1 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; This software is derived from the CMU CL system, which was
5 ;;;; written at Carnegie Mellon University and released into the
6 ;;;; public domain. The software is in the public domain and is
7 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
8 ;;;; files for more information.
12 ;;;; Machine Architecture parameters:
13 (eval-when (:compile-toplevel :load-toplevel :execute)
15 ;;; number of bits per word where a word holds one lisp descriptor
16 (def!constant n-word-bits 32)
18 ;;; the natural width of a machine word (as seen in e.g. register width,
20 (def!constant n-machine-word-bits 32)
22 ;;; number of bits per byte where a byte is the smallest addressable object
23 (def!constant n-byte-bits 8)
25 ;;; flags for the generational garbage collector
26 (def!constant pseudo-atomic-interrupted-flag 1)
27 (def!constant pseudo-atomic-flag
28 ;; Must be (ash 1 (1- sb-vm:n-lowtag-bits)) for cheneygc ALLOCATION.
31 (def!constant float-sign-shift 31)
33 (def!constant single-float-bias 126)
34 (defconstant-eqx single-float-exponent-byte (byte 8 23) #'equalp)
35 (defconstant-eqx single-float-significand-byte (byte 23 0) #'equalp)
36 (def!constant single-float-normal-exponent-min 1)
37 (def!constant single-float-normal-exponent-max 254)
38 (def!constant single-float-hidden-bit (ash 1 23))
39 (def!constant single-float-trapping-nan-bit (ash 1 22))
41 (def!constant double-float-bias 1022)
42 (defconstant-eqx double-float-exponent-byte (byte 11 20) #'equalp)
43 (defconstant-eqx double-float-significand-byte (byte 20 0) #'equalp)
44 (def!constant double-float-normal-exponent-min 1)
45 (def!constant double-float-normal-exponent-max #x7FE)
46 (def!constant double-float-hidden-bit (ash 1 20))
47 (def!constant double-float-trapping-nan-bit (ash 1 19))
50 ;;; X These values are for the x86 80 bit format and are no doubt
51 ;;; incorrect for the sparc.
53 (def!constant long-float-bias 16382)
54 (defconstant-eqx long-float-exponent-byte (byte 15 0) #'equalp)
55 (defconstant-eqx long-float-significand-byte (byte 31 0) #'equalp)
56 (def!constant long-float-normal-exponent-min 1)
57 (def!constant long-float-normal-exponent-max #x7FFE)
58 (def!constant long-float-hidden-bit (ash 1 31))
59 (def!constant long-float-trapping-nan-bit (ash 1 30))
61 (def!constant single-float-digits
62 (+ (byte-size single-float-significand-byte) 1))
64 (def!constant double-float-digits
65 (+ (byte-size double-float-significand-byte) n-word-bits 1))
67 ;;; This looks wrong - CSR
68 (def!constant long-float-digits
69 (+ (byte-size long-float-significand-byte) n-word-bits 1))
71 (def!constant float-inexact-trap-bit (ash 1 0))
72 (def!constant float-divide-by-zero-trap-bit (ash 1 1))
73 (def!constant float-underflow-trap-bit (ash 1 2))
74 (def!constant float-overflow-trap-bit (ash 1 3))
75 (def!constant float-invalid-trap-bit (ash 1 4))
77 (def!constant float-round-to-nearest 0)
78 (def!constant float-round-to-zero 1)
79 (def!constant float-round-to-positive 2)
80 (def!constant float-round-to-negative 3)
82 (defconstant-eqx float-rounding-mode (byte 2 30) #'equalp) ; RD
83 (defconstant-eqx float-sticky-bits (byte 5 5) #'equalp) ; aexc
84 (defconstant-eqx float-traps-byte (byte 5 23) #'equalp) ; TEM
85 (defconstant-eqx float-exceptions-byte (byte 5 0) #'equalp) ; cexc
87 ;;; According to the SPARC doc (as opposed to FPU doc), the fast mode
88 ;;; bit (EFM) is "reserved", and should always be zero. However, for
89 ;;; sparc-V8 and sparc-V9, it appears to work, causing denormals to
90 ;;; be truncated to 0 silently.
91 (def!constant float-fast-bit (ash 1 22))
96 ;;;; Description of the target address space.
98 ;;; Where to put the different spaces. Must match the C code!
99 #!+(and linux cheneygc)
101 (def!constant linkage-table-space-start #x0f800000)
102 (def!constant linkage-table-space-end #x10000000)
104 (def!constant read-only-space-start #x11000000)
105 (def!constant read-only-space-end #x15000000)
107 (def!constant static-space-start #x28000000)
108 (def!constant static-space-end #x2c000000)
110 (def!constant dynamic-0-space-start #x30000000)
111 (def!constant dynamic-0-space-end #x38000000)
113 (def!constant dynamic-1-space-start #x40000000)
114 (def!constant dynamic-1-space-end #x48000000))
116 #!+(and linux gencgc) ; sensibly small read-only and static spaces
118 (def!constant linkage-table-space-start #x0f800000)
119 (def!constant linkage-table-space-end #x10000000)
121 (def!constant read-only-space-start #x11000000)
122 (def!constant read-only-space-end #x110ff000)
124 (def!constant static-space-start #x11100000)
125 (def!constant static-space-end #x111ff000)
127 (def!constant dynamic-space-start #x30000000)
128 (def!constant dynamic-space-end (!configure-dynamic-space-end)))
130 #!+(and sunos cheneygc) ; might as well start by trying the same numbers
132 (def!constant linkage-table-space-start #x0f800000)
133 (def!constant linkage-table-space-end #x10000000)
135 (def!constant read-only-space-start #x11000000)
136 (def!constant read-only-space-end #x15000000)
138 (def!constant static-space-start #x28000000)
139 (def!constant static-space-end #x2c000000)
141 (def!constant dynamic-0-space-start #x30000000)
142 (def!constant dynamic-0-space-end #x38000000)
144 (def!constant dynamic-1-space-start #x40000000)
145 (def!constant dynamic-1-space-end #x48000000))
147 #!+(and sunos gencgc) ; sensibly small read-only and static spaces
149 (def!constant linkage-table-space-start #x0f800000)
150 (def!constant linkage-table-space-end #x10000000)
152 (def!constant read-only-space-start #x11000000)
153 (def!constant read-only-space-end #x110ff000)
155 (def!constant static-space-start #x11100000)
156 (def!constant static-space-end #x111ff000)
158 (def!constant dynamic-space-start #x30000000)
159 (def!constant dynamic-space-end (!configure-dynamic-space-end)))
161 #!+netbsd ; Need a gap at 0x4000000 for shared libraries
163 (def!constant linkage-table-space-start #x0f800000)
164 (def!constant linkage-table-space-end #x10000000)
166 (def!constant read-only-space-start #x11000000)
167 (def!constant read-only-space-end #x15000000)
169 (def!constant static-space-start #x18000000)
170 (def!constant static-space-end #x1c000000)
172 (def!constant dynamic-0-space-start #x48000000)
173 (def!constant dynamic-0-space-end #x5ffff000)
175 (def!constant dynamic-1-space-start #x60000000)
176 (def!constant dynamic-1-space-end #x77fff000))
178 ;; Size of one linkage-table entry in bytes. See comment in
179 ;; src/runtime/sparc-arch.c
180 (def!constant linkage-table-entry-size 16)
183 ;;;; other random constants.
187 pending-interrupt-trap
191 fun-end-breakpoint-trap
192 after-breakpoint-trap
193 single-step-around-trap
194 single-step-before-trap
195 #!+gencgc allocation-trap)
199 object-not-instance-trap)
203 ;;; These symbols are loaded into static space directly after NIL so
204 ;;; that the system can compute their address by adding a constant
207 ;;; The fdefn objects for the static functions are loaded into static
208 ;;; space directly after the static symbols. That way, the raw-addr
209 ;;; can be loaded directly out of them by indirecting relative to NIL.
211 (defparameter *static-symbols*
213 *common-static-symbols*
214 *c-callable-static-symbols*
215 '(#!+gencgc *restart-lisp-function*)))
217 (defparameter *static-funs*
219 two-arg-+ two-arg-- two-arg-* two-arg-/ two-arg-< two-arg-> two-arg-=
220 two-arg-<= two-arg->= two-arg-/= eql %negate
221 two-arg-and two-arg-ior two-arg-xor two-arg-eqv
222 two-arg-gcd two-arg-lcm
225 ;;;; Assembler parameters:
227 ;;; The number of bits per element in the assemblers code vector.
228 (defparameter *assembly-unit-length* 8)
231 ;;;; Pseudo-atomic trap number
233 ;;; KLUDGE: Linux on the SPARC doesn't seem to conform to any kind of
234 ;;; standards at all. So we use an explicitly undefined trap, because
235 ;;; that currently does the right thing. Expect this to break
236 ;;; eventually (but with luck, at that point we'll be able to revert
237 ;;; to the compliant trap number...
239 ;;; KLUDGE: Maybe this should be called pseudo-atomic-magic-number,
240 ;;; allowing other architectures (which don't necessarily use traps
241 ;;; for pseudo-atomic) to propagate a magic number to C land via
244 (def!constant pseudo-atomic-trap #x10)
246 (def!constant pseudo-atomic-trap #x40)