ref: b9c77aa29efeaf571081058b563239900bbda01a
dir: /flisp.h/
#ifndef FLISP_H #define FLISP_H /* functions needed to implement the value interface (cvtable_t) */ 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; #define NONNUMERIC (0xff) #define valid_numtype(v) ((v) <= T_DOUBLE) typedef uintptr_t value_t; typedef lltint_t fixnum_t; #ifdef BITS64 #define T_FIXNUM T_INT64 #define fits_fixnum(x) (((x)>>61) == 0 || (~((x)>>61)) == 0) #define mk_xlong mk_int64 #else #define T_FIXNUM T_INT32 #define fits_fixnum(x) (((x)>>29) == 0 || (~((x)>>29)) == 0) #define mk_xlong mk_long #endif typedef struct { value_t car; value_t cdr; }cons_t; typedef struct _symbol_t { value_t binding; // global value binding uint32_t hash; uint8_t numtype; uint8_t size; uint8_t align; uint8_t flags; struct _fltype_t *type; void *dlcache; // dlsym address // below fields are private struct _symbol_t *left; struct _symbol_t *right; union { char name[1]; void *_pad; // ensure field aligned to pointer size }; }symbol_t; typedef struct { value_t isconst; value_t binding; // global value binding struct _fltype_t *type; uint32_t id; }gensym_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, }; #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)((fixnum_t)(x))<<2) #define numval(x) (((fixnum_t)(x))>>2) #define fits_bits(x, b) (((x)>>(b-1)) == 0 || (~((x)>>(b-1))) == 0) #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) int isbuiltin(value_t x); #define isvector(x) (tag(x) == TAG_VECTOR) #define iscvalue(x) (tag(x) == TAG_CVALUE) #define iscprim(x) (tag(x) == TAG_CPRIM) #define selfevaluating(x) (tag(x) < 6) // comparable with == #define eq_comparable(a, b) (!(((a)|(b))&1)) #define eq_comparablep(a) (!((a)&1)) // doesn't lead to other values #define leafp(a) (((a)&3) != 3) #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)) >= fromspace) && (((uint8_t*)ptr(v)) < fromspace+heapsize)) #define isgensym(x) (issymbol(x) && ismanaged(x)) value_t gensym(void); #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)) == 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) extern value_t printprettysym, printreadablysym, printwidthsym, printlengthsym; extern value_t printlevelsym, builtins_table_sym; extern value_t QUOTE; extern value_t FL_NIL, FL_T, FL_F, FL_EOF; #define FL_UNSPECIFIED FL_T int num_to_ptr(value_t a, fixnum_t *pi, numerictype_t *pt, void **pp); void fl_gc_handle(value_t *pv); void fl_free_gc_handles(uint32_t n); int fl_isnumber(value_t v); void fl_init(size_t initial_heapsize); int fl_load_system_image(value_t ios); /* 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, ...); value_t symbol(char *str); char *symbol_name(value_t v); int fl_is_keyword_name(char *str, size_t len); 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); /* 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 { jmp_buf buf; uint32_t sp; uint32_t frame; uint32_t ngchnd; fl_readstate_t *rdst; struct _ectx_t *prev; }fl_exception_context_t; extern fl_exception_context_t *fl_ctx; extern uint32_t fl_throwing_frame; extern value_t fl_lasterror; #define FL_TRY_EXTERN \ fl_exception_context_t _ctx; int l__tr, l__ca; \ fl_savestate(&_ctx); fl_ctx = &_ctx; \ if(!setjmp(_ctx.buf)) \ for(l__tr=1; l__tr; l__tr=0, (void)(fl_ctx = fl_ctx->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, char *format, ...); 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(char *expected, value_t got); _Noreturn void bounds_error(value_t arr, value_t ind); _Noreturn void unbound_error(value_t sym); extern value_t ArgError, IOError, KeyError, MemoryError, EnumerationError; #define argcount(nargs, c) \ do{ \ if(__unlikely(nargs != c)) \ lerrorf(ArgError, "arity mismatch: wanted %d, got %d", 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; value_t relocate_lispvalue(value_t v); typedef int (*cvinitfunc_t)(struct _fltype_t*, value_t, void*); typedef struct _fltype_t { value_t type; cvtable_t *vtable; struct _fltype_t *eltype; // for arrays struct _fltype_t *artype; // (array this) cvinitfunc_t init; size_t size; size_t elsz; int marked; numerictype_t numtype; }fltype_t; typedef struct { fltype_t *type; void *data; size_t len; // length of *data in bytes union { value_t parent; // optional char _space[1]; // variable size }; }cvalue_t; #define CVALUE_NWORDS 4 typedef struct { fltype_t *type; char _space[1]; }cprim_t; typedef struct { value_t bcode; value_t vals; value_t env; value_t name; }function_t; #define CPRIM_NWORDS 2 #define MAX_INL_SIZE 384 #define CV_OWNED_BIT 0x1 #define CV_PARENT_BIT 0x2 #define owned(cv) ((uintptr_t)(cv)->type & CV_OWNED_BIT) #define hasparent(cv) ((uintptr_t)(cv)->type & CV_PARENT_BIT) #define isinlined(cv) ((cv)->data == &(cv)->_space[0]) #define cv_class(cv) ((fltype_t*)(((uintptr_t)((cvalue_t*)cv)->type)&~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 == 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)cv_data((cvalue_t*)ptr(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)) : cv_data(ptr(v))) #define BUILTIN(lname, cname) \ value_t fn_builtin_##cname(value_t *args, int nargs) typedef value_t (*builtin_t)(value_t*, int); typedef struct { char *name; builtin_t fptr; }builtinspec_t; //-------------------------------------------------- // Nothing changed here...just grouping by file. //-------------------------------------------------- //--------------------------------------------------read.c value_t fl_read_sexpr(value_t f); int isnumtok_base(char *tok, value_t *pval, int base); //--------------------------------------------------read.c //--------------------------------------------------builtins.c size_t llength(value_t v); //--------------------------------------------------builtins.c //--------------------------------------------------equal.c value_t fl_compare(value_t a, value_t b); // -1, 0, or 1 value_t fl_equal(value_t a, value_t b); // T or nil int equal_lispvalue(value_t a, value_t b); uintptr_t hash_lispvalue(value_t a); //--------------------------------------------------equal.c //--------------------------------------------------iostream.c int fl_isiostream(value_t v); ios_t *fl_toiostream(value_t v); //--------------------------------------------------iostream.c //-------------------------------------------------------------------------------- // New declarations here.. needed to permit files splitting // (and grouped by files). //-------------------------------------------------------------------------------- extern value_t *Stack; extern uint32_t SP; extern uint32_t N_STACK; extern uint32_t curr_frame; extern char *curr_fname; #define PUSH(v) \ do{ \ Stack[SP++] = (v); \ }while(0) #define POP() (Stack[--SP]) #define POPN(n) \ do{ \ SP -= (n); \ }while(0) extern value_t NIL, LAMBDA, IF, TRYCATCH; extern value_t BACKQUOTE, COMMA, COMMAAT, COMMADOT, FUNCTION; extern value_t pairsym, symbolsym, fixnumsym, vectorsym, builtinsym, vu8sym; extern value_t definesym, defmacrosym, forsym, setqsym; extern value_t tsym, Tsym, fsym, Fsym, booleansym, nullsym, evalsym, fnsym; extern value_t nulsym, alarmsym, backspacesym, tabsym, linefeedsym, newlinesym; extern value_t vtabsym, pagesym, returnsym, escsym, spacesym, deletesym; void *alloc_words(int n); value_t relocate(value_t v); extern fl_readstate_t *readstate; void free_readstate(fl_readstate_t *rs); extern uint8_t *fromspace; extern uint32_t heapsize;//bytes extern uint8_t *tospace; extern uint8_t *curheap; extern uint8_t *lim; extern uint32_t *consflags; void gc(int mustgrow); extern value_t IOError, ParseError, TypeError, ArgError, MemoryError; extern value_t DivideError, BoundsError, Error, KeyError, EnumerationError; // 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*)fromspace)) #define ismarked(c) bitvector_get(consflags, cons_index(c)) #define mark_cons(c) bitvector_set(consflags, cons_index(c), 1) #define unmark_cons(c) bitvector_set(consflags, cons_index(c), 0) typedef struct Builtin Builtin; struct Builtin { char *name; int nargs; }; #define ANYARGS -10000 extern value_t the_empty_vector; value_t mk_cons(void); #define BUILTIN_FN(l, c) extern BUILTIN(l, c); #include "builtin_fns.h" #undef BUILTIN_FN //--------------------------------------------------read.c int isnumtok(char *tok, value_t *pval); // defines which characters are ordinary symbol characters. // exceptions are '.', which is an ordinary symbol character // unless it's the only character in the symbol, and '#', which is // an ordinary symbol character unless it's the first character. inline int symchar(char c) { //static char *special = "()[]'\";`,\\| \a\b\f\n\r\t\v"; char *special = "()[]'\";`,\\| \a\b\f\n\r\t\v"; return !strchr(special, c); } //--------------------------------------------------read.c //--------------------------------------------------equal.c value_t compare_(value_t a, value_t b, int eq); //--------------------------------------------------equal.c #endif