixnum) t "mkcl_character_index(env, #0, #1)")
(def-inline aref :always ((array base-char) fixnum) t "mkcl_aref_index_bc(env, #0, #1)")
(def-inline aref :always (base-string fixnum) t "mkcl_base_char_index(env, #0, #1)")
(def-inline aref :always ((array mkcl:natural64) fixnum) t "mkcl_aref_index_b64(env, #0, #1)")
(def-inline aref :always ((array mkcl:integer64) fixnum) t "mkcl_aref_index_i64(env, #0, #1)")
(def-inline aref :always ((array mkcl:natural32) fixnum) t "mkcl_aref_index_b32(env, #0, #1)")
(def-inline aref :always ((array mkcl:integer32) fixnum) t "mkcl_aref_index_i32(env, #0, #1)")
(def-inline aref :always ((array mkcl:natural16) fixnum) t "mkcl_aref_index_b16(env, #0, #1)")
(def-inline aref :always ((array mkcl:integer16) fixnum) t "mkcl_aref_index_i16(env, #0, #1)")
(def-inline aref :always ((array mkcl:natural8) fixnum) t "mkcl_aref_index_b8(env, #0, #1)")
(def-inline aref :always ((array mkcl:integer8) fixnum) t "mkcl_aref_index_i8(env, #0, #1)")
(def-inline aref :always ((array fixnum) fixnum) :fixnum "mkcl_aref_index_fixnum_raw(env, #0, #1) /*0*/")
(def-inline aref :always ((array double-float) fixnum) :double "mkcl_aref_index_df_raw(env, #0, #1)")
(def-inline aref :always ((array single-float) fixnum) :float "mkcl_aref_index_sf_raw(env, #0, #1)")
(def-inline aref :always ((array bit) fixnum) :fixnum "mkcl_aref_index_bit_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:cl-index) fixnum) :cl-index "mkcl_aref_index_index_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:cl-word) fixnum) :fixnum "mkcl_aref_index_word_raw(env, #0, #1)")
#+unicode
(def-inline aref :always ((array character) fixnum) :wchar "mkcl_aref_index_ch_raw(env, #0, #1)")
#+unicode
(def-inline aref :always (string fixnum) :wchar "mkcl_character_index_raw(env, #0, #1)")
(def-inline aref :always ((array base-char) fixnum) :char "mkcl_aref_index_bc_raw(env, #0, #1)")
(def-inline aref :always (base-string fixnum) :char "mkcl_base_char_index_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:natural64) fixnum) :uint64-t "mkcl_aref_index_b64_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:integer64) fixnum) :int64-t "mkcl_aref_index_i64_raw(env, #0, #1)")
#+x86-64
(def-inline aref :always ((array mkcl:natural32) fixnum) :fixnum "mkcl_aref_index_b32_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:integer32) fixnum) :fixnum "mkcl_aref_index_i32_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:natural32) fixnum) :uint32-t "mkcl_aref_index_b32_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:integer32) fixnum) :int32-t "mkcl_aref_index_i32_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:natural16) fixnum) :fixnum "mkcl_aref_index_b16_raw(env, #0, #1) /*2*/")
(def-inline aref :always ((array mkcl:integer16) fixnum) :fixnum "mkcl_aref_index_i16_raw(env, #0, #1) /*2*/")
(def-inline aref :always ((array mkcl:natural16) fixnum) :uint16-t "mkcl_aref_index_b16_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:integer16) fixnum) :int16-t "mkcl_aref_index_i16_raw(env, #0, #1)")
(def-inline aref :always ((array mkcl:natural8) fixnum) :fixnum "mkcl_aref_index_b8_raw(env, #0, #1) /*2*/")
(def-inline aref :always ((array mkcl:integer8) fixnum) :fixnum "mkcl_aref_index_i8_raw(env, #0, #1) /*2*/")
(def-inline aref :always ((array mkcl:natural8) fixnum) :uint8-t "mkcl_aref_index_b8_raw(env, #0, #1) /*0*/")
(def-inline aref :always ((array mkcl:integer8) fixnum) :int8-t "mkcl_aref_index_i8_raw(env, #0, #1) /*0*/")
(def-inline aref :unsafe (t t t) t
"@0;mkcl_aref_index(env, #0,mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2))")
(def-inline aref :unsafe ((array t) t t) t
"@0;(#0)->array.self.t[mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2)]")
(def-inline aref :unsafe ((array fixnum) t t) t
"@0;MKCL_MAKE_FIXNUM((#0)->array.self.word[mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2)])")
(def-inline aref :unsafe ((array fixnum) t t) :fixnum
"@0;((#0)->array.self.word[mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2)])")
(def-inline aref :unsafe ((array bit) t t) t
"@0;mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2))")
(def-inline aref :unsafe ((array t) fixnum fixnum) :object
"@0;(#0)->array.self.t[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array fixnum) fixnum fixnum) :object
"@0;MKCL_MAKE_FIXNUM((#0)->array.self.word[(#1)*(#0)->array.dims[1]+(#2)])")
(def-inline aref :unsafe ((array fixnum) fixnum fixnum) :fixnum
"@0;((#0)->array.self.word[(#1)*(#0)->array.dims[1]+(#2)])")
(def-inline aref :unsafe ((array bit) fixnum fixnum) :fixnum
"@0;mkcl_bvref_index_raw(env, #0,(#1)*(#0)->array.dims[1]+(#2))")
#+unicode
(def-inline aref :unsafe ((array character) fixnum fixnum) :wchar
"@0;(#0)->array.self.ch[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array base-char) fixnum fixnum) :char
"@0;(#0)->array.self.bc[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array double-float) fixnum fixnum) :double
"@0;(#0)->array.self.df[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array single-float) fixnum fixnum) :float
"@0;(#0)->array.self.sf[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:cl-index) fixnum fixnum) :cl-index
"@0;(#0)->array.self.index[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:cl-word) fixnum fixnum) :fixnum
"@0;(#0)->array.self.word[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:natural64) fixnum fixnum) :uint64-t
"@0;(#0)->array.self.b64[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:integer64) fixnum fixnum) :int64-t
"@0;(#0)->array.self.i64[(#1)*(#0)->array.dims[1]+(#2)]")
#+x86-64
(def-inline aref :unsafe ((array mkcl:natural32) fixnum fixnum) :fixnum
"@0;(#0)->array.self.b32[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:integer32) fixnum fixnum) :fixnum
"@0;(#0)->array.self.i32[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:natural32) fixnum fixnum) :uint32-t
"@0;(#0)->array.self.b32[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:integer32) fixnum fixnum) :int32-t
"@0;(#0)->array.self.i32[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:natural16) fixnum fixnum) :fixnum
"@0;(#0)->array.self.b16[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:integer16) fixnum fixnum) :fixnum
"@0;(#0)->array.self.i16[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:natural16) fixnum fixnum) :uint16-t
"@0;(#0)->array.self.b16[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:integer16) fixnum fixnum) :int16-t
"@0;(#0)->array.self.i16[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:natural8) fixnum fixnum) :fixnum
"@0;(#0)->array.self.b8[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:integer8) fixnum fixnum) :fixnum
"@0;(#0)->array.self.i8[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:natural8) fixnum fixnum) :uint8-t
"@0;(#0)->array.self.b8[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe ((array mkcl:integer8) fixnum fixnum) :int8-t
"@0;(#0)->array.self.i8[(#1)*(#0)->array.dims[1]+(#2)]")
(def-inline aref :unsafe (t t) t "mkcl_vref_index(env, #0,mkcl_fixnum_to_word(#1))")
(def-inline aref :unsafe ((array t) t) :object "((#0)->array.self.t[mkcl_fixnum_to_word(#1)])")
(def-inline aref :unsafe ((array fixnum) t) :object "MKCL_MAKE_FIXNUM((#0)->array.self.word[mkcl_fixnum_to_word(#1)])")
(def-inline aref :unsafe ((array fixnum) t) :fixnum "((#0)->array.self.word[mkcl_fixnum_to_word(#1)])")
(def-inline aref :unsafe ((array t) fixnum) :object "((#0)->array.self.t[#1])")
(def-inline aref :unsafe ((array fixnum) fixnum) :object "MKCL_MAKE_FIXNUM((#0)->array.self.word[#1])")
(def-inline aref :unsafe ((array fixnum) fixnum) :fixnum "((#0)->array.self.word[#1])")
(def-inline aref :unsafe ((array bit) t) t "mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1))") ;;not quite unsafe
(def-inline aref :unsafe ((array bit) fixnum) :fixnum "mkcl_bvref_index_raw(env, #0,#1)") ;;not quite unsafe
#+unicode
(def-inline aref :unsafe ((array character) fixnum) :wchar "(#0)->string.self[#1]")
(def-inline aref :unsafe ((array base-char) fixnum) :char "(#0)->base_string.self[#1]")
(def-inline aref :unsafe ((array double-float) fixnum) :double "(#0)->array.self.df[#1]")
(def-inline aref :unsafe ((array single-float) fixnum) :float "(#0)->array.self.sf[#1]")
(def-inline aref :unsafe ((array mkcl:cl-index) fixnum) :cl-index "(#0)->array.self.index[#1]")
(def-inline aref :unsafe ((array mkcl:cl-word) fixnum) :fixnum "(#0)->array.self.word[#1]")
(def-inline aref :unsafe ((array mkcl:natural64) fixnum) :uint64-t "(#0)->array.self.b64[#1]")
(def-inline aref :unsafe ((array mkcl:integer64) fixnum) :int64-t "(#0)->array.self.i64[#1]")
#+x86-64
(def-inline aref :unsafe ((array mkcl:natural32) fixnum) :fixnum "(#0)->array.self.b32[#1]")
(def-inline aref :unsafe ((array mkcl:integer32) fixnum) :fixnum "(#0)->array.self.i32[#1]")
(def-inline aref :unsafe ((array mkcl:natural32) fixnum) :uint32-t "(#0)->array.self.b32[#1]")
(def-inline aref :unsafe ((array mkcl:integer32) fixnum) :int32-t "(#0)->array.self.i32[#1]")
(def-inline aref :unsafe ((array mkcl:natural16) fixnum) :fixnum "(#0)->array.self.b16[#1]")
(def-inline aref :unsafe ((array mkcl:integer16) fixnum) :fixnum "(#0)->array.self.i16[#1]")
(def-inline aref :unsafe ((array mkcl:natural16) fixnum) :uint16-t "(#0)->array.self.b16[#1]")
(def-inline aref :unsafe ((array mkcl:integer16) fixnum) :int16-t "(#0)->array.self.i16[#1]")
(def-inline aref :unsafe ((array mkcl:natural8) fixnum) :fixnum "(#0)->array.self.b8[#1]")
(def-inline aref :unsafe ((array mkcl:integer8) fixnum) :fixnum "(#0)->array.self.i8[#1]")
(def-inline aref :unsafe ((array mkcl:natural8) fixnum) :uint8-t "(#0)->array.self.b8[#1]")
(def-inline aref :unsafe ((array mkcl:integer8) fixnum) :int8-t "(#0)->array.self.i8[#1]")
(proclaim-function si:aset (t array *) t)
(def-inline si:aset :always (t array t) t "mkcl_aset(env, #1, #2, #0)")
(def-inline si:aset :always (t array fixnum) t "mkcl_aset_index(env, #1, #2, #0)")
(def-inline si:aset :always (t (array t) fixnum) t "mkcl_aset_index_object(env, #1, #2, #0)")
(def-inline si:aset :always (t (array fixnum) fixnum) t "mkcl_aset_index_fixnum(env, #1, #2, #0) /*1*/")
(def-inline si:aset :always (t (array double-float) fixnum) t "mkcl_aset_index_df(env, #1, #2, #0)")
(def-inline si:aset :always (t (array single-float) fixnum) t "mkcl_aset_index_sf(env, #1, #2, #0)")
(def-inline si:aset :always (t (array bit) fixnum) t "mkcl_aset_index_bit(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:cl-index) fixnum) t "mkcl_aset_index_index(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:cl-word) fixnum) t "mkcl_aset_index_word(env, #1, #2, #0)")
#+unicode
(def-inline si:aset :always (t (array character) fixnum) t "mkcl_aset_index_ch(env, #1, #2, #0)")
#+unicode
(def-inline si:aset :always (t string fixnum) t "mkcl_character_set_index(env, #1, #2, #0)")
(def-inline si:aset :always (t (array base-char) fixnum) t "mkcl_aset_index_bc(env, #1, #2, #0)")
(def-inline si:aset :always (t base-string fixnum) t "mkcl_base_char_set_index(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:natural64) fixnum) t "mkcl_aset_index_b64(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:integer64) fixnum) t "mkcl_aset_index_i64(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:natural32) fixnum) t "mkcl_aset_index_b32(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:integer32) fixnum) t "mkcl_aset_index_i32(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:natural16) fixnum) t "mkcl_aset_index_b16(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:integer16) fixnum) t "mkcl_aset_index_i16(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:natural8) fixnum) t "mkcl_aset_index_b8(env, #1, #2, #0)")
(def-inline si:aset :always (t (array mkcl:integer8) fixnum) t "mkcl_aset_index_i8(env, #1, #2, #0) /*0*/")
(def-inline si:aset :always (fixnum (array fixnum) fixnum) :fixnum "mkcl_aset_index_fixnum_raw(env, #1, #2, #0) /*5*/")
(def-inline si:aset :always (double-float (array double-float) fixnum) :double "mkcl_aset_index_df_raw(env, #1, #2, #0) /*2*/")
(def-inline si:aset :always (single-float (array single-float) fixnum) :float "mkcl_aset_index_sf_raw(env, #1, #2, #0) /*0*/")
(def-inline si:aset :always (fixnum (array bit) fixnum) :fixnum "mkcl_aset_index_bit_raw(env, #1, #2, #0)")
(def-inline si:aset :always (mkcl:cl-index (array mkcl:cl-index) fixnum) :cl-index "mkcl_aset_index_index_raw(env, #1, #2, #0)")
(def-inline si:aset :always (mkcl:cl-word (array mkcl:cl-word) fixnum) :fixnum "mkcl_aset_index_word_raw(env, #1, #2, #0)")
#+unicode
(def-inline si:aset :always (character (array character) fixnum) :wchar "mkcl_aset_index_ch_raw(env, #1, #2, #0)")
#+unicode
(def-inline si:aset :always (character string fixnum) :wchar "mkcl_character_set_index_raw(env, #1, #2, #0)")
(def-inline si:aset :always (base-char (array base-char) fixnum) :char "mkcl_aset_index_bc_raw(env, #1, #2, #0)")
(def-inline si:aset :always (base-char base-string fixnum) :char "mkcl_base_char_set_index_raw(env, #1, #2, #0)")
(def-inline si:aset :always (mkcl:natural64 (array mkcl:natural64) fixnum) :uint64-t "mkcl_aset_index_b64_raw(env, #1, #2, #0)")
(def-inline si:aset :always (mkcl:integer64 (array mkcl:integer64) fixnum) :int64-t "mkcl_aset_index_i64_raw(env, #1, #2, #0)/*1*/")
#+x86-64
(def-inline si:aset :always (fixnum (array mkcl:natural32) fixnum) :fixnum
"mkcl_fixnum_to_word(mkcl_aset_index_b32(env, #1, #2, MKCL_MAKE_FIXNUM(#0))) /*3*/")
#+x86-64
(def-inline si:aset :always (fixnum (array mkcl:natural32) fixnum) :void
"mkcl_aset_index_b32(env, #1, #2, MKCL_MAKE_FIXNUM(#0)) /*4*/")
#+x86-64
(def-inline si:aset :always (mkcl:natural32 (array mkcl:natural32) fixnum) :uint32-t "mkcl_aset_index_b32_raw(env, #1, #2, #0) /*1*/")
(def-inline si:aset :always (fixnum (array mkcl:integer32) fixnum) :fixnum
"mkcl_fixnum_to_word(mkcl_aset_index_i32(env, #1, #2, MKCL_MAKE_FIXNUM(#0))) /*2*/")
(def-inline si:aset :always (fixnum (array mkcl:integer32) fixnum) :void
"mkcl_aset_index_i32(env, #1, #2, MKCL_MAKE_FIXNUM(#0)) /*3*/")
(def-inline si:aset :always (mkcl:integer32 (array mkcl:integer32) fixnum) :int32-t "mkcl_aset_index_i32_raw(env, #1, #2, #0) /*1*/")
(def-inline si:aset :always (fixnum (array mkcl:natural16) fixnum) :fixnum
"mkcl_fixnum_to_word(mkcl_aset_index_b16(env, #1, #2, MKCL_MAKE_FIXNUM(#0))) /*3*/")
(def-inline si:aset :always (fixnum (array mkcl:natural16) fixnum) :void
"mkcl_aset_index_b16(env, #1, #2, MKCL_MAKE_FIXNUM(#0)) /*4*/")
(def-inline si:aset :always (mkcl:natural16 (array mkcl:natural16) fixnum) :uint16-t "mkcl_aset_index_b16_raw(env, #1, #2, #0) /*1*/")
(def-inline si:aset :always (fixnum (array mkcl:integer16) fixnum) :fixnum
"mkcl_fixnum_to_word(mkcl_aset_index_i16(env, #1, #2, MKCL_MAKE_FIXNUM(#0))) /*2*/")
(def-inline si:aset :always (fixnum (array mkcl:integer16) fixnum) :void
"mkcl_aset_index_i16(env, #1, #2, MKCL_MAKE_FIXNUM(#0)) /*3*/")
(def-inline si:aset :always (mkcl:integer16 (array mkcl:integer16) fixnum) :int16-t "mkcl_aset_index_i16_raw(env, #1, #2, #0) /*1*/")
(def-inline si:aset :always (fixnum (array mkcl:natural8) fixnum) :fixnum
"mkcl_fixnum_to_word(mkcl_aset_index_b8(env, #1, #2, MKCL_MAKE_FIXNUM(#0))) /*3*/")
(def-inline si:aset :always (fixnum (array mkcl:natural8) fixnum) :void
"mkcl_aset_index_b8(env, #1, #2, MKCL_MAKE_FIXNUM(#0)) /*4*/")
(def-inline si:aset :always (mkcl:natural8 (array mkcl:natural8) fixnum) :uint8-t "mkcl_aset_index_b8_raw(env, #1, #2, #0) /*1*/")
(def-inline si:aset :always (fixnum (array mkcl:integer8) fixnum) :fixnum
"mkcl_fixnum_to_word(mkcl_aset_index_i8(env, #1, #2, MKCL_MAKE_FIXNUM(#0))) /*2*/")
(def-inline si:aset :always (fixnum (array mkcl:integer8) fixnum) :void
"mkcl_aset_index_i8(env, #1, #2, MKCL_MAKE_FIXNUM(#0)) /*3*/")
(def-inline si:aset :always (mkcl:integer8 (array mkcl:integer8) fixnum) :int8-t "mkcl_aset_index_i8_raw(env, #1, #2, #0) /*1*/")
(def-inline si:aset :unsafe (t t t t) t
"@01;mkcl_aset_index(env, #1, mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3), #0)")
(def-inline si:aset :unsafe (t (array t) t t) t
"@01;((#1)->array.self.t[mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3)] = (#0))")
(def-inline si:aset :unsafe (t (array fixnum) t t) t
"@01;((#1)->array.self.word[mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3)] = mkcl_fixnum_to_word(#0), (#0))")
(def-inline si:aset :unsafe (fixnum (array fixnum) t t) :fixnum
"@01;((#1)->array.self.word[mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3)] = (#0))")
(def-inline si:aset :unsafe (fixnum (array bit) t t) t
"@01;mkcl_bvset_index(env, #1, mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3), #0)")
(def-inline si:aset :unsafe (t (array t) fixnum fixnum) :object
"@01;((#1)->array.self.t[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (t (array fixnum) fixnum fixnum) :object
"@01;((#1)->array.self.word[(#2)*(#1)->array.dims[1]+(#3)] = mkcl_fixnum_to_word(#0), (#0))")
(def-inline si:aset :unsafe (fixnum (array fixnum) fixnum fixnum) :fixnum
"@01;((#1)->array.self.word[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (fixnum (array bit) fixnum fixnum) :fixnum
"@01;mkcl_bvset_index_raw(env, #1,(#2)*(#1)->array.dims[1]+(#3), #0)")
#+unicode
(def-inline si:aset :unsafe (character (array character) fixnum fixnum) :wchar
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"@01;((#1)->array.self.ch[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (base-char (array base-char) fixnum fixnum) :char
"@01;((#1)->array.self.bc[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (double-float (array double-float) fixnum fixnum) :double
"@01;((#1)->array.self.df[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (single-float (array single-float) fixnum fixnum) :float
"@01;((#1)->array.self.sf[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:cl-index (array mkcl:cl-index) fixnum fixnum) :cl-index
"@01;((#1)->array.self.index[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:cl-word (array mkcl:cl-word) fixnum fixnum) :fixnum
"@01;((#1)->array.self.word[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:natural64 (array mkcl:natural64) fixnum fixnum) :uint64-t
"@01;((#1)->array.self.b64[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:integer64 (array mkcl:integer64) fixnum fixnum) :int64-t
"@01;((#1)->array.self.i64[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
#+x86-64
(def-inline si:aset :unsafe (fixnum (array mkcl:natural32) fixnum fixnum) :fixnum
"@01;((#1)->array.self.b32[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
#+x86-64
(def-inline si:aset :unsafe (mkcl:natural32 (array mkcl:natural32) fixnum fixnum) :uint32-t
"@01;((#1)->array.self.b32[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:integer32) fixnum fixnum) :fixnum
"@01;((#1)->array.self.i32[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:integer32 (array mkcl:integer32) fixnum fixnum) :int32-t
"@01;((#1)->array.self.i32[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:natural16) fixnum fixnum) :fixnum
"@01;((#1)->array.self.b16[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:natural16 (array mkcl:natural16) fixnum fixnum) :uint16-t
"@01;((#1)->array.self.b16[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:integer16) fixnum fixnum) :fixnum
"@01;((#1)->array.self.i16[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:integer16 (array mkcl:integer16) fixnum fixnum) :int16-t
"@01;((#1)->array.self.i16[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:natural8) fixnum fixnum) :fixnum
"@01;((#1)->array.self.b8[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:natural8 (array mkcl:natural8) fixnum fixnum) :uint8-t
"@01;((#1)->array.self.b8[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:integer8) fixnum fixnum) :fixnum
"@01;((#1)->array.self.i8[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (mkcl:integer8 (array mkcl:integer8) fixnum fixnum) :int8-t
"@01;((#1)->array.self.i8[(#2)*(#1)->array.dims[1]+(#3)] = (#0))")
(def-inline si:aset :unsafe (t t t) t "mkcl_aset_index(env, #1, mkcl_fixnum_to_word(#2), #0)")
(def-inline si:aset :unsafe (t (array t) t) t "((#1)->array.self.t[mkcl_fixnum_to_word(#2)] = (#0))")
(def-inline si:aset :unsafe (t (array t) fixnum) t "((#1)->array.self.t[(#2)] = (#0))")
(def-inline si:aset :unsafe (t (array fixnum) t) t "@0;((#1)->array.self.word[mkcl_fixnum_to_word(#2)] = mkcl_fixnum_to_word(#0), (#0))")
(def-inline si:aset :unsafe (t (array fixnum) fixnum) t "@0;((#1)->array.self.word[(#2)] = mkcl_fixnum_to_word(#0), (#0))")
(def-inline si:aset :unsafe (fixnum (array fixnum) t) fixnum "((#1)->array.self.word[mkcl_fixnum_to_word(#2)] = (#0))")
(def-inline si:aset :unsafe (fixnum (array fixnum) fixnum) fixnum "((#1)->array.self.word[(#2)] = (#0))")
(def-inline si:aset :unsafe (t (array bit) t) t
"mkcl_bvset_index(env, #1,mkcl_fixnum_to_word(#2), #0)") ;; not quite unsafe
(def-inline si:aset :unsafe (fixnum (array bit) fixnum) fixnum
"mkcl_bvset_index_raw(env, #1, #2, #0)") ;; not quite unsafe
#+unicode
(def-inline si:aset :unsafe (character (array character) fixnum) :wchar "((#1)->string.self[#2] = (#0))")
(def-inline si:aset :unsafe (base-char (array base-char) fixnum) :char "((#1)->base_string.self[#2] = (#0))")
(def-inline si:aset :unsafe (double-float (array double-float) fixnum) :double "((#1)->array.self.df[#2] = (#0))")
(def-inline si:aset :unsafe (single-float (array single-float) fixnum) :float "((#1)->array.self.sf[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:cl-index (array mkcl:cl-index) fixnum) :cl-index "((#1)->array.self.index[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:cl-word (array mkcl:cl-word) fixnum) :fixnum "((#1)->array.self.word[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:natural64 (array mkcl:natural64) fixnum) :uint64-t "((#1)->array.self.b64[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:integer64 (array mkcl:integer64) fixnum) :int64-t "((#1)->array.self.i64[#2] = (#0))")
#+x86-64
(def-inline si:aset :unsafe (fixnum (array mkcl:natural32) fixnum) :fixnum "((#1)->array.self.b32[#2] = (#0))")
#+x86-64
(def-inline si:aset :unsafe (mkcl:natural32 (array mkcl:natural32) fixnum) :uint32-t "((#1)->array.self.b32[#2] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:integer32) fixnum) :fixnum "((#1)->array.self.i32[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:integer32 (array mkcl:integer32) fixnum) :int32-t "((#1)->array.self.i32[#2] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:natural16) fixnum) :fixnum "((#1)->array.self.b16[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:natural16 (array mkcl:natural16) fixnum) :uint16-t "((#1)->array.self.b16[#2] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:integer16) fixnum) :fixnum "((#1)->array.self.i16[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:integer16 (array mkcl:integer16) fixnum) :int16-t "((#1)->array.self.i16[#2] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:natural8) fixnum) :fixnum "((#1)->array.self.b8[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:natural8 (array mkcl:natural8) fixnum) :uint8-t "((#1)->array.self.b8[#2] = (#0))")
(def-inline si:aset :unsafe (fixnum (array mkcl:integer8) fixnum) :fixnum "((#1)->array.self.i8[#2] = (#0))")
(def-inline si:aset :unsafe (mkcl:integer8 (array mkcl:integer8) fixnum) :int8-t "((#1)->array.self.i8[#2] = (#0))")
(proclaim-function row-major-aref (array t) t :no-side-effects t)
(def-inline row-major-aref :always (array t) t "mkcl_aref(env, #0, #1)")
(def-inline row-major-aref :always (array fixnum) t "mkcl_aref_index(env, #0,#1)")
(def-inline row-major-aref :always ((array t) fixnum) t "mkcl_aref_index_object(env, #0, #1)")
(def-inline row-major-aref :always ((array fixnum) fixnum) t "mkcl_aref_index_fixnum(env, #0, #1)")
(def-inline row-major-aref :always ((array double-float) fixnum) t "mkcl_aref_index_df(env, #0, #1)")
(def-inline row-major-aref :always ((array single-float) fixnum) t "mkcl_aref_index_sf(env, #0, #1)")
(def-inline row-major-aref :always ((array bit) fixnum) t "mkcl_aref_index_bit(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:cl-index) fixnum) t "mkcl_aref_index_index(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:cl-word) fixnum) t "mkcl_aref_index_word(env, #0, #1)")
#+unicode
(def-inline row-major-aref :always ((array character) fixnum) t "mkcl_aref_index_ch(env, #0, #1)")
#+unicode
(def-inline row-major-aref :always (string fixnum) t "mkcl_character_index(env, #0, #1)")
(def-inline row-major-aref :always ((array base-char) fixnum) t "mkcl_aref_index_bc(env, #0, #1)")
(def-inline row-major-aref :always (base-string fixnum) t "mkcl_base_char_index(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:natural64) fixnum) t "mkcl_aref_index_b64(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer64) fixnum) t "mkcl_aref_index_i64(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:natural32) fixnum) t "mkcl_aref_index_b32(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer32) fixnum) t "mkcl_aref_index_i32(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:natural16) fixnum) t "mkcl_aref_index_b16(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer16) fixnum) t "mkcl_aref_index_i16(env, #0, #1) /*0*/")
(def-inline row-major-aref :always ((array mkcl:natural8) fixnum) t "mkcl_aref_index_b8(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer8) fixnum) t "mkcl_aref_index_i8(env, #0, #1)")
(def-inline row-major-aref :always ((array fixnum) fixnum) :fixnum "mkcl_aref_index_fixnum_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array double-float) fixnum) :double "mkcl_aref_index_df_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array single-float) fixnum) :float "mkcl_aref_index_sf_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array bit) fixnum) :fixnum "mkcl_aref_index_bit_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:cl-index) fixnum) :cl-index "mkcl_aref_index_index_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:cl-word) fixnum) :fixnum "mkcl_aref_index_word_raw(env, #0, #1)")
#+unicode
(def-inline row-major-aref :always ((array character) fixnum) :wchar "mkcl_aref_index_ch_raw(env, #0, #1)")
#+unicode
(def-inline row-major-aref :always (string fixnum) :wchar "mkcl_character_index_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array base-char) fixnum) :char "mkcl_aref_index_bc_raw(env, #0, #1)")
(def-inline row-major-aref :always (base-string fixnum) :char "mkcl_base_char_index_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:natural64) fixnum) :uint64-t "mkcl_aref_index_b64_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer64) fixnum) :int64-t "mkcl_aref_index_i64_raw(env, #0, #1)")
#+x86-64
(def-inline row-major-aref :always ((array mkcl:natural32) fixnum) :fixnum "mkcl_aref_index_b32_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer32) fixnum) :fixnum "mkcl_aref_index_i32_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:natural32) fixnum) :uint32-t "mkcl_aref_index_b32_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer32) fixnum) :int32-t "mkcl_aref_index_i32_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:natural16) fixnum) :fixnum "mkcl_aref_index_b16_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer16) fixnum) :fixnum "mkcl_aref_index_i16_raw(env, #0, #1) /*1*/")
(def-inline row-major-aref :always ((array mkcl:natural16) fixnum) :uint16-t "mkcl_aref_index_b16_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer16) fixnum) :int16-t "mkcl_aref_index_i16_raw(env, #0, #1) /*2*/")
(def-inline row-major-aref :always ((array mkcl:natural8) fixnum) :fixnum "mkcl_aref_index_b8_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer8) fixnum) :fixnum "mkcl_aref_index_i8_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:natural8) fixnum) :uint8-t "mkcl_aref_index_b8_raw(env, #0, #1)")
(def-inline row-major-aref :always ((array mkcl:integer8) fixnum) :int8-t "mkcl_aref_index_i8_raw(env, #0, #1)")
(def-inline row-major-aref :unsafe (t t) t "mkcl_vref_index(env, #0,mkcl_fixnum_to_word(#1))")
(def-inline row-major-aref :unsafe ((array t) t) :object "((#0)->array.self.t[mkcl_fixnum_to_word(#1)])")
(def-inline row-major-aref :unsafe ((array fixnum) t) :object "MKCL_MAKE_FIXNUM((#0)->array.self.word[mkcl_fixnum_to_word(#1)])")
(def-inline row-major-aref :unsafe ((array fixnum) t) :fixnum "((#0)->array.self.word[mkcl_fixnum_to_word(#1)])")
(def-inline row-major-aref :unsafe ((array t) fixnum) :object "((#0)->array.self.t[#1])")
(def-inline row-major-aref :unsafe ((array fixnum) fixnum) :object "MKCL_MAKE_FIXNUM((#0)->array.self.word[#1])")
(def-inline row-major-aref :unsafe ((array fixnum) fixnum) :fixnum "((#0)->array.self.word[#1])")
(def-inline row-major-aref :unsafe ((array bit) t) t "mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1))") ;;not quite unsafe
(def-inline row-major-aref :unsafe ((array bit) fixnum) :fixnum "mkcl_bvref_index_raw(env, #0,#1)") ;;not quite unsafe
#+unicode
(def-inline row-major-aref :unsafe ((array character) fixnum) :wchar "(#0)->string.self[#1]")
(def-inline row-major-aref :unsafe ((array base-char) fixnum) :char "(#0)->base_string.self[#1]")
(def-inline row-major-aref :unsafe ((array double-float) fixnum) :double "(#0)->array.self.df[#1]")
(def-inline row-major-aref :unsafe ((array single-float) fixnum) :float "(#0)->array.self.sf[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:cl-index) fixnum) :cl-index "(#0)->array.self.index[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:cl-word) fixnum) :fixnum "(#0)->array.self.word[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:natural64) fixnum) :uint64-t "(#0)->array.self.b64[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:integer64) fixnum) :int64-t "(#0)->array.self.i64[#1]")
#+x86-64
(def-inline row-major-aref :unsafe ((array mkcl:natural32) fixnum) :fixnum "(#0)->array.self.b32[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:integer32) fixnum) :fixnum "(#0)->array.self.i32[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:natural32) fixnum) :uint32-t "(#0)->array.self.b32[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:integer32) fixnum) :int32-t "(#0)->array.self.i32[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:natural16) fixnum) :fixnum "(#0)->array.self.b16[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:integer16) fixnum) :fixnum "(#0)->array.self.i16[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:natural16) fixnum) :uint16-t "(#0)->array.self.b16[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:integer16) fixnum) :int16-t "(#0)->array.self.i16[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:natural8) fixnum) :fixnum "(#0)->array.self.b8[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:integer8) fixnum) :fixnum "(#0)->array.self.i8[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:natural8) fixnum) :uint8-t "(#0)->array.self.b8[#1]")
(def-inline row-major-aref :unsafe ((array mkcl:integer8) fixnum) :int8-t "(#0)->array.self.i8[#1]")
(proclaim-function si:row-major-aset (array t t) t)
(def-inline si:row-major-aset :always (array fixnum t) t "mkcl_aset_index(env, #0,#1,#2)")
(def-inline si:row-major-aset :always (array t t) t "mkcl_aset(env, #0, #1, #2)")
(def-inline si:row-major-aset :always (array fixnum t) t "mkcl_aset_index(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array t) fixnum t) t "mkcl_aset_index_object(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array fixnum) fixnum t) t "mkcl_aset_index_fixnum(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array double-float) fixnum t) t "mkcl_aset_index_df(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array single-float) fixnum t) t "mkcl_aset_index_sf(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array bit) fixnum t) t "mkcl_aset_index_bit(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:cl-index) fixnum t) t "mkcl_aset_index_index(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:cl-word) fixnum t) t "mkcl_aset_index_word(env, #0, #1, #2)")
#+unicode
(def-inline si:row-major-aset :always ((array character) fixnum t) t "mkcl_aset_index_ch(env, #0, #1, #2)")
#+unicode
(def-inline si:row-major-aset :always (string fixnum t) t "mkcl_character_set_index(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array base-char) fixnum t) t "mkcl_aset_index_bc(env, #0, #1, #2)")
(def-inline si:row-major-aset :always (base-string fixnum t) t "mkcl_base_char_set_index(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:natural64) fixnum t) t "mkcl_aset_index_b64(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:integer64) fixnum t) t "mkcl_aset_index_i64(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:natural32) fixnum t) t "mkcl_aset_index_b32(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:integer32) fixnum t) t "mkcl_aset_index_i32(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:natural16) fixnum t) t "mkcl_aset_index_b16(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:integer16) fixnum t) t "mkcl_aset_index_i16(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:natural8) fixnum t) t "mkcl_aset_index_b8(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:integer8) fixnum t) t "mkcl_aset_index_i8(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array fixnum) fixnum fixnum) :fixnum "mkcl_aset_index_fixnum_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array double-float) fixnum double-float) :double "mkcl_aset_index_df_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array single-float) fixnum single-float) :float "mkcl_aset_index_sf_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array bit) fixnum fixnum) :fixnum "mkcl_aset_index_bit_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:cl-index) fixnum mkcl:cl-index) :cl-index "mkcl_aset_index_index_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:cl-word) fixnum mkcl:cl-word) :fixnum "mkcl_aset_index_word_raw(env, #0, #1, #2)")
#+unicode
(def-inline si:row-major-aset :always ((array character) fixnum character) :wchar "mkcl_aset_index_ch_raw(env, #0, #1, #2)")
#+unicode
(def-inline si:row-major-aset :always (string fixnum character) :wchar "mkcl_character_set_index_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array base-char) fixnum base-char) :char "mkcl_aset_index_bc_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always (base-string fixnum base-char) :char "mkcl_base_char_set_index_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:natural64) fixnum mkcl:natural64) :uint64-t "mkcl_aset_index_b64_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:integer64) fixnum mkcl:integer64) :int64-t "mkcl_aset_index_i64_raw(env, #0, #1, #2)")
#+x86-64
(def-inline si:row-major-aset :always ((array mkcl:natural32) fixnum fixnum) :fixnum "mkcl_fixnum_to_word(mkcl_aset_index_b32(env, #0, #1, MKCL_MAKE_FIXNUM(#2)))")
#+x86-64
(def-inline si:row-major-aset :always ((array mkcl:natural32) fixnum fixnum) :void "mkcl_aset_index_b32(env, #0, #1, MKCL_MAKE_FIXNUM(#2)))")
#+x86-64
(def-inline si:row-major-aset :always ((array mkcl:natural32) fixnum mkcl:natural32) :uint32-t "mkcl_aset_index_b32_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:integer32) fixnum fixnum) :fixnum "mkcl_fixnum_to_word(mkcl_aset_index_i32(env, #0, #1, MKCL_MAKE_FIXNUM(#2)))")
(def-inline si:row-major-aset :always ((array mkcl:integer32) fixnum fixnum) :void "mkcl_aset_index_i32(env, #0, #1, MKCL_MAKE_FIXNUM(#2))")
(def-inline si:row-major-aset :always ((array mkcl:integer32) fixnum mkcl:integer32) :int32-t "mkcl_aset_index_i32_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:natural16) fixnum fixnum) :fixnum "mkcl_fixnum_to_word(mkcl_aset_index_b16(env, #0, #1, MKCL_MAKE_FIXNUM(#2)))")
(def-inline si:row-major-aset :always ((array mkcl:natural16) fixnum :fixnum) :void "mkcl_aset_index_b16(env, #0, #1, MKCL_MAKE_FIXNUM(#2))")
(def-inline si:row-major-aset :always ((array mkcl:natural16) fixnum mkcl:natural16) :uint16-t "mkcl_aset_index_b16_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:integer16) fixnum fixnum) :fixnum "mkcl_fixnum_to_word(mkcl_aset_index_i16(env, #0, #1, MKCL_MAKE_FIXNUM(#2)))")
(def-inline si:row-major-aset :always ((array mkcl:integer16) fixnum fixnum) :void "mkcl_aset_index_i16(env, #0, #1, MKCL_MAKE_FIXNUM(#2))")
(def-inline si:row-major-aset :always ((array mkcl:integer16) fixnum mkcl:integer16) :int16-t "mkcl_aset_index_i16_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:natural8) fixnum fixnum) :fixnum "mkcl_fixnum_to_word(mkcl_aset_index_b8(env, #0, #1, MKCL_MAKE_FIXNUM(#2)))")
(def-inline si:row-major-aset :always ((array mkcl:natural8) fixnum fixnum) :void "mkcl_aset_index_b8(env, #0, #1, MKCL_MAKE_FIXNUM(#2))")
(def-inline si:row-major-aset :always ((array mkcl:natural8) fixnum mkcl:natural8) :uint8-t "mkcl_aset_index_b8_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :always ((array mkcl:integer8) fixnum fixnum) :fixnum "mkcl_fixnum_to_word(mkcl_aset_index_i8(env, #0, #1, MKCL_MAKE_FIXNUM(#2)))")
(def-inline si:row-major-aset :always ((array mkcl:integer8) fixnum fixnum) :void "mkcl_aset_index_i8(env, #0, #1, MKCL_MAKE_FIXNUM(#2))")
(def-inline si:row-major-aset :always ((array mkcl:integer8) fixnum mkcl:integer8) :int8-t "mkcl_aset_index_i8_raw(env, #0, #1, #2)")
(def-inline si:row-major-aset :unsafe (t t t) t "mkcl_aset_index(env, #0, mkcl_fixnum_to_word(#1), #2)")
(def-inline si:row-major-aset :unsafe ((array t) t t) t "((#0)->array.self.t[mkcl_fixnum_to_word(#1)] = (#2))")
(def-inline si:row-major-aset :unsafe ((array t) fixnum t) t "((#0)->array.self.t[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array fixnum) t t) t "@012;((#0)->array.self.word[mkcl_fixnum_to_word(#1)] = mkcl_fixnum_to_word(#2), (#2))")
(def-inline si:row-major-aset :unsafe ((array fixnum) fixnum t) t "@012;((#0)->array.self.word[#1] = mkcl_fixnum_to_word(#2), (#2))")
(def-inline si:row-major-aset :unsafe ((array fixnum) t fixnum) fixnum "((#0)->array.self.word[mkcl_fixnum_to_word(#1)] = (#2))")
(def-inline si:row-major-aset :unsafe ((array fixnum) fixnum fixnum) fixnum "((#0)->array.self.word[(#1)] = (#2))")
(def-inline si:row-major-aset :unsafe ((array bit) t t) t
"mkcl_bvset_index(env, #0,mkcl_fixnum_to_word(#1), #2)") ;; not quite unsafe
(def-inline si:row-major-aset :unsafe ((array bit) fixnum fixnum) :fixnum
"mkcl_bvset_index_raw(env, #0, #1, #2)") ;; not quite unsafe
#+unicode
(def-inline si:row-major-aset :unsafe ((array character) fixnum character) :wchar "((#0)->string.self[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array base-char) fixnum base-char) :char "((#0)->base_string.self[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array double-float) fixnum double-float) :double "((#0)->array.self.df[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array single-float) fixnum single-float) :float "((#0)->array.self.sf[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:cl-index) fixnum mkcl:cl-index) :cl-index "((#0)->array.self.index[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:cl-word) fixnum mkcl:cl-word) :fixnum "((#0)->array.self.word[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:natural64) fixnum mkcl:natural64) :uint64-t "((#0)->array.self.b64[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:integer64) fixnum mkcl:integer64) :int64-t "((#0)->array.self.i64[#1] = (#2))")
#+x86-64
(def-inline si:row-major-aset :unsafe ((array mkcl:natural32) fixnum fixnum) :fixnum "((#0)->array.self.b32[#1] = (#2))")
#+x86-64
(def-inline si:row-major-aset :unsafe ((array mkcl:natural32) fixnum mkcl:natural32) :uint32-t "((#0)->array.self.b32[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:integer32) fixnum fixnum) :fixnum "((#0)->array.self.i32[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:integer32) fixnum mkcl:integer32) :int32-t "((#0)->array.self.i32[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:natural16) fixnum fixnum) :fixnum "((#0)->array.self.b16[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:natural16) fixnum mkcl:natural16) :uint16-t "((#0)->array.self.b16[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:integer16) fixnum fixnum) :fixnum "((#0)->array.self.i16[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:integer16) fixnum mkcl:integer16) :int16-t "((#0)->array.self.i16[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:natural8) fixnum fixnum) :fixnum "((#0)->array.self.b8[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:natural8) fixnum mkcl:natural8) :uint8-t "((#0)->array.self.b8[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:integer8) fixnum fixnum) :fixnum "((#0)->array.self.i8[#1] = (#2))")
(def-inline si:row-major-aset :unsafe ((array mkcl:integer8) fixnum mkcl:integer8) :int8-t "((#0)->array.self.i8[#1] = (#2))")
(proclaim-function array-row-major-index (array *) fixnum :no-side-effects t)
(def-inline array-row-major-index :always (array t t) :fixnum "mkcl_array_row_major_index_2_t(env, #0, #1, #2) /*0*/")
(def-inline array-row-major-index :always (array t t t) :fixnum "mkcl_array_row_major_index_3_t(env, #0, #1, #2, #3) /*0*/")
(def-inline array-row-major-index :always (array fixnum fixnum) :fixnum
"mkcl_array_row_major_index_2_index(env, #0, #1, #2) /*1*/")
(def-inline array-row-major-index :always (array fixnum fixnum fixnum) :fixnum
"mkcl_array_row_major_index_3_index(env, #0, #1, #2, #3) /*1*/")
(def-inline array-row-major-index :always ((array * 2) fixnum fixnum) :fixnum
"mkcl_array_row_major_index_2_index(env, #0, #1, #2) /*2*/")
(def-inline array-row-major-index :always ((array * 3) fixnum fixnum fixnum) :fixnum
"mkcl_array_row_major_index_3_index(env, #0, #1, #2, #3) /*2*/")
(def-inline array-row-major-index :always (array t t) :cl-index "mkcl_array_row_major_index_2_t(env, #0, #1, #2) /*3*/")
(def-inline array-row-major-index :always (array t t t) :cl-index "mkcl_array_row_major_index_3_t(env, #0, #1, #2, #3) /*3*/")
(def-inline array-row-major-index :always ((array * 2) fixnum fixnum) :cl-index
"mkcl_array_row_major_index_2_index(env, #0, #1, #2) /*3*/")
(def-inline array-row-major-index :always ((array * 3) fixnum fixnum fixnum) :cl-index
"mkcl_array_row_major_index_3_index(env, #0, #1, #2, #3) /*3*/")
(def-inline array-row-major-index :unsafe (array t t) :fixnum
"(mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2))")
(def-inline array-row-major-index :unsafe (array fixnum fixnum) :fixnum
"((#1)*(#0)->array.dims[1]+(#2))")
(def-inline array-row-major-index :unsafe (array t t t) :fixnum
"((mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2))*(#0)->array.dims[2]+mkcl_fixnum_to_word(#3))")
(def-inline array-row-major-index :unsafe (array fixnum fixnum fixnum) :fixnum
"(((#1)*(#0)->array.dims[1]+(#2))*(#0)->array.dims[2]+(#3))")
(proclaim-function array-element-type (array) t)
(proclaim-function array-rank (array) fixnum)
(proclaim-function array-dimension (array fixnum) fixnum)
(proclaim-function array-total-size (array) t :no-side-effects t)
(def-inline array-total-size :always (array) t "MKCL_MAKE_FIXNUM(mkcl_array_total_size(env, #0))")
(def-inline array-total-size :always (array) :fixnum "mkcl_array_total_size(env, #0)")
(def-inline array-total-size :always (vector) t "MKCL_MAKE_FIXNUM(mkcl_vector_total_size(env, #0))")
(def-inline array-total-size :always (vector) :fixnum "mkcl_vector_total_size(env, #0)")
(def-inline array-total-size :always (string) t "MKCL_MAKE_FIXNUM(mkcl_string_total_size(env, #0))")
(def-inline array-total-size :always (string) :fixnum "mkcl_string_total_size(env, #0)")
(def-inline array-total-size :always (base-string) t "MKCL_MAKE_FIXNUM(mkcl_base_string_total_size(env, #0))")
(def-inline array-total-size :always (base-string) :fixnum "mkcl_base_string_total_size(env, #0)")
(def-inline array-total-size :unsafe (t) t "MKCL_MAKE_FIXNUM((#0)->array.dim)")
(def-inline array-total-size :unsafe (t) :fixnum "((#0)->array.dim)")
(proclaim-function adjustable-array-p (array) t :predicate t)
(proclaim-function array-displacement (array) (values t fixnum) :predicate t)
(proclaim-function svref (simple-vector fixnum) t :no-side-effects t)
(def-inline svref :always ((vector t) t) t "mkcl_svref_index(env, #0, mkcl_safe_fixnum_to_word(env, #1))")
(def-inline svref :always ((vector t) fixnum) t "mkcl_svref_index(env, #0, #1)")
(def-inline svref :unsafe (t t) t "((#0)->vector.self.t[mkcl_fixnum_to_word(#1)])")
(def-inline svref :unsafe (t fixnum) t "((#0)->vector.self.t[#1])")
(proclaim-function si:svset (simple-vector fixnum t) t)
(def-inline si:svset :always ((vector t) t t) t "mkcl_svset_index(env, #0, mkcl_safe_fixnum_to_word(env, #1), #2)")
(def-inline si:svset :always ((vector t) fixnum t) t "mkcl_svset_index(env, #0, #1, #2)")
(def-inline si:svset :unsafe (t t t) t "((#0)->vector.self.t[mkcl_fixnum_to_word(#1)]=(#2))")
(def-inline si:svset :unsafe (t fixnum t) t "((#0)->vector.self.t[#1] = (#2))")
(proclaim-function array-has-fill-pointer-p (*) t :predicate t)
(proclaim-function fill-pointer (vector) fixnum :no-side-effects t)
(def-inline fill-pointer :always (vector) t "MKCL_MAKE_FIXNUM(mkcl_vector_fill_pointer(env, #0))")
(def-inline fill-pointer :always (vector) :fixnum "mkcl_vector_fill_pointer(env, #0)")
(def-inline fill-pointer :always (string) t "MKCL_MAKE_FIXNUM(mkcl_string_fill_pointer(env, #0))")
(def-inline fill-pointer :always (string) :fixnum "mkcl_string_fill_pointer(env, #0)")
(def-inline fill-pointer :always (base-string) t "MKCL_MAKE_FIXNUM(mkcl_base_string_fill_pointer(env, #0))")
(def-inline fill-pointer :always (base-string) :fixnum "mkcl_base_string_fill_pointer(env, #0)")
(def-inline fill-pointer :unsafe (t) t "MKCL_MAKE_FIXNUM((#0)->vector.fillp)")
(def-inline fill-pointer :unsafe (t) :fixnum "((#0)->vector.fillp)")
(proclaim-function si:fill-pointer-set (vector fixnum) fixnum)
(def-inline si:fill-pointer-set :always (vector t) t
"MKCL_MAKE_FIXNUM(mkcl_vector_fill_pointer_set(env, #0, mkcl_safe_fixnum_to_word(env, #1)))")
(def-inline si:fill-pointer-set :always (vector fixnum) t "MKCL_MAKE_FIXNUM(mkcl_vector_fill_pointer_set(env, #0, #1))")
(def-inline si:fill-pointer-set :always (vector fixnum) :fixnum "mkcl_vector_fill_pointer_set(env, #0, #1)")
(def-inline si:fill-pointer-set :always (string t) t
"MKCL_MAKE_FIXNUM(mkcl_string_fill_pointer_set(env, #0, mkcl_safe_fixnum_to_word(env, #1)))")
(def-inline si:fill-pointer-set :always (string fixnum) t "MKCL_MAKE_FIXNUM(mkcl_string_fill_pointer_set(env, #0, #1))")
(def-inline si:fill-pointer-set :always (string fixnum) :fixnum "mkcl_string_fill_pointer_set(env, #0, #1)")
(def-inline si:fill-pointer-set :always (base-string t) t
"MKCL_MAKE_FIXNUM(mkcl_base_string_fill_pointer_set(env, #0, mkcl_safe_fixnum_to_word(env, #1)))")
(def-inline si:fill-pointer-set :always (base-string fixnum) t "MKCL_MAKE_FIXNUM(mkcl_base_string_fill_pointer_set(env, #0, #1))")
(def-inline si:fill-pointer-set :always (base-string fixnum) :fixnum "mkcl_base_string_fill_pointer_set(env, #0, #1)")
(def-inline si:fill-pointer-set :unsafe (t fixnum) t "MKCL_MAKE_FIXNUM((#0)->vector.fillp=(#1))")
(def-inline si:fill-pointer-set :unsafe (t fixnum) :fixnum "((#0)->vector.fillp=(#1))")
(proclaim-function si:replace-array (*) t)
(proclaim-function bit ((array bit) *) bit :no-side-effects t)
(def-inline bit :always (t t) t "mk_cl_aref(env, 2, #0, #1)")
(def-inline bit :always (t t t) t "mk_cl_aref(env, 3, #0, #1, #2)")
(def-inline bit :always (array t) t "mkcl_aref(env, #0, #1)")
(def-inline bit :always (array fixnum) t "mkcl_aref_index(env, #0, #1)")
(def-inline bit :always ((array bit) fixnum) t "mkcl_aref_index_bit(env, #0, #1)")
(def-inline bit :always ((array bit) fixnum) :fixnum "mkcl_aref_index_bit_raw(env, #0, #1)")
(def-inline bit :unsafe (t t t) t
"@0;mkcl_aref_index(env, #0,mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2))")
(def-inline bit :unsafe ((array bit) t t) t
"@0;mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2))")
(def-inline bit :unsafe ((array bit) fixnum fixnum) t
"@0;mkcl_bvref_index(env, #0,(#1)*(#0)->array.dims[1]+(#2))")
(def-inline bit :unsafe ((array bit) fixnum fixnum) :fixnum
"@0;mkcl_bvref_index_raw(env, #0,(#1)*(#0)->array.dims[1]+(#2))")
(def-inline bit :unsafe (t t) t "mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1))")
(def-inline bit :unsafe ((array bit) t) t "mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1))") ;;not quite unsafe
(def-inline bit :unsafe ((array bit) fixnum) t "mkcl_bvref_index(env, #0,#1)") ;;not quite unsafe
(def-inline bit :unsafe ((array bit) fixnum) :fixnum "mkcl_bvref_index_raw(env, #0,#1)") ;;not quite unsafe
(proclaim-function sbit ((simple-array bit) *) bit :no-side-effects t)
(def-inline sbit :always (t t) t "mk_cl_aref(env, 2, #0, #1)")
(def-inline sbit :always (t t t) t "mk_cl_aref(env, 3, #0, #1, #2)")
(def-inline sbit :always (array t) t "mkcl_aref(env, #0, #1)")
(def-inline sbit :always (array fixnum) t "mkcl_aref_index(env, #0, #1)")
(def-inline sbit :always ((array bit) fixnum) t "mkcl_aref_index_bit(env, #0, #1)")
(def-inline sbit :always ((array bit) fixnum) :fixnum "mkcl_aref_index_bit_raw(env, #0, #1)")
(def-inline sbit :unsafe (t t t) t
"@0;mkcl_aref_index(env, #0,mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2))")
(def-inline sbit :unsafe ((array bit) t t) t
"@0;mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1)*(#0)->array.dims[1]+mkcl_fixnum_to_word(#2))")
(def-inline sbit :unsafe ((array bit) fixnum fixnum) t
"@0;mkcl_bvref_index(env, #0,(#1)*(#0)->array.dims[1]+(#2))")
(def-inline sbit :unsafe ((array bit) fixnum fixnum) :fixnum
"@0;mkcl_bvref_index_raw(env, #0,(#1)*(#0)->array.dims[1]+(#2))")
(def-inline sbit :unsafe (t t) t "mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1))")
(def-inline sbit :unsafe ((array bit) t) t "mkcl_bvref_index(env, #0,mkcl_fixnum_to_word(#1))") ;;not quite unsafe
(def-inline sbit :unsafe ((array bit) fixnum) t "mkcl_bvref_index(env, #0,#1)") ;;not quite unsafe
(def-inline sbit :unsafe ((array bit) fixnum) :fixnum "mkcl_bvref_index_raw(env, #0,#1)") ;;not quite unsafe
(proclaim-function si:bit-set (bit (array bit) *) bit)
(def-inline si:bit-set :always (t t t) t "mk_si_aset(env, 3, #0, #1, #2)")
(def-inline si:bit-set :always (t t t t) t "mk_si_aset(env, 4, #0, #1, #2, #3)")
(def-inline si:bit-set :always (t array t) t "mkcl_aset(env, #1, #2, #0)")
(def-inline si:bit-set :always (t array fixnum) t "mkcl_aset_index(env, #1, #2, #0)")
(def-inline si:bit-set :always (t (array bit) fixnum) t "mkcl_aset_index_bit(env, #1, #2, #0)")
(def-inline si:bit-set :always (fixnum (array bit) fixnum) t "MKCL_MAKE_FIXNUM(mkcl_aset_index_bit_raw(env, #1, #2, #0))")
(def-inline si:bit-set :always (fixnum (array bit) fixnum) :fixnum "mkcl_aset_index_bit_raw(env, #1, #2, #0)")
(def-inline si:bit-set :unsafe (t t t t) t
"@01;mkcl_aset_index(env, #1,mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3), mkcl_fixnum_to_word(#0))")
(def-inline si:bit-set :unsafe (t (array bit) t t) t
"@01;mkcl_bvset_index(env, #1,mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3), mkcl_fixnum_to_word(#0))")
(def-inline si:bit-set :unsafe (t (array bit) fixnum fixnum) t
"@01;MKCL_MAKE_FIXNUM(mkcl_bvset_index_raw(env, #1,(#2)*(#1)->array.dims[1]+(#3), mkcl_fixnum_to_word(#0)))")
(def-inline si:bit-set :unsafe (t (array bit) fixnum fixnum) :fixnum
"@01;mkcl_bvset_index_raw(env, #1,(#2)*(#1)->array.dims[1]+(#3), mkcl_fixnum_to_word(#0))")
(def-inline si:bit-set :unsafe (t t t) t "mkcl_bvset_index(env, #1,mkcl_fixnum_to_word(#2), mkcl_fixnum_to_word(#0))")
(def-inline si:bit-set :unsafe (t (array bit) t) t "mkcl_bvset_index(env, #1,mkcl_fixnum_to_word(#2), #0)") ;;not quite unsafe
(def-inline si:bit-set :unsafe (fixnum (array bit) fixnum) t "MKCL_MAKE_FIXNUM(mkcl_bvset_index_raw(env, #1, #2, #0))") ;;not quite unsafe
(def-inline si:bit-set :unsafe (fixnum (array bit) fixnum) :fixnum "mkcl_bvset_index_raw(env, #1, #2, #0)") ;;not quite unsafe
(proclaim-function si:sbit-set (bit (simple-array bit) *) bit)
(def-inline si:sbit-set :always (t t t) t "mk_si_aset(env, 3, #0, #1, #2)")
(def-inline si:sbit-set :always (t t t t) t "mk_si_aset(env, 4, #0, #1, #2, #3)")
(def-inline si:sbit-set :always (t array t) t "mkcl_aset(env, #1, #2, #0)")
(def-inline si:sbit-set :always (t array fixnum) t "mkcl_aset_index(env, #1, #2, #0)")
(def-inline si:sbit-set :always (t (array bit) fixnum) t "mkcl_aset_index_bit(env, #1, #2, #0)")
(def-inline si:sbit-set :always (fixnum (array bit) fixnum) t "MKCL_MAKE_FIXNUM(mkcl_aset_index_bit_raw(env, #1, #2, #0))")
(def-inline si:sbit-set :always (fixnum (array bit) fixnum) :fixnum "mkcl_aset_index_bit_raw(env, #1, #2, #0)")
(def-inline si:sbit-set :unsafe (t t t t) t
"@01;mkcl_aset_index(env, #1,mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3), mkcl_fixnum_to_word(#0))")
(def-inline si:sbit-set :unsafe (t (array bit) t t) t
"@01;mkcl_bvset_index(env, #1,mkcl_fixnum_to_word(#2)*(#1)->array.dims[1]+mkcl_fixnum_to_word(#3), mkcl_fixnum_to_word(#0))")
(def-inline si:sbit-set :unsafe (t (array bit) fixnum fixnum) t
"@01;MKCL_MAKE_FIXNUM(mkcl_bvset_index_raw(env, #1,(#2)*(#1)->array.dims[1]+(#3), mkcl_fixnum_to_word(#0)))")
(def-inline si:sbit-set :unsafe (t (array bit) fixnum fixnum) :fixnum
"@01;mkcl_bvset_index_raw(env, #1,(#2)*(#1)->array.dims[1]+(#3), #0)")
(def-inline si:sbit-set :unsafe (t t t) t "mkcl_bvset_index(env, #1,mkcl_fixnum_to_word(#2), #0)")
(def-inline si:sbit-set :unsafe (t (array bit) t) t "mkcl_bvset_index(env, #1,mkcl_fixnum_to_word(#2), #0)") ;;not quite unsafe
(def-inline si:sbit-set :unsafe (fixnum (array bit) fixnum) t "MKCL_MAKE_FIXNUM(mkcl_bvset_index_raw(env, #1, #2, #0))") ;;not quite unsafe
(def-inline si:sbit-set :unsafe (fixnum (array bit) fixnum) :fixnum "mkcl_bvset_index_raw(env, #1, #2, #0)") ;;not quite unsafe
;; file assignment.d
(proclaim-function set (symbol t) t)
(proclaim-function si:fset ((or symbol (cons (member setf) (cons symbol null))) t &optional t t) t)
(proclaim-function makunbound (symbol) t)
(proclaim-function fmakunbound (symbol) t)
(proclaim-function si:clear-compiler-properties (*) t)
;; file cfun.d
(proclaim-function si:compiled-function-name (*) t)
;; file character.d
(proclaim-function standard-char-p (character) t :predicate t)
(def-inline standard-char-p :always (character) :bool "mkcl_standard_char_p(#0)")
(proclaim-function graphic-char-p (character) t :predicate t)
(def-inline graphic-char-p :always (character) :bool "mkcl_graphic_char_p(#0)")
(proclaim-function alpha-char-p (character) t :predicate t :no-side-effects t)
(def-inline alpha-char-p :always (character) :bool "mkcl_alpha_char_p(#0)")
(proclaim-function upper-case-p (character) t :predicate t :no-side-effects t)
(def-inline upper-case-p :always (character) :bool "mkcl_upper_case_p(#0)")
(proclaim-function lower-case-p (character) t :predicate t :no-side-effects t)
(def-inline lower-case-p :always (character) :bool "mkcl_lower_case_p(#0)")
(proclaim-function both-case-p (character) t :predicate t :no-side-effects t)
(def-inline both-case-p :always (character) :bool "mkcl_both_case_p(#0)")
(proclaim-function digit-char-p (character *) t :no-side-effects t)
(proclaim-function alphanumericp (character) t :predicate t :no-side-effects t)
(def-inline alphanumericp :always (character) :bool "mkcl_alphanumericp(#0)")
(proclaim-function character (t) character)
(proclaim-function char= (character *) t :predicate t :no-side-effects t)
(def-inline char= :always (t t) :bool "mkcl_char_code(env, #0)==mkcl_char_code(env, #1)")
(def-inline char= :always (character character) :bool "(#0)==(#1)")
(proclaim-function char/= (character *) t :predicate t :no-side-effects t)
(def-inline char/= :always (t t) :bool "mkcl_char_code(env, #0)!=mkcl_char_code(env, #1)")
(def-inline char/= :always (character character) :bool "(#0)!=(#1)")
(proclaim-function char< (character *) t :predicate t :no-side-effects t)
(def-inline char< :always (character character) :bool "(#0)<(#1)")
(proclaim-function char> (character *) t :predicate t :no-side-effects t)
(def-inline char> :always (character character) :bool "(#0)>(#1)")
(proclaim-function char<= (character *) t :predicate t :no-side-effects t)
(def-inline char<= :always (character character) :bool "(#0)<=(#1)")
(proclaim-function char>= (character *) t :predicate t :no-side-effects t)
(def-inline char>= :always (character character) :bool "(#0)>=(#1)")
(proclaim-function char-equal (character *) t :predicate t)
(proclaim-function char-not-equal (character *) t :predicate t)
(proclaim-function char-lessp (character *) t :predicate t)
(proclaim-function char-greaterp (character *) t :predicate t)
(proclaim-function char-not-greaterp (character *) t :predicate t)
(proclaim-function char-not-lessp (character *) t :predicate t)
(proclaim-function character (*) character)
(proclaim-function char-code (character) fixnum :no-side-effects t)
(def-inline char-code :always (character) t "(MKCL_MAKE_FIXNUM(#0))")
(def-inline char-code :always (character) :fixnum "(#0)")
(proclaim-function code-char (fixnum) character :no-side-effects t)
(def-inline code-char :always (fixnum) t
"@0;(((0 <= (#0) && (#0) < 0x0D800) || (0x0DFFF < (#0) && (#0) != 0x0FFFE && (#0) != 0x0FFFF && (#0) < MKCL_CHAR_CODE_LIMIT)) ? MKCL_CODE_CHAR(#0) : mk_cl_Cnil)")
;;(def-inline code-char :always (fixnum) :char "(#0) /* (code-char fixnum) */")
;;#+unicode ;; For identical args signature, largest return type must be last.
;;(def-inline code-char :always (fixnum) :wchar "(#0)")
(proclaim-function char-upcase (character) character :no-side-effects t)
(def-inline char-upcase :always (character) t "(MKCL_CODE_CHAR(mkcl_char_upcase(#0)))")
(def-inline char-upcase :always (character) :wchar "mkcl_char_upcase(#0)")
(def-inline char-upcase :always (base-char) :char "mkcl_char_upcase(#0)")
(proclaim-function char-downcase (character) character :no-side-effects t)
(def-inline char-downcase :always (character) t "(MKCL_CODE_CHAR(mkcl_char_downcase(#0)))")
(def-inline char-downcase :always (character) :wchar "mkcl_char_downcase(#0)")
(def-inline char-downcase :always (base-char) :char "mkcl_char_downcase(#0)")
(proclaim-function digit-char (fixnum *) (or character null))
(proclaim-function char-int (character) fixnum :no-side-effects t)
(def-inline char-int :always (character) t "(MKCL_MAKE_FIXNUM(#0))")
(def-inline char-int :always (character) :fixnum "(#0)")
(proclaim-function char-name (character) (or string null))
(proclaim-function name-char (string) (or character null))
;; file error.d
(proclaim-function error (t *) t)
(proclaim-function cerror (t t *) t)
;; file stacks.d
(proclaim-function si:disable-interrupts () t)
(def-inline si:disable-interrupts :always nil t
"((env->disable_interrupts) ? mk_cl_Cnil : ((env->disable_interrupts = 1), mk_cl_Ct))")
(proclaim-function si:enable-interrupts () t)
(def-inline si:enable-interrupts :always nil t "(env->disable_interrupts = 0)")
(proclaim-function si:ihs-top () t)
(proclaim-function si:ihs-fun (*) t)
(proclaim-function si:ihs-env (*) t)
(proclaim-function si:frs-top (*) t)
(proclaim-function si:frs-bds (*) t)
(proclaim-function si:frs-tag (*) t)
(proclaim-function si:frs-ihs (*) t)
(proclaim-function si:bds-top (*) t)
(proclaim-function si:bds-var (*) t)
(proclaim-function si:bds-val (*) t)
(proclaim-function si:sch-frs-base (*) t)
;; file eval.d
(proclaim-function apply (t t *) t)