mirror of
https://github.com/false-schemers/skint.git
synced 2024-11-16 07:47:54 +01:00
420 lines
15 KiB
C
420 lines
15 KiB
C
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/* k.h -- kernel */
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/* standard includes */
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#include <stdio.h>
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#include <stddef.h>
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#include <stdlib.h>
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#include <assert.h>
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/* extra includes */
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#include <math.h>
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#include <errno.h>
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#include <ctype.h>
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#include <string.h>
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#include <time.h>
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/* standard definitions */
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typedef ptrdiff_t obj; /* pointers are this size, lower bit zero */
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typedef ptrdiff_t cxoint_t; /* same thing, used as integer */
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typedef struct { /* type descriptor */
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const char *tname; /* name (debug) */
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void (*free)(void*); /* deallocator */
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} cxtype_t;
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#define notobjptr(o) (((char*)(o) - (char*)cxg_heap) & cxg_hmask)
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#define isobjptr(o) (!notobjptr(o))
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#define notaptr(o) ((o) & 1)
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#define isaptr(o) (!notaptr(o))
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#define obj_from_obj(o) (o)
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#define obj_from_objptr(p) ((obj)(p))
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#define obj_from_size(n) (((cxoint_t)(n) << 1) | 1)
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#define objptr_from_objptr(p) (p)
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#define objptr_from_obj(o) ((obj*)(o))
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#define size_from_obj(o) ((int)((o) >> 1))
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#define obj_from_case(n) obj_from_objptr(cases+(n))
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#define case_from_obj(o) (objptr_from_obj(o)-cases)
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#define obj_from_ktrap() obj_from_size(0x5D56F806)
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#define obj_from_void(v) ((void)(v), obj_from_size(0x6F56DF77))
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#define bool_from_obj(o) (o)
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#define bool_from_bool(b) (b)
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#define bool_from_size(s) (s)
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#define void_from_void(v) (void)(v)
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#define void_from_obj(o) (void)(o)
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#define rreserve(m) if (r + (m) >= cxg_rend) r = cxm_rgc(r, m)
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#define hpushptr(p, pt, l) (hreserve(2, l), *--hp = (obj)(p), *--hp = (obj)(pt), (obj)(hp+1))
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#define hbsz(s) ((s) + 1) /* 1 extra word to store block size */
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#define hreserve(n, l) ((hp < cxg_heap + (n)) ? hp = cxm_hgc(r, r+(l), hp, n) : hp)
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#define hendblk(n) (*--hp = obj_from_size(n), (obj)(hp+1))
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#define hblklen(p) size_from_obj(((obj*)(p))[-1])
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#define hblkref(p, i) (((obj*)(p))[i])
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typedef obj (*cxhost_t)(obj);
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typedef struct cxroot_tag {
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int globc; obj **globv;
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struct cxroot_tag *next;
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} cxroot_t;
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extern obj *cxg_heap;
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extern obj *cxg_hp;
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extern cxoint_t cxg_hmask;
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extern cxroot_t *cxg_rootp;
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extern obj *cxm_rgc(obj *regs, size_t needs);
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extern obj *cxm_hgc(obj *regs, obj *regp, obj *hp, size_t needs);
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extern obj *cxg_regs, *cxg_rend;
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extern void cxm_check(int x, char *msg);
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extern void *cxm_cknull(void *p, char *msg);
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extern int cxg_rc;
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extern char **cxg_argv;
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/* extra definitions */
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/* basic object representation */
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#define isimm(o, t) (((o) & 0xf) == (((t) << 1) | 1))
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#define isimm2(o1, o2, t) (((((o1) & 0xf) << 4) | ((o2) & 0xf)) == (((((t) << 1) | 1) << 4) | (((t) << 1) | 1)))
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#define getimmu_unchecked(o) (long)(((o) >> 4) & 0xfffffff)
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#define getimms_unchecked(o) (long)(((((o) >> 4) & 0xfffffff) ^ 0x8000000) - 0x8000000)
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#ifdef NDEBUG
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#define getimmu(o, t) getimmu_unchecked(o)
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#define getimms(o, t) getimms_unchecked(o)
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#else
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extern long getimmu(obj o, int t);
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extern long getimms(obj o, int t);
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#endif
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#define mkimm(o, t) (obj)((((o) & 0xfffffff) << 4) | ((t) << 1) | 1)
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#ifdef NDEBUG
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static int isnative(obj o, cxtype_t *tp)
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{ return isobjptr(o) && objptr_from_obj(o)[-1] == (obj)tp; }
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#define getnative(o, t) ((void*)(*objptr_from_obj(o)))
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#else
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extern int isnative(obj o, cxtype_t *tp);
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extern void *getnative(obj o, cxtype_t *tp);
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#endif
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extern int istagged(obj o, int t);
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static /*inline*/ int istagged_inlined(obj o, int t) {
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if (!isobjptr(o)) return 0;
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else { obj h = objptr_from_obj(o)[-1];
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return notaptr(h) && size_from_obj(h) >= 1
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&& hblkref(o, 0) == obj_from_size(t); }
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}
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#ifdef NDEBUG
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#define cktagged(o, t) (o)
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#define taggedlen(o, t) (hblklen(o)-1)
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#define taggedref(o, t, i) (&hblkref(o, (i)+1))
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#else
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extern obj cktagged(obj o, int t);
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extern int taggedlen(obj o, int t);
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extern obj* taggedref(obj o, int t, int i);
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#endif
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/* booleans */
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#define TRUE_ITAG 0
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typedef int bool_t;
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#define is_bool_obj(o) (!((o) & ~(obj)1))
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#define is_bool_bool(b) ((void)(b), 1)
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#define void_from_bool(b) (void)(b)
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#define obj_from_bool(b) ((b) ? mkimm(0, TRUE_ITAG) : 0)
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/* numbers */
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#define FIXNUM_BIT 28
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#define FIXNUM_MIN -134217728
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#define FIXNUM_MAX 134217727
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#ifdef NDEBUG
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#define fxneg(x) (-(x))
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#define fxabs(x) (labs(x))
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#define fxadd(x, y) ((x) + (y))
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#define fxsub(x, y) ((x) - (y))
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#define fxmul(x, y) ((x) * (y))
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/* exact integer division */
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#define fxdiv(x, y) ((x) / (y))
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/* truncated division (common/C99) */
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#define fxquo(x, y) ((x) / (y))
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#define fxrem(x, y) ((x) % (y))
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/* floor division */
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static long fxmqu(long x, long y) {
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long q = x / y; return ((x < 0 && y > 0) || (x > 0 && y < 0)) ? q - 1 : q;
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}
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static long fxmlo(long x, long y) {
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long r = x % y; return ((r < 0 && y > 0) || (r > 0 && y < 0)) ? r + y : r;
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}
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/* euclidean division */
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static long fxeuq(long x, long y) {
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long q = x / y, r = x % y; return (r < 0) ? ((y > 0) ? q - 1 : q + 1) : q;
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}
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static long fxeur(long x, long y) {
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long r = x % y; return (r < 0) ? ((y > 0) ? r + y : r - y) : r;
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}
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static long fxgcd(long x, long y) {
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long a = labs(x), b = labs(y), c; while (b) c = a%b, a = b, b = c;
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return a;
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}
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#define fxasl(x, y) ((x) << (y))
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#define fxasr(x, y) ((x) >> (y))
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#define fxflo(f) ((long)(f))
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#else
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extern long fxneg(long x);
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extern long fxabs(long x);
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extern long fxadd(long x, long y);
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extern long fxsub(long x, long y);
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extern long fxmul(long x, long y);
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extern long fxdiv(long x, long y);
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extern long fxquo(long x, long y);
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extern long fxrem(long x, long y);
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extern long fxmqu(long x, long y);
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extern long fxmlo(long x, long y);
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extern long fxeuq(long x, long y);
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extern long fxeur(long x, long y);
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extern long fxgcd(long x, long y);
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extern long fxasl(long x, long y);
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extern long fxasr(long x, long y);
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extern long fxflo(double f);
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#endif
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static int flisint(double f) { return f > -HUGE_VAL && f < HUGE_VAL && f == floor(f); }
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extern long fxpow(long x, long y);
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extern long fxsqrt(long x);
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extern int fxifdv(long x, long y, long *pi, double *pd);
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extern double flquo(double x, double y);
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extern double flrem(double x, double y);
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extern double flmqu(double x, double y);
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extern double flmlo(double x, double y);
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extern double flgcd(double x, double y);
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extern double flround(double x);
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extern int strtofxfl(char *s, int radix, long *pl, double *pd);
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/* fixnums */
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#define FIXNUM_ITAG 1
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typedef long fixnum_t;
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#define is_fixnum_obj(o) (isimm(o, FIXNUM_ITAG))
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#define are_fixnum_objs(o1, o2) (isimm2((o1), (o2), FIXNUM_ITAG))
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#define get_fixnum_unchecked(o) (getimms_unchecked(o))
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#define is_fixnum_fixnum(i) ((void)(i), 1)
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#define is_bool_fixnum(i) ((void)(i), 0)
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#define is_fixnum_bool(i) ((void)(i), 0)
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#define fixnum_from_obj(o) (getimms(o, FIXNUM_ITAG))
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#define fixnum_from_fixnum(i) (i)
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#define fixnum_from_flonum(l,x) ((fixnum_t)(x))
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#define bool_from_fixnum(i) ((void)(i), 1)
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#define void_from_fixnum(i) (void)(i)
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#define obj_from_fixnum(i) mkimm((fixnum_t)(i), FIXNUM_ITAG)
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/* flonums */
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extern cxtype_t *FLONUM_NTAG;
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typedef double flonum_t;
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#define is_flonum_obj(o) (isnative(o, FLONUM_NTAG))
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#define is_flonum_flonum(f) ((void)(f), 1)
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#define is_flonum_bool(f) ((void)(f), 0)
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#define is_bool_flonum(f) ((void)(f), 0)
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#define is_fixnum_flonum(i) ((void)(i), 0)
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#define is_flonum_fixnum(i) ((void)(i), 0)
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#define flonum_from_obj(o) (*(flonum_t*)getnative(o, FLONUM_NTAG))
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#define flonum_from_flonum(l, f) (f)
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#define flonum_from_fixnum(x) ((flonum_t)(x))
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#define bool_from_flonum(f) ((void)(f), 0)
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#define void_from_flonum(l, f) (void)(f)
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#define obj_from_flonum(l, f) hpushptr(dupflonum(f), FLONUM_NTAG, l)
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extern flonum_t *dupflonum(flonum_t f);
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/* characters */
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#define CHAR_ITAG 2
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typedef int char_t;
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#define ischar(o) (isimm(o, CHAR_ITAG))
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#define is_char_obj(o) (isimm(o, CHAR_ITAG))
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#define is_char_char(i) ((void)(i), 1)
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#define is_char_bool(i) ((void)(i), 0)
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#define is_bool_char(i) ((void)(i), 0)
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#define is_char_fixnum(i) ((void)(i), 0)
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#define is_fixnum_char(i) ((void)(i), 0)
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#define is_char_flonum(i) ((void)(i), 0)
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#define is_flonum_char(i) ((void)(i), 0)
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#define char_from_obj(o) ((int)getimms(o, CHAR_ITAG))
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#define char_from_char(i) (i)
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#define bool_from_char(i) ((void)(i), 1)
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#define void_from_char(i) (void)(i)
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#define obj_from_char(i) mkimm(i, CHAR_ITAG)
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/* strings */
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extern cxtype_t *STRING_NTAG;
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#define isstring(o) (isnative(o, STRING_NTAG))
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#define stringdata(o) ((int*)getnative(o, STRING_NTAG))
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#define sdatachars(d) ((char*)((d)+1))
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#define stringlen(o) (*stringdata(o))
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#define stringchars(o) ((char*)(stringdata(o)+1))
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#define hpushstr(l, s) hpushptr(s, STRING_NTAG, l)
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#ifdef NDEBUG
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#define stringref(o, i) (stringchars(o)+(i))
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#else
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extern char* stringref(obj o, int i);
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#endif
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extern int *newstring(char *s);
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extern int *allocstring(int n, int c);
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extern int *substring(int *d, int from, int to);
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extern int *stringcat(int *d0, int *d1);
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extern int *dupstring(int *d);
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extern void stringfill(int *d, int c);
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extern int strcmp_ci(char *s1, char*s2);
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/* vectors */
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#define VECTOR_BTAG 1
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#define isvector(o) istagged(o, VECTOR_BTAG)
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#define vectorref(v, i) *taggedref(v, VECTOR_BTAG, i)
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#define vectorlen(v) taggedlen(v, VECTOR_BTAG)
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/* bytevectors */
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extern cxtype_t *BYTEVECTOR_NTAG;
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#define isbytevector(o) (isnative(o, BYTEVECTOR_NTAG))
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#define bytevectordata(o) ((int*)getnative(o, BYTEVECTOR_NTAG))
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#define bvdatabytes(d) ((unsigned char*)((d)+1))
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#define bytevectorlen(o) (*bytevectordata(o))
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#define bytevectorbytes(o) (bvdatabytes(bytevectordata(o)))
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#define hpushu8v(l, s) hpushptr(s, BYTEVECTOR_NTAG, l)
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static int is_byte_obj(obj o) { return (obj_from_fixnum(0) <= o && o <= obj_from_fixnum(255)); }
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#define byte_from_obj(o) byte_from_fixnum(fixnum_from_obj(o))
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#ifdef NDEBUG
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#define byte_from_fixnum(n) ((unsigned char)(n))
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#else
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static unsigned char byte_from_fixnum(int n) { assert(0 <= n && n <= 255); return n; }
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#endif
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#define byte_from_obj(o) byte_from_fixnum(fixnum_from_obj(o))
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#ifdef NDEBUG
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#define bytevectorref(o, i) (bytevectorbytes(o)+(i))
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#else
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extern unsigned char* bytevectorref(obj o, int i);
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#endif
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extern int *newbytevector(unsigned char *s, int n);
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extern int *allocbytevector(int n, int c);
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extern int *dupbytevector(int *d);
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extern int bytevectoreq(int *d0, int *d1);
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extern int *subbytevector(int *d, int from, int to);
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/* boxes */
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#define BOX_BTAG 2
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#define isbox(o) istagged(o, BOX_BTAG)
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#define boxref(o) *taggedref(o, BOX_BTAG, 0)
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/* null */
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#define NULL_ITAG 3
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#define mknull() mkimm(0, NULL_ITAG)
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#define isnull(o) ((o) == mkimm(0, NULL_ITAG))
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/* pairs and lists */
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#define PAIR_BTAG 3
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#define ispair(o) istagged(o, PAIR_BTAG)
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#define car(o) *taggedref(o, PAIR_BTAG, 0)
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#define cdr(o) *taggedref(o, PAIR_BTAG, 1)
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extern int islist(obj l);
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/* symbols */
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#define SYMBOL_ITAG 4
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#define issymbol(o) (isimm(o, SYMBOL_ITAG))
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#define mksymbol(i) mkimm(i, SYMBOL_ITAG)
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#define getsymbol(o) getimmu(o, SYMBOL_ITAG)
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extern char *symbolname(int sym);
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extern int internsym(char *name);
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/* records */
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#define RECORD_BTAG 4
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#define isrecord(o) istagged(o, RECORD_BTAG)
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#define recordrtd(r) *taggedref(r, RECORD_BTAG, 0)
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#define recordref(r, i) *taggedref(r, RECORD_BTAG, (i)+1)
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#define recordlen(r) (taggedlen(r, RECORD_BTAG)-1)
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/* procedures */
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extern int isprocedure(obj o);
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extern int procedurelen(obj o);
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extern obj* procedureref(obj o, int i);
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/* apply and dotted lambda list */
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extern obj appcases[];
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/* eof */
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#define EOF_ITAG 7
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#define mkeof() mkimm(-1, EOF_ITAG)
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#define iseof(o) ((o) == mkimm(-1, EOF_ITAG))
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/* input ports */
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typedef struct { /* extends cxtype_t */
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const char *tname;
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void (*free)(void*);
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int (*close)(void*);
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int (*getch)(void*);
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int (*ungetch)(int, void*);
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} cxtype_iport_t;
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extern cxtype_t *IPORT_CLOSED_NTAG;
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|
extern cxtype_t *IPORT_FILE_NTAG;
|
||
|
extern cxtype_t *IPORT_STRING_NTAG;
|
||
|
extern cxtype_t *IPORT_BYTEVECTOR_NTAG;
|
||
|
static cxtype_iport_t *iportvt(obj o) {
|
||
|
cxtype_t *pt; if (!isobjptr(o)) return NULL;
|
||
|
pt = (cxtype_t*)objptr_from_obj(o)[-1];
|
||
|
if (pt != IPORT_CLOSED_NTAG && pt != IPORT_FILE_NTAG &&
|
||
|
pt != IPORT_STRING_NTAG && pt != IPORT_BYTEVECTOR_NTAG) return NULL;
|
||
|
else return (cxtype_iport_t*)pt; }
|
||
|
#define ckiportvt(o) ((cxtype_iport_t*)cxm_cknull(iportvt(o), "iportvt"))
|
||
|
#define isiport(o) (iportvt(o) != NULL)
|
||
|
#define iportdata(o) ((void*)(*objptr_from_obj(o)))
|
||
|
static int iportgetc(obj o) {
|
||
|
cxtype_iport_t *vt = iportvt(o); void *pp = iportdata(o);
|
||
|
assert(vt); return vt->getch(pp);
|
||
|
}
|
||
|
static int iportpeekc(obj o) {
|
||
|
cxtype_iport_t *vt = iportvt(o); void *pp = iportdata(o); int c;
|
||
|
assert(vt); c = vt->getch(pp); if (c != EOF) vt->ungetch(c, pp); return c;
|
||
|
}
|
||
|
/* closed input ports */
|
||
|
#define mkiport_file(l, fp) hpushptr(fp, IPORT_FILE_NTAG, l)
|
||
|
/* string input ports */
|
||
|
typedef struct { char *p; void *base; } sifile_t;
|
||
|
extern sifile_t *sialloc(char *p, void *base);
|
||
|
#define mkiport_string(l, fp) hpushptr(fp, IPORT_STRING_NTAG, l)
|
||
|
/* bytevector input ports */
|
||
|
typedef struct { unsigned char *p, *e; void *base; } bvifile_t;
|
||
|
extern bvifile_t *bvialloc(unsigned char *p, unsigned char *e, void *base);
|
||
|
#define mkiport_bytevector(l, fp) hpushptr(fp, IPORT_BYTEVECTOR_NTAG, l)
|
||
|
/* output ports */
|
||
|
typedef struct { /* extends cxtype_t */
|
||
|
const char *tname;
|
||
|
void (*free)(void*);
|
||
|
int (*close)(void*);
|
||
|
int (*putch)(int, void*);
|
||
|
int (*flush)(void*);
|
||
|
} cxtype_oport_t;
|
||
|
extern cxtype_t *OPORT_CLOSED_NTAG;
|
||
|
extern cxtype_t *OPORT_FILE_NTAG;
|
||
|
extern cxtype_t *OPORT_STRING_NTAG;
|
||
|
extern cxtype_t *OPORT_BYTEVECTOR_NTAG;
|
||
|
static cxtype_oport_t *oportvt(obj o) {
|
||
|
cxtype_t *pt; if (!isobjptr(o)) return NULL;
|
||
|
pt = (cxtype_t*)objptr_from_obj(o)[-1];
|
||
|
if (pt != OPORT_CLOSED_NTAG && pt != OPORT_FILE_NTAG &&
|
||
|
pt != OPORT_STRING_NTAG && pt != OPORT_BYTEVECTOR_NTAG) return NULL;
|
||
|
else return (cxtype_oport_t*)pt; }
|
||
|
#define ckoportvt(o) ((cxtype_oport_t*)cxm_cknull(oportvt(o), "oportvt"))
|
||
|
#define isoport(o) (oportvt(o) != NULL)
|
||
|
#define oportdata(o) ((void*)(*objptr_from_obj(o)))
|
||
|
static void oportputc(int c, obj o) {
|
||
|
cxtype_oport_t *vt = oportvt(o); void *pp = oportdata(o);
|
||
|
assert(vt); vt->putch(c, pp);
|
||
|
}
|
||
|
static void oportputs(char *s, obj o) {
|
||
|
cxtype_oport_t *vt = oportvt(o); void *pp = oportdata(o);
|
||
|
assert(vt); while (*s) vt->putch(*s++, pp);
|
||
|
}
|
||
|
static void oportwrite(char *s, int n, obj o) {
|
||
|
cxtype_oport_t *vt = oportvt(o); void *pp = oportdata(o);
|
||
|
assert(vt); while (n-- > 0) vt->putch(*s++, pp);
|
||
|
}
|
||
|
static void oportflush(obj o) {
|
||
|
cxtype_oport_t *vt = oportvt(o); void *pp = oportdata(o);
|
||
|
assert(vt); vt->flush(pp);
|
||
|
}
|
||
|
/* closed output ports */
|
||
|
#define mkoport_file(l, fp) hpushptr(fp, OPORT_FILE_NTAG, l)
|
||
|
/* string output ports */
|
||
|
typedef struct cbuf_tag { char *buf; char *fill; char *end; } cbuf_t;
|
||
|
extern cbuf_t* newcb(void);
|
||
|
extern void freecb(cbuf_t* pcb);
|
||
|
extern int cbputc(int c, cbuf_t* pcb);
|
||
|
extern size_t cblen(cbuf_t* pcb);
|
||
|
extern char* cbdata(cbuf_t* pcb);
|
||
|
#define mkoport_string(l, fp) hpushptr(fp, OPORT_STRING_NTAG, l)
|
||
|
/* bytevector output ports */
|
||
|
#define mkoport_bytevector(l, fp) hpushptr(fp, OPORT_BYTEVECTOR_NTAG, l)
|
||
|
extern int iscircular(obj x);
|
||
|
extern int iseqv(obj x, obj y);
|
||
|
extern obj ismemv(obj x, obj l);
|
||
|
extern obj isassv(obj x, obj l);
|
||
|
extern int isequal(obj x, obj y);
|
||
|
extern obj ismember(obj x, obj l);
|
||
|
extern obj isassoc(obj x, obj l);
|
||
|
/* S-expression writers */
|
||
|
extern void oportputsimple(obj x, obj p, int disp);
|
||
|
extern void oportputcircular(obj x, obj p, int disp);
|
||
|
extern void oportputshared(obj x, obj p, int disp);
|