/* Copyright 2009-2024 * Kaz Kylheku * Vancouver, Canada * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include "mpi/mpi.h" typedef int_ptr_t cnum; typedef uint_ptr_t ucnum; #if HAVE_DOUBLE_INTPTR_T typedef double_intptr_t dbl_cnum; typedef double_uintptr_t dbl_ucnum; #endif #ifdef __cplusplus #define strip_qual(TYPE, EXPR) (const_cast(EXPR)) #define convert(TYPE, EXPR) (static_cast(EXPR)) #define coerce(TYPE, EXPR) (reinterpret_cast(EXPR)) #else #define strip_qual(TYPE, EXPR) ((TYPE) (EXPR)) #define convert(TYPE, EXPR) ((TYPE) (EXPR)) #define coerce(TYPE, EXPR) ((TYPE) (EXPR)) #endif #define container(PTR, TYPE, MEMB) \ coerce(TYPE *, \ coerce(mem_t *, (PTR)) - offsetof(TYPE, MEMB)) #if __STDC_VERSION__ >= 199901L #define FLEX_ARRAY #else #define FLEX_ARRAY 1 #endif #define PTR_BIT (SIZEOF_PTR * CHAR_BIT) #define TAG_PTR 0 #define TAG_NUM 1 #define TAG_CHR 2 #define TAG_LIT 3 #if CONFIG_NAN_BOXING #define TAG_FLNUM 4 /* pseudo-tag */ #define TAG_WIDTH 2 #define TAG_PAIR(A, B) ((A) << TAG_WIDTH | (B)) #define NAN_TAG_BIT 14 #define NAN_TAG_MASK 0xFFFC000000000000U #define TAG_BIGMASK 0xFFFF000000000000U #define TAG_BIGSHIFT 48 #define NAN_FLNUM_DELTA 0x0004000000000000U #define NUM_MAX (INT_PTR_MAX >> NAN_TAG_BIT) #define NUM_MIN (INT_PTR_MIN >> NAN_TAG_BIT) #define NUM_BIT (PTR_BIT - NAN_TAG_BIT) #else #define TAG_SHIFT 2 #define TAG_MASK ((convert(cnum, 1) << TAG_SHIFT) - 1) #define TAG_PAIR(A, B) ((A) << TAG_SHIFT | (B)) #define NUM_MAX (INT_PTR_MAX >> TAG_SHIFT) #define NUM_MIN (INT_PTR_MIN >> TAG_SHIFT) #define NUM_BIT (PTR_BIT - TAG_SHIFT) #endif #ifdef __GNUC__ #define NORETURN __attribute__((noreturn)) #define NOINLINE __attribute__((noinline)) #define UNUSED __attribute__((unused)) #else #define NORETURN #define NOINLINE #define UNUSED #endif typedef enum type { NIL = TAG_PTR, NUM = TAG_NUM, CHR = TAG_CHR, LIT = TAG_LIT, FLNUM, CONS, STR, SYM, PKG, FUN, VEC, LCONS, LSTR, COBJ, CPTR, ENV, BGNUM, RNG, BUF, TNOD, DARG, MAXTYPE = DARG /* If extending, check TYPE_SHIFT and all ocurrences of MAX_TYPE */ } type_t; #define TYPE_SHIFT 5 #define TYPE_PAIR(A, B) ((A) << TYPE_SHIFT | (B)) typedef enum functype { FINTERP, /* Interpreted function. */ FVM, /* VM function. */ F0, F1, F2, F3, F4, /* Intrinsic functions with env. */ N0, N1, N2, N3, N4, N5, N6, N7, N8 /* No-env intrinsics. */ } functype_t; typedef union obj obj_t; typedef obj_t *val; #ifndef MEM_T_DEFINED typedef unsigned char mem_t; #define MEM_T_DEFINED #endif #if CONFIG_GEN_GC #define obj_common \ type_t type : PTR_BIT/2; \ unsigned fincount : PTR_BIT/4; \ int gen : PTR_BIT/4; #else #define obj_common \ type_t type #endif struct any { obj_common; mem_t *dummy[2]; val next; /* GC free list */ }; struct cons { obj_common; val car, cdr; }; struct cons_hash_entry { obj_common; val car, cdr; ucnum hash; }; struct string { obj_common; wchar_t *str; val len; #if !HAVE_MALLOC_USABLE_SIZE cnum alloc; #endif }; typedef struct { cnum id; cnum slot; } slot_cache_entry_t; typedef slot_cache_entry_t slot_cache_set_t[4]; struct sym { obj_common; val name; val package; slot_cache_set_t *slot_cache; }; struct package { obj_common; val name; val symhash; val hidhash; }; typedef struct args *varg; #define FIXPARAM_BITS 7 #define FIXPARAM_MAX ((1 << FIXPARAM_BITS) - 1) struct func { obj_common; unsigned fixparam : FIXPARAM_BITS; /* total non-variadic parameters */ unsigned optargs : FIXPARAM_BITS; /* fixparam - optargs = required args */ unsigned variadic : 1; unsigned : 1; unsigned functype : 16; val env; union { val interp_fun; val vm_desc; val (*f0)(val); val (*f1)(val, val); val (*f2)(val, val, val); val (*f3)(val, val, val, val); val (*f4)(val, val, val, val, val); val (*n0)(void); val (*n1)(val); val (*n2)(val, val); val (*n3)(val, val, val); val (*n4)(val, val, val, val); val (*n5)(val, val, val, val, val); val (*n6)(val, val, val, val, val, val); val (*n7)(val, val, val, val, val, val, val); val (*n8)(val, val, val, val, val, val, val, val); val (*f0v)(val, varg); val (*f1v)(val, val, varg); val (*f2v)(val, val, val, varg); val (*f3v)(val, val, val, val, varg); val (*f4v)(val, val, val, val, val, varg); val (*n0v)(varg); val (*n1v)(val, varg); val (*n2v)(val, val, varg); val (*n3v)(val, val, val, varg); val (*n4v)(val, val, val, val, varg); val (*n5v)(val, val, val, val, val, varg); val (*n6v)(val, val, val, val, val, val, varg); val (*n7v)(val, val, val, val, val, val, val, varg); val (*n8v)(val, val, val, val, val, val, val, val, varg); } f; }; enum vecindex { vec_alloc = -2, vec_length = -1 }; struct vec { obj_common; /* vec points two elements down */ /* vec[-2] is allocated size */ /* vec[-1] is fill pointer */ val *vec; #if HAVE_VALGRIND val *vec_true_start; #endif }; /* * Lazy cons. When initially constructed, acts as a promise. The car and cdr * cache pointers are nil, and func points to a function. The job of the * function is to force the promise: fill car and cdr, and then flip func to * nil. After that, the lazy cons resembles an ordinary cons. Of course, either * car or cdr can point to more lazy conses. */ struct lazy_cons { obj_common; val car, cdr; val func; /* when nil, car and cdr are valid */ }; /* * Lazy string: virtual string which dynamically grows as a catentation * of a list of strings. */ struct lazy_string_props { val term; val limit; }; struct lazy_string { obj_common; val prefix; /* actual string part */ val list; /* remaining list */ struct lazy_string_props *props; }; struct cobj_class { val cls_sym; struct cobj_class *super; }; struct cobj { obj_common; mem_t *handle; struct cobj_ops *ops; struct cobj_class *cls; }; struct cptr { obj_common; mem_t *handle; struct cobj_ops *ops; val cls; }; struct dyn_args { obj_common; val car; val cdr; varg args; }; struct strm_ctx; struct cobj_ops { val (*equal)(val self, val other); void (*print)(val self, val stream, val pretty, struct strm_ctx *); void (*destroy)(val self); void (*mark)(val self); ucnum (*hash)(val self, int *count, ucnum seed); val (*clone)(val self); val (*equalsub)(val self); }; #define cobj_ops_init(equal, print, destroy, mark, hash, clone) \ { equal, print, destroy, mark, hash, clone, 0 } #define cobj_ops_init_ex(equal, print, destroy, mark, hash, \ clone, equalsub) \ { equal, print, destroy, mark, hash, clone, equalsub } /* Default operations for above structure. * Default equal is eq */ void cobj_print_op(val, val, val, struct strm_ctx *); void cptr_print_op(val, val, val, struct strm_ctx *); val cobj_equal_handle_op(val left, val right); void cobj_destroy_stub_op(val); void cobj_destroy_free_op(val); void cobj_mark_op(val); ucnum cobj_eq_hash_op(val, int *, ucnum); ucnum cobj_handle_hash_op(val, int *, ucnum); struct env { obj_common; val vbindings; val fbindings; val up_env; }; struct bignum { obj_common; mp_int mp; }; #if !CONFIG_NAN_BOXING struct flonum { obj_common; double n; }; #endif struct range { obj_common; val from, to; }; struct buf { obj_common; mem_t *data; val len; val size; }; struct tnod { obj_common; val left, right; val key; }; union obj { struct any t; struct cons c; struct cons_hash_entry ch; struct string st; struct sym s; struct package pk; struct func f; struct vec v; struct lazy_cons lc; struct lazy_string ls; struct cobj co; struct cptr cp; struct env e; struct bignum bn; #if !CONFIG_NAN_BOXING struct flonum fl; #endif struct range rn; struct buf b; struct tnod tn; struct dyn_args a; }; #if CONFIG_GEN_GC typedef struct { val *ptr; val obj; } loc; val gc_set(loc, val); INLINE loc mkloc_fun(val *ptr, val obj) { loc l = { ptr, obj }; return l; } #define mkloc(expr, obj) mkloc_fun(&(expr), obj) #define mkcloc(expr) mkloc_fun(&(expr), 0) #define nulloc mkloc_fun(0, 0) #define nullocp(lo) (!(lo).ptr) #define deref(lo) (*(lo).ptr) #define valptr(lo) ((lo).ptr) #define set(lo, val) (gc_set(lo, val)) #define setcheck(tgt, src) (gc_assign_check(tgt, src)) #define mut(obj) (gc_mutated(obj)) #define mpush(val, lo) (gc_push(val, lo)) #else typedef val *loc; #define mkloc(expr, obj) ((void) (obj), &(expr)) #define mkcloc(expr) (&(expr)) #define nulloc ((loc) 0) #define nullocp(lo) (!(lo)) #define deref(lo) (*(lo)) #define valptr(lo) (lo) #define set(lo, val) (*(lo) = (val)) #define setcheck(tgt, src) ((void) (tgt)) #define mut(obj) ((void) (obj)) #define mpush(val, lo) (push(val, lo)) #endif typedef enum seq_kind { SEQ_NIL, SEQ_LISTLIKE, SEQ_VECLIKE, SEQ_HASHLIKE, SEQ_TREELIKE, SEQ_NOTSEQ } seq_kind_t; typedef struct seq_info { val obj; type_t type; seq_kind_t kind; } seq_info_t; typedef struct seq_iter { seq_info_t inf; union { val iter; cnum index; val vn; cnum cn; } ui; union { cnum len; val vbound; cnum cbound; val next; val dargs; } ul; struct seq_iter_ops *ops; } seq_iter_t; struct seq_iter_ops { int (*get)(struct seq_iter *, val *pval); int (*peek)(struct seq_iter *, val *pval); void (*mark)(struct seq_iter *); void (*clone)(const struct seq_iter *, struct seq_iter *); }; #define seq_iter_ops_init(get, peek) { get, peek, seq_iter_mark_op, 0 } #define seq_iter_ops_init_nomark(get, peek) { get, peek, 0, 0 } #define seq_iter_ops_init_mark(get, peek, mark) { get, peek, mark, 0 } #define seq_iter_ops_init_clone(get, peek, clone) \ { get, peek, seq_iter_mark_op, clone } #define seq_iter_ops_init_full(get, peek, mark, clone) \ { get, peek, mark, clone } typedef struct seq_build { val obj; loc tail; val self; union { val from_list_meth; val carray_type; } u; struct seq_build_ops *ops; } seq_build_t; struct seq_build_ops { void (*add)(struct seq_build *, val); void (*pend)(struct seq_build *, val); void (*nconc)(struct seq_build *, val); void (*finish)(struct seq_build *); void (*mark)(struct seq_build *); }; #define seq_build_ops_init(add, pend, nconc, finish, mark) \ { add, pend, nconc, finish, mark } extern const seq_kind_t seq_kind_tab[MAXTYPE+1]; #define SEQ_KIND_PAIR(A, B) ((A) << 3 | (B)) #if CONFIG_NAN_BOXING INLINE cnum tag(val obj) { ucnum word = coerce(ucnum, obj) >> TAG_BIGSHIFT; if (word <= TAG_LIT) return word; if ((word & (NAN_TAG_MASK >> TAG_BIGSHIFT)) == (NAN_TAG_MASK >> TAG_BIGSHIFT)) return TAG_NUM; return TAG_PTR; } INLINE cnum tag_ex(val obj) { ucnum word = coerce(ucnum, obj) >> TAG_BIGSHIFT; if (word <= TAG_LIT) return word; if ((word & (NAN_TAG_MASK >> TAG_BIGSHIFT)) == (NAN_TAG_MASK >> TAG_BIGSHIFT)) return TAG_NUM; return TAG_FLNUM; } INLINE int is_ptr(val obj) { return obj && coerce(ucnum, obj) >> TAG_BIGSHIFT == TAG_PTR; } INLINE int is_flo(val obj) { ucnum nantag = coerce(ucnum, obj) & NAN_TAG_MASK; return nantag != 0 && nantag != NAN_TAG_MASK; } #else INLINE cnum tag(val obj) { return coerce(cnum, obj) & TAG_MASK; } INLINE cnum tag_ex(val obj) { return tag(obj); } INLINE int is_ptr(val obj) { return obj && tag(obj) == TAG_PTR; } #endif INLINE int is_num(val obj) { return tag(obj) == TAG_NUM; } INLINE int is_chr(val obj) { return tag(obj) == TAG_CHR; } INLINE int is_lit(val obj) { return tag(obj) == TAG_LIT; } INLINE type_t type(val obj) { cnum tg = tag_ex(obj); return obj ? tg ? convert(type_t, tg) : obj->t.type : NIL; } typedef struct wli wchli_t; #if SIZEOF_WCHAR_T < 4 && !CONFIG_NAN_BOXING #define wli_noex(lit) (coerce(const wchli_t *,\ convert(const wchar_t *,\ L"\0" L ## lit L"\0" + 1))) #define wini(ini) L"\0" L ## ini L"\0" #define wref(arr) ((arr) + 1) #else #define wli_noex(lit) (coerce(const wchli_t *,\ convert(const wchar_t *,\ L ## lit))) #define wini(ini) L ## ini #define wref(arr) (arr) #endif #define wli(lit) wli_noex(lit) INLINE val auto_str(const wchli_t *str) { #if CONFIG_NAN_BOXING return coerce(val, coerce(cnum, str) | (coerce(cnum, TAG_LIT) << TAG_BIGSHIFT)); #else return coerce(val, coerce(cnum, str) | TAG_LIT); #endif } INLINE val static_str(const wchli_t *str) { #if CONFIG_NAN_BOXING return coerce(val, coerce(cnum, str) | (coerce(cnum, TAG_LIT) << TAG_BIGSHIFT)); #else return coerce(val, coerce(cnum, str) | TAG_LIT); #endif } INLINE wchar_t *litptr(val obj) { #if SIZEOF_WCHAR_T < 4 && !CONFIG_NAN_BOXING wchar_t *ret = coerce(wchar_t *, (coerce(cnum, obj) & ~TAG_MASK)); return (*ret == 0) ? ret + 1 : ret; #elif CONFIG_NAN_BOXING return coerce(wchar_t *, coerce(cnum, obj) & ~TAG_BIGMASK); #else return coerce(wchar_t *, coerce(cnum, obj) & ~TAG_MASK); #endif } INLINE val num_fast(cnum n) { #if CONFIG_NAN_BOXING return coerce(val, n | NAN_TAG_MASK); #elif HAVE_UBSAN return coerce(val, (n * (1 << TAG_SHIFT)) | TAG_NUM); #else return coerce(val, (n << TAG_SHIFT) | TAG_NUM); #endif } INLINE mp_int *mp(val bign) { return &bign->bn.mp; } INLINE val chr(wchar_t ch) { #if CONFIG_NAN_BOXING return coerce(val, ch | convert(cnum, TAG_CHR) << TAG_BIGSHIFT); #else return coerce(val, (convert(cnum, ch) << TAG_SHIFT) | TAG_CHR); #endif } INLINE cnum c_ch(val num) { #if CONFIG_NAN_BOXING return coerce(cnum, num) & ~TAG_BIGMASK; #else return coerce(cnum, num) >> TAG_SHIFT; #endif } INLINE cnum c_n(val num) { #if CONFIG_NAN_BOXING cnum n = coerce(cnum, num) & ~NAN_TAG_MASK; return n << NAN_TAG_BIT >> NAN_TAG_BIT; #else return coerce(cnum, num) >> TAG_SHIFT; #endif } INLINE ucnum c_u(val num) { #if CONFIG_NAN_BOXING return coerce(ucnum, num) & ~NAN_TAG_MASK; #else return convert(ucnum, coerce(cnum, num) >> TAG_SHIFT); #endif } #if CONFIG_NAN_BOXING && defined __GNUC__ #pragma GCC diagnostic ignored "-Wstrict-aliasing" #pragma GCC diagnostic ignored "-Wuninitialized" #endif INLINE double c_f(val num) { #if CONFIG_NAN_BOXING ucnum u = coerce(ucnum, num) - NAN_FLNUM_DELTA; return *coerce(double *, &u); #else return num->fl.n; #endif } #if CONFIG_NAN_BOXING && defined __GNUC__ #pragma GCC diagnostic warning "-Wstrict-aliasing" #pragma GCC diagnostic warning "-Wuninitialized" #endif #if SIZEOF_WCHAR_T < 4 && !CONFIG_NAN_BOXING #define lit_noex(strlit) coerce(obj_t *,\ coerce(cnum, L"\0" L ## strlit L"\0" + 1) | \ TAG_LIT) #elif CONFIG_NAN_BOXING #define lit_noex(strlit) coerce(val, coerce(cnum, L ## strlit) | \ (coerce(cnum, TAG_LIT) << TAG_BIGSHIFT)) #else #define lit_noex(strlit) coerce(val, coerce(cnum, L ## strlit) | TAG_LIT) #endif #define lit(strlit) lit_noex(strlit) #define cur_package (get_current_package()) #define cur_package_alist_loc (get_current_package_alist_loc()) extern val packages, system_package, keyword_package, user_package; extern val public_package, package_alist_s; extern val package_s, keyword_package_s, system_package_s, user_package_s; extern val null_s, t, cons_s, str_s, chr_s, fixnum_sl; extern val sym_s, pkg_s, fun_s, vec_s; extern val stream_s, hash_s, hash_iter_s, lcons_s, lstr_s, cobj_s, cptr_s; extern val atom_s, integer_s, number_s, sequence_s, string_s; extern val env_s, bignum_s, float_s, range_s, rcons_s, buf_s, tnode_s; extern val var_s, expr_s, regex_s, chset_s, set_s, cset_s, wild_s, oneplus_s; extern val nongreedy_s; extern val quote_s, qquote_s, unquote_s, splice_s; extern val sys_qquote_s, sys_unquote_s, sys_splice_s; extern val zeroplus_s, optional_s, compl_s, compound_s; extern val or_s, and_s, quasi_s, quasilist_s; extern val skip_s, trailer_s, block_s, next_s, freeform_s, fail_s, accept_s; extern val all_s, some_s, none_s, maybe_s, cases_s, collect_s, until_s, coll_s; extern val define_s, output_s, push_s, single_s, first_s, last_s, empty_s; extern val repeat_s, rep_s, flatten_s, forget_s; extern val local_s, merge_s, bind_s, rebind_s, cat_s; extern val try_s, catch_s, finally_s, throw_s, defex_s, deffilter_s; extern val eof_s, eol_s, assert_s, name_s; extern val error_s, type_error_s, internal_error_s, panic_s; extern val numeric_error_s, range_error_s; extern val query_error_s, file_error_s, process_error_s, syntax_error_s; extern val timeout_error_s, system_error_s, alloc_error_s, stack_overflow_s; extern val path_not_found_s, path_exists_s, path_permission_s; extern val warning_s, defr_warning_s, restart_s, continue_s; extern val gensym_counter_s, length_s, length_lt_s; extern val rplaca_s, rplacd_s, seq_iter_s; extern val lazy_streams_s; extern val plus_s; #define gensym_counter (deref(lookup_var_l(nil, gensym_counter_s))) extern val nothrow_k, args_k, colon_k, auto_k, fun_k; extern val null_string; extern val identity_f, identity_star_f; extern val equal_f, eql_f, eq_f, car_f, cdr_f, null_f; extern val list_f, less_f, greater_f, gt_f; extern val prog_string; extern char dec_point; #if HAVE_ULONGLONG_T typedef ulonglong_t alloc_bytes_t; #define SIZEOF_ALLOC_BYTES_T SIZEOF_LONGLONG_T #else typedef unsigned long alloc_bytes_t; #define SIZEOF_ALLOC_BYTES_T SIZEOF_LONG #endif extern alloc_bytes_t malloc_bytes; extern alloc_bytes_t gc_bytes; extern struct cobj_class *seq_iter_cls; extern struct cobj_ops seq_iter_cobj_ops; val identity(val obj); val built_in_type_p(val sym); val typeof(val obj); val subtypep(val sub, val sup); val typep(val obj, val type); seq_info_t seq_info(val cobj); void seq_iter_mark_op(struct seq_iter *it); void seq_iter_init_with_info(val self, seq_iter_t *it, seq_info_t si); void seq_iter_init(val self, seq_iter_t *it, val obj); INLINE int seq_get(seq_iter_t *it, val *pval) { return it->ops->get(it, pval); } INLINE int seq_peek(seq_iter_t *it, val *pval) { return it->ops->peek(it, pval); } val seq_geti(seq_iter_t *it); val seq_getpos(val self, seq_iter_t *it); void seq_setpos(val self, seq_iter_t *it, val pos); val seq_begin(val obj); val seq_next(val iter, val end_val); val seq_reset(val iter, val obj); val iter_begin(val obj); val iter_more(val iter); val iter_item(val iter); val iter_step(val iter); val iter_reset(val iter, val obj); val iter_catv(varg iters); val copy_iter(val iter); void seq_build_init(val self, seq_build_t *bu, val likeobj); void seq_build_strcat_init(seq_build_t *bu); void seq_add(seq_build_t *bu, val item); void seq_pend(seq_build_t *bu, val items); void seq_nconc(seq_build_t *bu, val items); val seq_finish(seq_build_t *bu); val seq_append2(val self, val seq0, val seq1); val seq_appendv(val self, varg seqs); val seq_nconc2(val self, val seq0, val seq1); val seq_nconcv(val self, varg seqs); NORETURN val throw_mismatch(val self, val obj, type_t); INLINE val type_check(val self, val obj, type_t typecode) { if (type(obj) != typecode) throw_mismatch(self, obj, typecode); return t; } val car(val cons); val cdr(val cons); INLINE val us_car(val cons) { return cons->c.car; } INLINE val us_cdr(val cons) { return cons->c.cdr; } INLINE val *us_car_p(val cons) { return &cons->c.car; } INLINE val *us_cdr_p(val cons) { return &cons->c.cdr; } val rplaca(val cons, val new_car); val rplacd(val cons, val new_car); val us_rplaca(val cons, val new_car); val us_rplacd(val cons, val new_cdr); val sys_rplaca(val cons, val new_car); val sys_rplacd(val cons, val new_car); loc car_l(val cons); loc cdr_l(val cons); val first(val cons); val rest(val cons); val second(val cons); val third(val cons); val fourth(val cons); val fifth(val cons); val sixth(val cons); val seventh(val cons); val eighth(val cons); val ninth(val cons); val tenth(val cons); val cxr(val addr, val obj); val cyr(val addr, val obj); val conses(val list); val lazy_conses(val list); val listref(val list, val ind); loc tail(val cons); val lastcons(val list); val last(val list, val n); val nthlast(val pos, val list); val nthcdr(val pos, val list); val nth(val pos, val list); val butlastn(val n, val list); val pop(val *plist); val upop(val *plist, val *pundo); val rcyc_pop(val *plist); val push(val v, val *plist); val copy_list(val list); val make_like(val list, val thatobj); val tolist(val seq); val nullify(val obj); val empty(val seq); val seqp(val obj); val iterable(val obj); val list_seq(val seq); val vec_seq(val seq); val str_seq(val seq); val nreverse(val in); val reverse(val in); val us_nreverse(val in); val append2(val list1, val list2); val nappend2(val list1, val list2); val revappend(val list1, val list2); val nreconc(val list1, val list2); val appendv(varg lists); val nconcv(varg lists); val sub_list(val list, val from, val to); val replace_list(val list, val items, val from, val to); val lazy_appendl(val lists); val lazy_appendv(varg lists); val ldiff(val list1, val list2); val ldiff_old(val list1, val list2); val flatten(val list); val lazy_flatten(val list); val flatcar(val list); val lazy_flatcar(val tree); val tuples(val n, val seq, val fill); val tuples_star(val n, val seq, val fill); val partition_by(val func, val seq); val partition_if(val func, val seq, val count_in); val partition(val seq, val indices); val split(val seq, val indices); val partition_star(val seq, val indices); val split_star(val seq, val indices); val tailp(val obj, val list); val delcons(val cons, val list); val memq(val obj, val list); val rmemq(val obj, val list); val memql(val obj, val list); val rmemql(val obj, val list); val memqual(val obj, val list); val rmemqual(val obj, val list); val member(val item, val list, val testfun, val keyfun); val rmember(val item, val list, val testfun, val keyfun); val member_if(val pred, val list, val key); val rmember_if(val pred, val list, val key); val remq(val obj, val seq, val keyfun); val remql(val obj, val seq, val keyfun); val remqual(val obj, val seq, val keyfun); val remove_if(val pred, val seq, val keyfun_in, val mapfun_in); val keepq(val obj, val seq, val keyfun); val keepql(val obj, val seq, val keyfun); val keepqual(val obj, val seq, val keyfun); val keep_if(val pred, val seq, val keyfun_in, val mapfun_in); val keep_keys_if(val pred, val seq_in, val keyfun_in, val mapfun_in); val separate(val pred, val seq, val keyfun); val separate_keys(val pred, val seq_in, val keyfun_in); val remq_lazy(val obj, val list); val remql_lazy(val obj, val list); val remqual_lazy(val obj, val list); val remove_if_lazy(val pred, val list, val key); val keep_if_lazy(val pred, val list, val key); val tree_find(val obj, val tree, val testfun); val cons_find(val obj, val tree, val testfun); val countqual(val obj, val list); val countql(val obj, val list); val countq(val obj, val list); val count_if(val pred, val list, val key); val count(val item, val seq, val testfun_in, val keyfun_in); val cons_count(val item, val tree, val testfun_in); val some_satisfy(val list, val pred, val key); val all_satisfy(val list, val pred, val key); val none_satisfy(val list, val pred, val key); val multi(val func, varg lists); val eql(val left, val right); val equal(val left, val right); val meq(val item, varg args); val meql(val item, varg args); val mequal(val item, varg args); mem_t *chk_malloc(size_t size); mem_t *chk_malloc_gc_more(size_t size); mem_t *chk_calloc(size_t n, size_t size); mem_t *chk_realloc(mem_t *, size_t size); mem_t *chk_grow_vec(mem_t *old, size_t oldelems, size_t newelems, size_t elsize); mem_t *chk_manage_vec(mem_t *old, size_t oldfilled, size_t newfilled, size_t elsize, mem_t *fillval); wchar_t *chk_wmalloc(size_t nwchar); wchar_t *chk_wrealloc(wchar_t *, size_t nwchar); wchar_t *chk_strdup(const wchar_t *str); wchar_t *chk_substrdup(const wchar_t *str, size_t off, size_t len); char *chk_strdup_utf8(const char *str); char *chk_substrdup_utf8(const char *str, size_t off, size_t len); unsigned char *chk_strdup_8bit(const wchar_t *str); mem_t *chk_copy_obj(mem_t *orig, size_t size); mem_t *chk_xalloc(ucnum m, ucnum n, val self); val cons(val car, val cdr); val make_lazy_cons(val func); val make_lazy_cons_car(val func, val car); val make_lazy_cons_car_cdr(val func, val car, val cdr); val make_lazy_cons_pub(val func, val car, val cdr); val lcons_car(val lcons); val lcons_cdr(val lcons); void rcyc_cons(val cons); void rcyc_empty(void); val lcons_fun(val lcons); INLINE val us_lcons_fun(val lcons) { return lcons->lc.func; } val lcons_force(val lcons); val list(val first, ...); /* terminated by nao */ val listv(varg ); val consp(val obj); val lconsp(val obj); val atom(val obj); val listp(val obj); val endp(val obj); val proper_list_p(val obj); val length_list(val list); val length_list_lt(val list, val len); val getplist(val list, val key); val getplist_f(val list, val key, loc found); val memp(val key, val plist); val plist_to_alist(val list); val improper_plist_to_alist(val list, val boolean_keys); val num(cnum val); val unum(ucnum u); #define num_ex(x) if3((x) > INT_PTR_MAX, unum(x), num(x)) val flo(double val); cnum c_num(val num, val self); ucnum c_unum(val num, val self); cnum c_fixnum(val num, val self); double c_flo(val self, val num); val fixnump(val num); val bignump(val num); val floatp(val num); val integerp(val num); val numberp(val num); val arithp(val obj); val nary_op(val self, val (*bfun)(val, val), val (*ufun)(val self, val), varg args, val emptyval); val nary_simple_op(val (*bfun)(val, val), varg args, val emptyval); val plus(val anum, val bnum); val plusv(varg ); val minus(val anum, val bnum); val minusv(val minuend, varg nlist); val neg(val num); val abso(val num); val mul(val anum, val bnum); val mulv(varg ); val divv(val dividend, varg ); val trunc(val anum, val bnum); val mod(val anum, val bnum); val wrap_star(val start, val end, val num); val wrap(val start, val end, val num); val divi(val anum, val bnum); val zerop(val num); val nzerop(val num); val plusp(val num); val minusp(val num); val evenp(val num); val oddp(val num); val succ(val num); val ssucc(val num); val sssucc(val num); val pred(val num); val ppred(val num); val pppred(val num); val gt(val anum, val bnum); val lt(val anum, val bnum); val ge(val anum, val bnum); val le(val anum, val bnum); val numeq(val anum, val bnum); val gtv(val first, varg rest); val ltv(val first, varg rest); val gev(val first, varg rest); val lev(val first, varg rest); val numeqv(val first, varg rest); val numneqv(varg list); val sum(val seq, val keyfun); val prod(val seq, val keyfun); val max2(val a, val b); val min2(val a, val b); val maxv(val first, varg rest); val minv(val first, varg rest); val maxl(val first, val rest); val minl(val first, val rest); val clamp(val low, val high, val num); val bracket(val larg, varg args); val expt(val base, val exp); val exptv(varg nlist); val exptmod(val base, val exp, val mod); val sqroot(val anum); val isqrt(val anum); val square(val anum); val gcd(val anum, val bnum); val gcdv(varg nlist); val lcm(val anum, val bnum); val lcmv(varg nlist); val floorf(val); val floordiv(val, val); val ceili(val); val ceildiv(val anum, val bnum); val roundiv(val anum, val bnum); val trunc_rem(val anum, val bnum); val floor_rem(val anum, val bnum); val ceil_rem(val anum, val bnum); val round_rem(val anum, val bnum); val sine(val); val cosi(val); val tang(val); val asine(val); val acosi(val); val atang(val); val atang2(val, val); val sineh(val); val cosih(val); val tangh(val); val asineh(val); val acosih(val); val atangh(val); val loga(val); val logten(val num); val logtwo(val num); val expo(val); val logand(val, val); val logior(val, val); val logandv(varg nlist); val logiorv(varg nlist); val logxor(val, val); val logxor_old(val, val); val logtest(val, val); val lognot(val, val); val logtrunc(val a, val bits); val sign_extend(val num, val nbits); val ash(val a, val bits); val bit(val a, val bit); val maskv(varg bits); val logcount(val n); val bitset(val n); val string_own(wchar_t *str); val string(const wchar_t *str); val string_utf8(const char *str); val string_8bit(const unsigned char *str); val string_8bit_size(const unsigned char *str, size_t sz); val mkstring(val len, val ch); val mkustring(val len); /* must initialize immediately with init_str! */ val init_str(val str, const wchar_t *, val self); val str(val len, val pattern); val copy_str(val str); val upcase_str(val str); val downcase_str(val str); val string_extend(val str, val tail, val finish); val string_finish(val str); val string_set_code(val str, val code); val string_get_code(val str); val stringp(val str); val lazy_stringp(val str); val length_str(val str); val coded_length(val str); val length_lt(val seq, val len); const wchar_t *c_str(val str, val self); val search_str(val haystack, val needle, val start_num, val from_end); val search_str_tree(val haystack, val tree, val start_num, val from_end); val match_str(val bigstr, val str, val pos); val match_str_tree(val bigstr, val tree, val pos); val replace_str(val str_in, val items, val from, val to); val sub_str(val str_in, val from_num, val to_num); val cat_str(val list, val sep); val scat(val sep, ...); val scat2(val s1, val s2); val scat3(val s1, val sep, val s2); val join_with(val sep, varg args); val fmt_join(varg args); val fmt_str_sep(val sep, val str, val self); val split_str(val str, val sep); val split_str_keep(val str, val sep, val keep_sep_opt, val count_opt); val spl(val sep, val arg1, val arg2); val spln(val count, val sep, val arg1, val arg2); val split_str_set(val str, val set); val sspl(val set, val str); val tok_str(val str, val tok_regex, val keep_sep_opt, val count_opt); val tok(val tok_regex, val arg1, val arg2); val tokn(val count, val tok_regex, val arg1, val arg2); val tok_where(val str, val tok_regex); val list_str(val str); val trim_str(val str); val str_esc(val escset, val escchr, val str); val cmp_str(val astr, val bstr); val str_eq(val astr, val bstr); val str_lt(val astr, val bstr); val str_gt(val astr, val bstr); val str_le(val astr, val bstr); val str_ge(val astr, val bstr); val int_str_wc(const wchar_t *, val base); val int_str(val str, val base); val flo_str_utf8(const char *); val flo_str(val str); val num_str(val str); val int_flo(val f); val flo_int(val i); val less(val left, val right); val greater(val left, val right); val lequal(val left, val right); val lessv(val first, varg rest); val greaterv(val first, varg rest); val lequalv(val first, varg rest); val gequalv(val first, varg rest); val chrp(val chr); wchar_t c_chr(val chr); val chr_isalnum(val ch); val chr_isalpha(val ch); val chr_isascii(val ch); val chr_iscntrl(val ch); val chr_isdigit(val ch); val chr_digit(val ch); val chr_isgraph(val ch); val chr_islower(val ch); val chr_isprint(val ch); val chr_ispunct(val ch); val chr_isspace(val ch); val chr_isblank(val ch); val chr_isunisp(val ch); val chr_isupper(val ch); val chr_isxdigit(val ch); val chr_xdigit(val ch); val chr_toupper(val ch); val chr_tolower(val ch); val int_chr(val ch); val chr_int(val num); val chr_str(val str, val index); val chr_str_set(val str, val index, val chr); val span_str(val str, val set); val compl_span_str(val str, val set); val break_str(val str, val set); val make_sym(val name); val gensym(val prefix); val make_package(val name, val weak); val make_anon_package(val weak); val packagep(val obj); val find_package(val name); val delete_package(val package); val merge_delete_package(val to, val victim); val package_alist(void); val package_name(val package); val package_symbols(val package); val package_local_symbols(val package); val use_sym_as(val symbol, val name, val package_in); val use_sym(val sym, val package); val unuse_sym(val symbol, val package); val use_package(val use_list, val package); val unuse_package(val unuse_list, val package); val symbol_visible(val package, val sym); val symbol_needs_prefix(val self, val package, val sym); val find_symbol(val name, val package, val notfound_val); val find_symbol_fb(val name, val package, val notfound_val); val intern(val str, val package); val intern_intrinsic(val str, val package_in); val unintern(val sym, val package); val rehome_sym(val sym, val package); val package_foreign_symbols(val package); val package_fallback_list(val package); val set_package_fallback_list(val package, val list); val intern_fallback(val str, val package); val intern_fallback_intrinsic(val str, val package_in); val symbolp(val sym); val symbol_name(val sym); val symbol_package(val sym); val keywordp(val sym); val get_current_package(void); loc get_current_package_alist_loc(void); val func_f0(val, val (*fun)(val env)); val func_f1(val, val (*fun)(val env, val)); val func_f2(val, val (*fun)(val env, val, val)); val func_f3(val, val (*fun)(val env, val, val, val)); val func_f4(val, val (*fun)(val env, val, val, val, val)); val func_n0(val (*fun)(void)); val func_n1(val (*fun)(val)); val func_n2(val (*fun)(val, val)); val func_n3(val (*fun)(val, val, val)); val func_n4(val (*fun)(val, val, val, val)); val func_n5(val (*fun)(val, val, val, val, val)); val func_n6(val (*fun)(val, val, val, val, val, val)); val func_n7(val (*fun)(val, val, val, val, val, val, val)); val func_n8(val (*fun)(val, val, val, val, val, val, val, val)); val func_f0v(val, val (*fun)(val env, varg)); val func_f1v(val, val (*fun)(val env, val, varg)); val func_f2v(val, val (*fun)(val env, val, val, varg)); val func_f3v(val, val (*fun)(val env, val, val, val, varg)); val func_f4v(val, val (*fun)(val env, val, val, val, val, varg)); val func_n0v(val (*fun)(varg)); val func_n1v(val (*fun)(val, varg)); val func_n2v(val (*fun)(val, val, varg)); val func_n3v(val (*fun)(val, val, val, varg)); val func_n4v(val (*fun)(val, val, val, val, varg)); val func_n5v(val (*fun)(val, val, val, val, val, varg)); val func_n1o(val (*fun)(val), int reqargs); val func_n2o(val (*fun)(val, val), int reqargs); val func_n3o(val (*fun)(val, val, val), int reqargs); val func_n4o(val (*fun)(val, val, val, val), int reqargs); val func_n5o(val (*fun)(val, val, val, val, val), int reqargs); val func_n6o(val (*fun)(val, val, val, val, val, val), int reqargs); val func_n7o(val (*fun)(val, val, val, val, val, val, val), int reqargs); val func_n8o(val (*fun)(val, val, val, val, val, val, val, val), int reqargs); val func_n1ov(val (*fun)(val, varg), int reqargs); val func_n2ov(val (*fun)(val, val, varg), int reqargs); val func_n3ov(val (*fun)(val, val, val, varg), int reqargs); val func_n4ov(val (*fun)(val, val, val, val, varg), int reqargs); val func_interp(val env, val form); val func_vm(val closure, val desc, int fixparam, int reqargs, int variadic); val copy_fun(val ofun); val func_get_form(val fun); val func_get_env(val fun); val func_set_env(val fun, val env); val us_func_set_env(val fun, val env); val functionp(val); val interp_fun_p(val); val vm_fun_p(val); val fun_fixparam_count(val obj); val fun_optparam_count(val obj); val fun_variadic(val obj); val generic_funcall(val fun, varg ); val funcall(val fun); val funcall1(val fun, val arg); val funcall2(val fun, val arg1, val arg2); val funcall3(val fun, val arg1, val arg2, val arg3); val funcall4(val fun, val arg1, val arg2, val arg3, val arg4); val reduce_left(val fun, val list, val init, val key); val reduce_right(val fun, val list, val init, val key); /* The notation pa_12_2 means take some function f(arg1, arg2) and fix a value for argument 1 to create a g(arg2). Other variations follow by analogy. */ val pa_12_2(val fun2, val arg); val pa_12_1(val fun2, val arg2); val pa_123_3(val fun3, val arg1, val arg2); val pa_123_2(val fun3, val arg1, val arg3); val pa_123_1(val fun3, val arg2, val arg3); val pa_1234_1(val fun4, val arg2, val arg3, val arg4); val pa_1234_34(val fun3, val arg1, val arg2); val chain(val first_fun, ...); val chainv(varg funlist); val chandv(varg funlist); val juxtv(varg funlist); val andf(val first_fun, ...); val andv(varg funlist); val orv(varg funlist); val notf(val fun); val nandv(varg funlist); val norv(varg funlist); val iff(val condfun, val thenfun, val elsefun); val iffi(val condfun, val thenfun, val elsefun); val dupl(val fun); val swap_12_21(val fun); val vector(val length, val initval); val vectorp(val vec); val vec_set_length(val vec, val fill); val vecref(val vec, val ind); loc vecref_l(val vec, val ind); val vec_push(val vec, val item); val length_vec(val vec); val size_vec(val vec); val vectorv(varg ); val vec(val first, ...); val vec_list(val list); val list_vec(val vector); val copy_vec(val vec); val sub_vec(val vec_in, val from, val to); val replace_vec(val vec_in, val items, val from, val to); val replace_obj(val obj, val items, val from, val to); val fill_vec(val vec, val item, val from_in, val to_in); val cat_vec(val list); val nested_vec_of_v(val initval, struct args *); val nested_vec_v(struct args *); val lazy_stream_cons(val stream, val no_throw_close); val lazy_str(val list, val term, val limit); val lazy_str_force_upto(val lstr, val index); val lazy_str_force(val lstr); struct strm_base; val lazy_str_put(val lstr, val stream, struct strm_base *); val lazy_str_get_trailing_list(val lstr, val index); val length_str_gt(val str, val len); val length_str_ge(val str, val len); val length_str_lt(val str, val len); val length_str_le(val str, val len); struct cobj_class *cobj_register(val cls_sym); struct cobj_class *cobj_register_super(val cls_sym, struct cobj_class *super); val cobj(mem_t *handle, struct cobj_class *cls, struct cobj_ops *ops); val cobjp(val obj); val cobjclassp(val obj, struct cobj_class *); val class_check(val self, val cobj, struct cobj_class *cls); mem_t *cobj_handle(val self, val cobj, struct cobj_class *cls); struct cobj_ops *cobj_ops(val self, val cobj, struct cobj_class *cls); val cptr(mem_t *ptr); val cptr_typed(mem_t *handle, val type_sym, struct cobj_ops *ops); val cptrp(val obj); val cptr_type(val cptr); val cptr_size_hint(val cptr, val size); val cptr_int(val n, val type_sym); val cptr_obj(val obj, val type_sym); val cptr_buf(val buf, val type_sym); val cptr_zap(val cptr); val cptr_free(val cptr); val cptr_cast(val to_type, val cptr); val copy_cptr(val cptr); val int_cptr(val cptr); mem_t *cptr_get(val cptr); mem_t *cptr_handle(val cobj, val type_sym, val self); mem_t **cptr_addr_of(val cptr, val type_sym, val self); val assoc(val key, val list); val assql(val key, val list); val assq(val key, val list); val rassoc(val key, val list); val rassql(val key, val list); val rassq(val key, val list); val acons(val car, val cdr, val list); val acons_new(val key, val value, val list); val acons_new_c(val key, loc new_p, loc list); val aconsql_new(val key, val value, val list); val alist_remove(val list, val keys); val alist_removev(val list, varg keys); val alist_remove1(val list, val key); val alist_nremove(val list, val keys); val alist_nremovev(val list, varg keys); val alist_nremove1(val list, val key); val copy_cons(val cons); val copy_tree(val tree); val copy_alist(val list); val pairlis(val keys, val values, val alist_in); val mapcar_listout(val fun, val seq); val mapcar(val fun, val seq); val mapcon(val fun, val list); val mappend(val fun, val seq); val mapdo(val fun, val seq); val window_map(val range, val boundary, val fun, val seq); val window_mappend(val range, val boundary, val fun, val seq); val window_mapdo(val range, val boundary, val fun, val seq); val interpose(val sep, val seq); val merge(val list1, val list2, val lessfun, val keyfun); val nsort(val seq, val lessfun, val keyfun); val sort(val seq, val lessfun, val keyfun); val snsort(val seq, val lessfun, val keyfun); val ssort(val seq, val lessfun, val keyfun); val nshuffle(val seq, val randstate); val shuffle(val seq, val randstate); val cnshuffle(val seq, val randstate); val cshuffle(val seq, val randstate); val multi_sort(val lists, val funcs, val key_funcs); val sort_group(val seq, val keyfun, val lessfun); val unique(val seq, val keyfun, varg hashv_args); val uniq(val seq); val grade(val seq, val lessfun, val keyfun_in); val hist_sort_by(val fun, val seq, varg hashv_args); val hist_sort(val seq, varg hashv_args); val nrot(val seq, val n_in); val rot(val seq, val n_in); val find(val list, val key, val testfun, val keyfun); val rfind(val list, val key, val testfun, val keyfun); val find_if(val pred, val list, val key); val rfind_if(val pred, val list, val key); val find_max(val seq, val testfun, val keyfun); val find_maxes(val seq, val testfun_in, val keyfun_in); val find_max_key(val seq, val testfun, val keyfun); val find_min(val seq, val testfun, val keyfun); val find_mins(val seq, val testfun, val keyfun); val find_min_key(val seq, val testfun, val keyfun); val find_true(val pred, val list, val keyfun); val posqual(val obj, val list); val rposqual(val obj, val list); val posql(val obj, val list); val rposql(val obj, val list); val posq(val obj, val list); val rposq(val obj, val list); val pos(val list, val key, val testfun, val keyfun); val rpos(val list, val key, val testfun, val keyfun); val pos_if(val pred, val list, val key); val rpos_if(val pred, val list, val key); val pos_max(val seq, val testfun, val keyfun); val pos_min(val seq, val testfun, val keyfun); val subq(val oldv, val newv, val seq); val subql(val oldv, val newv, val seq); val subqual(val oldv, val newv, val seq); val subst(val oldv, val newv, val seq, val keyfun_in, val testfun_in); val mismatch(val left, val right, val testfun, val keyfun); val rmismatch(val left, val right, val testfun, val keyfun); val starts_with(val little, val big, val testfun, val keyfun); val ends_with(val little, val big, val testfun, val keyfun); val take(val count, val seq); val take_while(val pred, val seq, val keyfun); val take_until(val pred, val seq, val keyfun); val drop(val count, val seq); val drop_while(val pred, val seq, val keyfun); val drop_until(val pred, val seq, val keyfun); val in(val seq, val key, val testfun, val keyfun); val set_diff(val list1, val list2, val testfun, val keyfun); val diff(val seq1, val seq2, val testfun, val keyfun); val symdiff(val seq1, val seq2, val testfun, val keyfun); val isec(val list1, val list2, val testfun, val keyfun); val isecp(val list1, val list2, val testfun, val keyfun); val uni(val list1, val list2, val testfun, val keyfun); val copy(val seq); val length(val seq); val sub(val seq, val from, val to); val ref(val seq, val ind); val refset(val seq, val ind, val newval); val dwim_set(val place_p, val seq, varg); val dwim_del(val place_p, val seq, val ind_range); val mref(val obj, varg args); val butlast(val seq, val idx); val replace(val seq, val items, val from, val to); val update(val seq, val fun); val search(val seq, val key, val from, val to); val contains(val key, val seq, val testfun, val keyfun); val rsearch(val seq, val key, val from, val to); val search_all(val seq, val key, val testfun, val keyfun); val where(val func, val seq); val wheref(val func); val whereq(val obj); val whereql(val obj); val wherequal(val obj); val sel(val seq, val where); val reject(val seq, val where); val relate(val domain_seq, val range_seq, val dfl_val); val rcons(val from, val to); val rangep(val obj); val from(val range); val to(val range); val set_from(val range, val from); val set_to(val range, val to); val in_range(val range, val num); val in_range_star(val range, val num); val rangeref(val range, val ind); void out_str_char(wchar_t ch, val out, int *semi_flag, int regex); val obj_print_impl(val obj, val out, val pretty, struct strm_ctx *); val obj_print(val obj, val stream, val pretty); val print(val obj, val stream, val pretty); val pprint(val obj, val stream); val tostring(val obj); val tostringp(val obj); val put_json(val obj, val stream, val flat); val put_jsonl(val obj, val stream, val flat); val tojson(val obj, val flat); val display_width(val obj); #if !HAVE_SETENV void setenv(const char *name, const char *value, int overwrite); void unsetenv(const char *name); #endif void init(val *stack_bottom); int compat_fixup(int compat_ver); void dump(val obj, val stream); void d(val obj); void breakpt(void); void dis(val obj); #define nil convert(obj_t *, 0) INLINE val eq(val a, val b) { return a == b ? t : nil; } INLINE val neq(val a, val b) { return a != b ? t : nil; } INLINE val neql(val left, val right) { return eql(left, right) ? nil : t; } INLINE val nequal(val left, val right) { return equal(left, right) ? nil : t; } INLINE val null(val v) { return v ? nil : t; } #define nilp(o) ((o) == nil) /* "not an object" sentinel value. */ #if CONFIG_NAN_BOXING #define nao coerce(obj_t *, 1) #else #define nao coerce(obj_t *, 1 << TAG_SHIFT) #endif #define missingp(v) ((v) == colon_k) INLINE int null_or_missing_p(val v) { return (nilp(v) || missingp(v)); } #define if2(a, b) ((a) ? (b) : nil) #define if3(a, b, c) ((a) ? (b) : (c)) #ifdef __GNUC__ #define uses_or2 enum { f_o_o_ ## __LINE__ } #define or2(a, b) ((a) ?: (b)) #else #define uses_or2 val or2_temp #define or2(a, b) ((or2_temp = (a)) ? or2_temp : (b)) #endif #define or3(a, b, c) or2(a, or2(b, c)) #define or4(a, b, c, d) or2(a, or3(b, c, d)) #define and2(a, b) ((a) ? (b) : nil) #define and3(a, b, c) ((a) && (b) ? (c) : nil) #define tnil(c_cond) ((c_cond) ? t : nil) #define default_arg(arg, dfl) if3(null_or_missing_p(arg), dfl, arg) INLINE val default_null_arg(val arg) { return if3(missingp(arg), nil, arg); } #define default_arg_strict(arg, dfl) if3(missingp(arg), dfl, arg) #define list_collect_decl(OUT, PTAIL) \ val OUT = nil; \ loc PTAIL = mkcloc(OUT) loc list_collect(loc ptail, val obj); loc list_collect_nconc(loc ptail, val obj); loc list_collect_append(loc ptail, val obj); loc list_collect_nreconc(loc ptail, val obj); loc list_collect_revappend(loc ptail, val obj); #define cons_bind(CAR, CDR, CONS) \ obj_t *c_o_n_s ## CAR ## CDR = CONS; \ obj_t *CAR = car(c_o_n_s ## CAR ## CDR); \ obj_t *CDR = cdr(c_o_n_s ## CAR ## CDR) #define cons_set(CAR, CDR, CONS) \ do { \ obj_t *c_o_n_s ## CAR ## CDR = CONS; \ CAR = car(c_o_n_s ## CAR ## CDR); \ CDR = cdr(c_o_n_s ## CAR ## CDR); \ } while (0) #define range_bind(FROM, TO, RANGE) \ obj_t *r_n_g ## FROM ## TO = RANGE; \ obj_t *FROM = from(r_n_g ## FROM ## TO); \ obj_t *TO = ((r_n_g ## FROM ## TO)->rn.to) #define us_cons_bind(CAR, CDR, CONS) \ obj_t *c_o_n_s ## CAR ## CDR = CONS; \ obj_t *CAR = us_car(c_o_n_s ## CAR ## CDR); \ obj_t *CDR = us_cdr(c_o_n_s ## CAR ## CDR) #define zero num_fast(0) #define one num_fast(1) #define two num_fast(2) #define three num_fast(3) #define four num_fast(4) #define negone num_fast(-1) #ifdef __cplusplus #define static_forward(decl) namespace { extern decl; } #define static_def(def) namespace { def; } #else #define static_forward(decl) static decl #define static_def(def) static def #endif #ifdef __cplusplus #define all_zero_init { } #else #define all_zero_init { 0 } #endif