ref: e7ec1e13f5e1814f647bcbc18e73eb6be5ce4f16
dir: /flisp.h/
#pragma once
#include "platform.h"
#ifndef __plan9__
#include "mp.h"
#include "utf.h"
#endif
#include "utf8.h"
#include "ios.h"
#include "tbl.h"
#include "bitvector.h"
#include "htableh.inc"
HTPROT(ptrhash)
typedef struct fltype_t fltype_t;
enum {
TAG_NUM,
TAG_CPRIM,
TAG_FUNCTION,
TAG_VECTOR,
TAG_NUM1,
TAG_CVALUE,
TAG_SYM,
TAG_CONS,
};
enum {
FLAG_CONST = 1<<0,
FLAG_KEYWORD = 1<<1,
};
typedef enum {
T_INT8, T_UINT8,
T_INT16, T_UINT16,
T_INT32, T_UINT32,
T_INT64, T_UINT64,
T_MPINT,
T_FLOAT,
T_DOUBLE,
}numerictype_t;
typedef uintptr_t value_t;
#ifdef BITS64
typedef int64_t fixnum_t;
#define FIXNUM_BITS 62
#define TOP_BIT (1ULL<<63)
#define T_FIXNUM T_INT64
#define PRIdFIXNUM PRId64
#else
typedef int32_t fixnum_t;
#define FIXNUM_BITS 30
#define TOP_BIT (1U<<31)
#define T_FIXNUM T_INT32
#define PRIdFIXNUM PRId32
#endif
#define ALIGNED(x, sz) (((x) + (sz-1)) & (-sz))
typedef struct {
value_t car;
value_t cdr;
}cons_t;
// NOTE: symbol_t MUST have the same fields as gensym_t first
// there are places where gensyms are treated as normal symbols
typedef struct {
fltype_t *type;
value_t binding; // global value binding
uint32_t hash;
uint8_t numtype;
uint8_t size;
uint8_t flags;
uint8_t _dummy;
const char *name;
}symbol_t;
typedef struct {
fltype_t *type;
value_t binding; // global value binding
uint32_t id;
}gensym_t;
typedef struct Builtin Builtin;
struct Builtin {
const char *name;
int nargs;
};
typedef value_t (*builtin_t)(value_t*, uint32_t);
#define fits_bits(x, b) (((x)>>(b-1)) == 0 || (~((x)>>(b-1))) == 0)
#define fits_fixnum(x) fits_bits(x, FIXNUM_BITS)
#define ANYARGS -10000
#define NONNUMERIC (0xff)
#define valid_numtype(v) ((v) <= T_DOUBLE)
#define UNBOUND ((value_t)0x1) // an invalid value
#define TAG_FWD UNBOUND
#define tag(x) ((x) & 0x7)
#define ptr(x) ((void*)((x) & (~(value_t)0x7)))
#define tagptr(p, t) ((value_t)(p) | (t))
#define fixnum(x) ((value_t)(x)<<2)
#define numval(x) ((fixnum_t)(x)>>2)
#define uintval(x) (((unsigned int)(x))>>3)
#define builtin(n) tagptr(((int)n<<3), TAG_FUNCTION)
#define iscons(x) (tag(x) == TAG_CONS)
#define issymbol(x) (tag(x) == TAG_SYM)
#define isfixnum(x) (((x)&3) == TAG_NUM)
#define bothfixnums(x, y) ((((x)|(y)) & 3) == TAG_NUM)
#define isvector(x) (tag(x) == TAG_VECTOR)
#define iscvalue(x) (tag(x) == TAG_CVALUE)
#define iscprim(x) (tag(x) == TAG_CPRIM)
// doesn't lead to other values
#define leafp(a) (((a)&3) != 3)
// allocate n consecutive conses
#define cons_reserve(n) tagptr(alloc_words((n)*2), TAG_CONS)
#define cons_index(c) (((cons_t*)ptr(c))-((cons_t*)FL(fromspace)))
#define ismarked(c) bitvector_get(FL(consflags), cons_index(c))
#define mark_cons(c) bitvector_set(FL(consflags), cons_index(c))
#define unmark_cons(c) bitvector_reset(FL(consflags), cons_index(c))
#define isforwarded(v) (((value_t*)ptr(v))[0] == TAG_FWD)
#define forwardloc(v) (((value_t*)ptr(v))[1])
#define forward(v, to) \
do{ \
(((value_t*)ptr(v))[0] = TAG_FWD); \
(((value_t*)ptr(v))[1] = to); \
}while (0)
#define vector_size(v) (((size_t*)ptr(v))[0]>>2)
#define vector_setsize(v, n) (((size_t*)ptr(v))[0] = ((n)<<2))
#define vector_elt(v, i) (((value_t*)ptr(v))[1+(i)])
#define vector_grow_amt(x) ((x)<8 ? 5 : 6*((x)>>3))
// functions ending in _ are unsafe, faster versions
#define car_(v) (((cons_t*)ptr(v))->car)
#define cdr_(v) (((cons_t*)ptr(v))->cdr)
#define car(v) (tocons((v))->car)
#define cdr(v) (tocons((v))->cdr)
#define fn_bcode(f) (((value_t*)ptr(f))[0])
#define fn_vals(f) (((value_t*)ptr(f))[1])
#define fn_env(f) (((value_t*)ptr(f))[2])
#define fn_name(f) (((value_t*)ptr(f))[3])
#define set(s, v) (((symbol_t*)ptr(s))->binding = (v))
#define setc(s, v) \
do{ \
((symbol_t*)ptr(s))->flags |= FLAG_CONST; \
((symbol_t*)ptr(s))->binding = (v); \
}while (0)
#define isconstant(s) ((s)->flags & FLAG_CONST)
#define iskeyword(s) ((s)->flags & FLAG_KEYWORD)
#define symbol_value(s) (((symbol_t*)ptr(s))->binding)
#define sym_to_numtype(s) (((symbol_t*)ptr(s))->numtype)
#define ismanaged(v) ((((uint8_t*)ptr(v)) >= FL(fromspace)) && (((uint8_t*)ptr(v)) < FL(fromspace)+FL(heapsize)))
#define isgensym(x) (issymbol(x) && ismanaged(x))
#define isfunction(x) (tag(x) == TAG_FUNCTION && (x) > (N_BUILTINS<<3))
#define isclosure(x) isfunction(x)
#define iscbuiltin(x) (iscvalue(x) && cv_class(ptr(x)) == FL(builtintype))
// utility for iterating over all arguments in a builtin
// i=index, i0=start index, arg = var for each arg, args = arg array
// assumes "nargs" is the argument count
#define FOR_ARGS(i, i0, arg, args) for(i=i0; i<nargs && ((arg=args[i]) || 1); i++)
#define N_BUILTINS ((int)N_OPCODES)
#define PUSH(v) \
do{ \
FL(stack)[FL(sp)++] = (v); \
}while(0)
#define POPN(n) \
do{ \
FL(sp) -= (n); \
}while(0)
#define POP() (FL(stack)[--FL(sp)])
bool isbuiltin(value_t x);
int fl_init(size_t initial_heapsize);
int fl_load_system_image(value_t ios);
_Noreturn void fl_exit(int status);
/* collector */
value_t relocate(value_t v);
void gc(int mustgrow);
void fl_gc_handle(value_t *pv);
void fl_free_gc_handles(uint32_t n);
/* symbol table */
value_t gensym(void);
value_t symbol(const char *str, bool copy);
const char *symbol_name(value_t v);
/* read, eval, print main entry points */
value_t fl_toplevel_eval(value_t expr);
value_t fl_apply(value_t f, value_t l);
value_t fl_applyn(uint32_t n, value_t f, ...);
/* object model manipulation */
value_t fl_cons(value_t a, value_t b);
value_t fl_list2(value_t a, value_t b);
value_t fl_listn(size_t n, ...);
bool fl_is_keyword_name(const char *str, size_t len);
bool fl_isnumber(value_t v);
value_t alloc_vector(size_t n, int init);
/* safe casts */
cons_t *tocons(value_t v);
symbol_t *tosymbol(value_t v);
fixnum_t tofixnum(value_t v);
char *tostring(value_t v);
double todouble(value_t a);
/* conses */
value_t mk_cons(void);
void *alloc_words(uint32_t n);
char *uint2str(char *dest, size_t len, uint64_t num, uint32_t base);
/* error handling */
typedef struct _fl_readstate_t {
htable_t backrefs;
htable_t gensyms;
value_t source;
struct _fl_readstate_t *prev;
}fl_readstate_t;
typedef struct _ectx_t {
fl_readstate_t *rdst;
struct _ectx_t *prev;
jmp_buf buf;
uint32_t sp;
uint32_t frame;
uint32_t ngchnd;
}fl_exception_context_t;
void free_readstate(fl_readstate_t *rs);
#define FL_TRY_EXTERN \
fl_exception_context_t _ctx; int l__tr, l__ca; \
fl_savestate(&_ctx); FL(exctx) = &_ctx; \
if(!setjmp(_ctx.buf)) \
for(l__tr=1; l__tr; l__tr=0, (void)(FL(exctx) = FL(exctx)->prev))
#define FL_CATCH_EXTERN_NO_RESTORE \
else \
for(l__ca=1; l__ca;)
#define FL_CATCH_EXTERN \
else \
for(l__ca=1; l__ca; l__ca=0, fl_restorestate(&_ctx))
_Noreturn void lerrorf(value_t e, const char *format, ...) __printfmt(2, 3);
void fl_savestate(fl_exception_context_t *_ctx);
void fl_restorestate(fl_exception_context_t *_ctx);
_Noreturn void fl_raise(value_t e);
_Noreturn void type_error(const char *expected, value_t got);
_Noreturn void bounds_error(value_t arr, value_t ind);
_Noreturn void unbound_error(value_t sym);
#define argcount(nargs, c) \
do{ \
if(__unlikely(nargs != c)) \
lerrorf(FL_ArgError, "arity mismatch: wanted %"PRIu32", got %"PRIu32, (uint32_t)c, nargs); \
}while(0)
typedef struct {
void (*print)(value_t self, ios_t *f);
void (*relocate)(value_t oldv, value_t newv);
void (*finalize)(value_t self);
void (*print_traverse)(value_t self);
} cvtable_t;
typedef int (*cvinitfunc_t)(fltype_t*, value_t, void*);
struct fltype_t {
value_t type;
cvtable_t *vtable;
fltype_t *eltype; // for arrays
fltype_t *artype; // (array this)
cvinitfunc_t init;
size_t size;
size_t elsz;
numerictype_t numtype;
};
typedef struct {
fltype_t *type;
void *data;
size_t len; // length of *data in bytes
union {
value_t parent; // optional
uint8_t _space[1]; // variable size
};
}cvalue_t;
typedef struct {
fltype_t *type;
uint8_t _space[];
}cprim_t;
typedef struct {
value_t bcode;
value_t vals;
value_t env;
value_t name;
}function_t;
#define CPRIM_NWORDS 2
#define cv_class(cv) ((fltype_t*)(((uintptr_t)((cvalue_t*)cv)->type)&~(uintptr_t)3))
#define cv_len(cv) (((cvalue_t*)(cv))->len)
#define cv_type(cv) (cv_class(cv)->type)
#define cv_data(cv) (((cvalue_t*)(cv))->data)
#define cv_isstr(cv) (cv_class(cv)->eltype == FL(bytetype))
#define cv_isPOD(cv) (cv_class(cv)->init != nil)
#define cvalue_data(v) cv_data((cvalue_t*)ptr(v))
#define cvalue_len(v) cv_len((cvalue_t*)ptr(v))
#define value2c(type, v) ((type)cvalue_data(v))
#define cp_class(cp) (((cprim_t*)(cp))->type)
#define cp_type(cp) (cp_class(cp)->type)
#define cp_numtype(cp) (cp_class(cp)->numtype)
#define cp_data(cp) (&((cprim_t*)(cp))->_space[0])
// WARNING: multiple evaluation!
#define cptr(v) (iscprim(v) ? cp_data(ptr(v)) : cvalue_data(v))
#define BUILTIN(lname, cname) \
value_t fn_builtin_##cname(value_t *args, uint32_t nargs)
#define BUILTIN_FN(l, c) extern BUILTIN(l, c);
#include "builtin_fns.h"
#undef BUILTIN_FN
#include "opcodes.h"
enum {
FL_nil = builtin(OP_LOADNIL),
FL_t = builtin(OP_LOADT),
FL_f = builtin(OP_LOADF),
FL_void = builtin(OP_LOADVOID),
FL_eof = builtin(OP_EOF_OBJECT),
};
#define N_GC_HANDLES 1024
typedef struct Fl Fl;
struct Fl {
value_t *stack;
uint32_t sp;
uint32_t heapsize;//bytes
uint8_t *fromspace;
uint32_t curr_frame;
uint32_t nstack;
uint8_t *tospace;
uint8_t *curheap;
uint8_t *lim;
size_t malloc_pressure;
cvalue_t **finalizers;
size_t nfinalizers;
size_t maxfinalizers;
fl_readstate_t *readstate;
Tbl *symtab;
// saved execution state for an unwind target
fl_exception_context_t *exctx;
uint32_t throwing_frame; // active frame when exception was thrown
value_t lasterror;
fltype_t *tabletype;
fltype_t *iostreamtype;
value_t the_empty_vector;
value_t the_empty_string;
value_t memory_exception_value;
fltype_t *mpinttype;
fltype_t *int8type, *uint8type;
fltype_t *int16type, *uint16type;
fltype_t *int32type, *uint32type;
fltype_t *int64type, *uint64type;
fltype_t *longtype, *ulongtype;
fltype_t *floattype, *doubletype;
fltype_t *bytetype, *runetype;
fltype_t *stringtype, *runestringtype;
fltype_t *builtintype;
uint32_t gensym_ctr;
// two static buffers for gensym printing so there can be two
// gensym names available at a time, mostly for compare()
char gsname[2][16];
int gsnameno;
bool exiting;
bool grew;
uint32_t *consflags;
size_t gccalls;
htable_t printconses;
uint32_t printlabel;
int print_pretty;
int print_princ;
fixnum_t print_length;
fixnum_t print_level;
fixnum_t p_level;
int scr_width;
int hpos, vpos;
htable_t reverse_dlsym_lookup_table;
htable_t TypeTable;
uint32_t ngchandles;
value_t *gchandles[N_GC_HANDLES];
};
extern
#if defined(NDEBUG)
__thread
#endif
Fl *fl;
#define FL(f) fl->f
extern value_t FL_builtins_table_sym, FL_quote, FL_lambda, FL_function, FL_comma, FL_commaat;
extern value_t FL_commadot, FL_trycatch, FL_backquote;
extern value_t FL_conssym, FL_symbolsym, FL_fixnumsym, FL_vectorsym, FL_builtinsym, FL_vu8sym;
extern value_t FL_definesym, FL_defmacrosym, FL_forsym, FL_setqsym;
extern value_t FL_tsym, FL_Tsym, FL_fsym, FL_Fsym, FL_booleansym, FL_nullsym, FL_evalsym, FL_fnsym;
extern value_t FL_nulsym, FL_alarmsym, FL_backspacesym, FL_tabsym, FL_linefeedsym, FL_newlinesym;
extern value_t FL_vtabsym, FL_pagesym, FL_returnsym, FL_escsym, FL_spacesym, FL_deletesym;
extern value_t FL_IOError, FL_ParseError, FL_TypeError, FL_ArgError, FL_MemoryError;
extern value_t FL_DivideError, FL_BoundsError, FL_Error, FL_KeyError, FL_EnumerationError;
extern value_t FL_UnboundError;
extern value_t FL_sizesym, FL_tosym;
extern value_t FL_fsosym;
extern value_t FL_printwidthsym, FL_printreadablysym, FL_printprettysym, FL_printlengthsym;
extern value_t FL_printlevelsym;
extern value_t FL_tablesym, FL_arraysym;
extern value_t FL_iostreamsym, FL_rdsym, FL_wrsym, FL_apsym, FL_crsym, FL_truncsym;
extern value_t FL_instrsym, FL_outstrsym;
extern value_t FL_int8sym, FL_uint8sym, FL_int16sym, FL_uint16sym, FL_int32sym, FL_uint32sym;
extern value_t FL_int64sym, FL_uint64sym, FL_bignumsym;
extern value_t FL_bytesym, FL_runesym, FL_floatsym, FL_doublesym;
extern value_t FL_stringtypesym, FL_runestringtypesym;
extern double D_PNAN, D_NNAN, D_PINF, D_NINF;
_Noreturn void flmain(const uint8_t *boot, int bootsz, int argc, char **argv);