446 lines
11 KiB
C
446 lines
11 KiB
C
/*
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Extra femtoLisp builtin functions
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*/
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h>
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#include <setjmp.h>
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#include <stdarg.h>
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#include <assert.h>
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#include <ctype.h>
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#include <sys/types.h>
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#include <sys/time.h>
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#include <errno.h>
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#include "llt.h"
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#include "flisp.h"
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#include "random.h"
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size_t llength(value_t v)
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{
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size_t n = 0;
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while (iscons(v)) {
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n++;
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v = cdr_(v);
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}
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return n;
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}
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static value_t fl_nconc(value_t *args, u_int32_t nargs)
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{
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if (nargs == 0)
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return NIL;
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value_t first=NIL;
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value_t *pcdr = &first;
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cons_t *c;
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int a;
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for(a=0; a < (int)nargs-1; a++) {
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if (iscons(args[a])) {
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*pcdr = args[a];
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c = (cons_t*)ptr(args[a]);
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while (iscons(c->cdr))
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c = (cons_t*)ptr(c->cdr);
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pcdr = &c->cdr;
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}
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else if (args[a] != NIL) {
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type_error("nconc", "cons", args[a]);
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}
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}
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*pcdr = args[a];
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return first;
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}
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static value_t fl_assq(value_t *args, u_int32_t nargs)
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{
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argcount("assq", nargs, 2);
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value_t item = args[0];
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value_t v = args[1];
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value_t bind;
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while (iscons(v)) {
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bind = car_(v);
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if (iscons(bind) && car_(bind) == item)
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return bind;
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v = cdr_(v);
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}
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return FL_F;
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}
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static value_t fl_memq(value_t *args, u_int32_t nargs)
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{
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argcount("memq", nargs, 2);
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while (iscons(args[1])) {
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cons_t *c = (cons_t*)ptr(args[1]);
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if (c->car == args[0])
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return args[1];
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args[1] = c->cdr;
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}
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return FL_F;
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}
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static value_t fl_length(value_t *args, u_int32_t nargs)
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{
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argcount("length", nargs, 1);
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value_t a = args[0];
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cvalue_t *cv;
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if (isvector(a)) {
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return fixnum(vector_size(a));
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}
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else if (iscprim(a)) {
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cv = (cvalue_t*)ptr(a);
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if (cp_class(cv) == bytetype)
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return fixnum(1);
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else if (cp_class(cv) == wchartype)
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return fixnum(u8_charlen(*(uint32_t*)cp_data((cprim_t*)cv)));
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}
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else if (iscvalue(a)) {
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cv = (cvalue_t*)ptr(a);
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if (cv_class(cv)->eltype != NULL)
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return size_wrap(cvalue_arraylen(a));
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}
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else if (a == NIL) {
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return fixnum(0);
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}
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else if (iscons(a)) {
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return fixnum(llength(a));
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}
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type_error("length", "sequence", a);
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}
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static value_t fl_raise(value_t *args, u_int32_t nargs)
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{
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argcount("raise", nargs, 1);
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raise(args[0]);
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}
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static value_t fl_exit(value_t *args, u_int32_t nargs)
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{
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if (nargs > 0)
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exit(tofixnum(args[0], "exit"));
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exit(0);
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return NIL;
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}
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static value_t fl_intern(value_t *args, u_int32_t nargs)
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{
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argcount("intern", nargs, 1);
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if (!isstring(args[0]))
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type_error("intern", "string", args[0]);
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return symbol(cvalue_data(args[0]));
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}
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extern value_t LAMBDA;
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static value_t fl_setsyntax(value_t *args, u_int32_t nargs)
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{
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argcount("set-syntax!", nargs, 2);
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symbol_t *sym = tosymbol(args[0], "set-syntax!");
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if (sym->syntax && (sym->syntax == TAG_CONST || isspecial(sym->syntax)))
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lerrorf(ArgError, "set-syntax!: cannot define syntax for %s",
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symbol_name(args[0]));
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if (args[1] == FL_F) {
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sym->syntax = 0;
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}
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else {
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if (!iscons(args[1]) || car_(args[1])!=LAMBDA)
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type_error("set-syntax!", "function", args[1]);
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sym->syntax = args[1];
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}
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return args[1];
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}
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static value_t fl_symbolsyntax(value_t *args, u_int32_t nargs)
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{
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argcount("symbol-syntax", nargs, 1);
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symbol_t *sym = tosymbol(args[0], "symbol-syntax");
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// must avoid returning built-in syntax expanders, because they
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// don't behave like functions (they take their arguments directly
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// from the form rather than from the stack of evaluated arguments)
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if (sym->syntax == TAG_CONST || isspecial(sym->syntax))
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return FL_F;
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return sym->syntax;
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}
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static void global_env_list(symbol_t *root, value_t *pv)
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{
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while (root != NULL) {
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if (root->name[0] != ':' &&
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(root->binding != UNBOUND ||
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(root->syntax && root->syntax != TAG_CONST &&
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!isspecial(root->syntax)))) {
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*pv = fl_cons(tagptr(root,TAG_SYM), *pv);
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}
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global_env_list(root->left, pv);
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root = root->right;
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}
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}
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extern symbol_t *symtab;
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value_t fl_global_env(value_t *args, u_int32_t nargs)
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{
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(void)args;
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argcount("environment", nargs, 0);
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PUSH(NIL);
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global_env_list(symtab, &Stack[SP-1]);
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return POP();
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}
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extern value_t QUOTE;
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static value_t fl_constantp(value_t *args, u_int32_t nargs)
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{
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argcount("constant?", nargs, 1);
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if (issymbol(args[0]))
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return (isconstant(args[0]) ? FL_T : FL_F);
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if (iscons(args[0])) {
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if (car_(args[0]) == QUOTE)
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return FL_T;
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return FL_F;
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}
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return FL_T;
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}
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static value_t fl_integerp(value_t *args, u_int32_t nargs)
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{
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argcount("integer?", nargs, 1);
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value_t v = args[0];
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if (isfixnum(v)) {
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return FL_T;
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}
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else if (iscprim(v)) {
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numerictype_t nt = cp_numtype((cprim_t*)ptr(v));
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if (nt < T_FLOAT)
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return FL_T;
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void *data = cp_data((cprim_t*)ptr(v));
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if (nt == T_FLOAT) {
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float f = *(float*)data;
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if (f < 0) f = -f;
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if (f <= FLT_MAXINT && (float)(int32_t)f == f)
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return FL_T;
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}
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else {
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assert(nt == T_DOUBLE);
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double d = *(double*)data;
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if (d < 0) d = -d;
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if (d <= DBL_MAXINT && (double)(int64_t)d == d)
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return FL_T;
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}
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}
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return FL_F;
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}
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static value_t fl_fixnum(value_t *args, u_int32_t nargs)
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{
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argcount("fixnum", nargs, 1);
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if (isfixnum(args[0])) {
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return args[0];
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}
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else if (iscprim(args[0])) {
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cprim_t *cp = (cprim_t*)ptr(args[0]);
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return fixnum(conv_to_long(cp_data(cp), cp_numtype(cp)));
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}
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type_error("fixnum", "number", args[0]);
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}
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static value_t fl_truncate(value_t *args, u_int32_t nargs)
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{
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argcount("truncate", nargs, 1);
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if (isfixnum(args[0]))
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return args[0];
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if (iscprim(args[0])) {
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cprim_t *cp = (cprim_t*)ptr(args[0]);
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void *data = cp_data(cp);
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numerictype_t nt = cp_numtype(cp);
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double d;
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if (nt == T_FLOAT)
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d = (double)*(float*)data;
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else if (nt == T_DOUBLE)
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d = *(double*)data;
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else
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return args[0];
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if (d > 0)
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return return_from_uint64((uint64_t)d);
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return return_from_int64((int64_t)d);
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}
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type_error("truncate", "number", args[0]);
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}
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static value_t fl_vector_alloc(value_t *args, u_int32_t nargs)
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{
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fixnum_t i;
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value_t f, v;
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if (nargs == 0)
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lerror(ArgError, "vector.alloc: too few arguments");
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i = tofixnum(args[0], "vector.alloc");
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if (i < 0)
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lerror(ArgError, "vector.alloc: invalid size");
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if (nargs == 2)
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f = args[1];
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else
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f = NIL;
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v = alloc_vector((unsigned)i, f==NIL);
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if (f != NIL) {
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int k;
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for(k=0; k < i; k++)
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vector_elt(v,k) = f;
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}
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return v;
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}
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static value_t fl_time_now(value_t *args, u_int32_t nargs)
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{
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argcount("time.now", nargs, 0);
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(void)args;
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return mk_double(clock_now());
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}
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static double todouble(value_t a, char *fname)
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{
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if (isfixnum(a))
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return (double)numval(a);
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if (iscprim(a)) {
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cprim_t *cp = (cprim_t*)ptr(a);
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numerictype_t nt = cp_numtype(cp);
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return conv_to_double(cp_data(cp), nt);
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}
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type_error(fname, "number", a);
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}
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static value_t fl_time_string(value_t *args, uint32_t nargs)
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{
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argcount("time.string", nargs, 1);
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double t = todouble(args[0], "time.string");
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char buf[64];
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timestring(t, buf, sizeof(buf));
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return string_from_cstr(buf);
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}
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static value_t fl_path_cwd(value_t *args, uint32_t nargs)
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{
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if (nargs > 1)
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argcount("path.cwd", nargs, 1);
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if (nargs == 0) {
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char buf[1024];
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get_cwd(buf, sizeof(buf));
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return string_from_cstr(buf);
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}
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char *ptr = tostring(args[0], "path.cwd");
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if (set_cwd(ptr))
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lerrorf(IOError, "path.cwd: could not cd to %s", ptr);
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return FL_T;
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}
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static value_t fl_os_getenv(value_t *args, uint32_t nargs)
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{
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argcount("os.getenv", nargs, 1);
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char *name = tostring(args[0], "os.getenv");
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char *val = getenv(name);
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if (val == NULL) return FL_F;
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if (*val == 0)
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return symbol_value(emptystringsym);
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return cvalue_static_cstring(val);
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}
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static value_t fl_os_setenv(value_t *args, uint32_t nargs)
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{
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argcount("os.setenv", nargs, 2);
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char *name = tostring(args[0], "os.setenv");
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int result;
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if (args[1] == FL_F) {
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result = unsetenv(name);
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}
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else {
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char *val = tostring(args[1], "os.setenv");
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result = setenv(name, val, 1);
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}
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if (result != 0)
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lerror(ArgError, "os.setenv: invalid environment variable");
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return FL_T;
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}
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static value_t fl_rand(value_t *args, u_int32_t nargs)
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{
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(void)args; (void)nargs;
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fixnum_t r;
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#ifdef BITS64
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r = ((((uint64_t)random())<<32) | random()) & 0x1fffffffffffffffLL;
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#else
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r = random() & 0x1fffffff;
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#endif
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return fixnum(r);
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}
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static value_t fl_rand32(value_t *args, u_int32_t nargs)
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{
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(void)args; (void)nargs;
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ulong r = random();
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#ifdef BITS64
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return fixnum(r);
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#else
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return mk_uint32(r);
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#endif
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}
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static value_t fl_rand64(value_t *args, u_int32_t nargs)
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{
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(void)args; (void)nargs;
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uint64_t r = (((uint64_t)random())<<32) | random();
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return mk_uint64(r);
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}
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static value_t fl_randd(value_t *args, u_int32_t nargs)
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{
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(void)args; (void)nargs;
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return mk_double(rand_double());
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}
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static value_t fl_randf(value_t *args, u_int32_t nargs)
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{
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(void)args; (void)nargs;
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return mk_float(rand_float());
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}
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extern void stringfuncs_init();
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extern void table_init();
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extern void iostream_init();
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static builtinspec_t builtin_info[] = {
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{ "set-syntax!", fl_setsyntax },
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{ "symbol-syntax", fl_symbolsyntax },
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{ "environment", fl_global_env },
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{ "constant?", fl_constantp },
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{ "raise", fl_raise },
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{ "exit", fl_exit },
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{ "intern", fl_intern },
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{ "fixnum", fl_fixnum },
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{ "truncate", fl_truncate },
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{ "integer?", fl_integerp },
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{ "nconc", fl_nconc },
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{ "assq", fl_assq },
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{ "memq", fl_memq },
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{ "length", fl_length },
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{ "vector.alloc", fl_vector_alloc },
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{ "time.now", fl_time_now },
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{ "time.string", fl_time_string },
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{ "rand", fl_rand },
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{ "rand.uint32", fl_rand32 },
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{ "rand.uint64", fl_rand64 },
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{ "rand.double", fl_randd },
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{ "rand.float", fl_randf },
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{ "path.cwd", fl_path_cwd },
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{ "os.getenv", fl_os_getenv },
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{ "os.setenv", fl_os_setenv },
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{ NULL, NULL }
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};
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void builtins_init()
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{
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assign_global_builtins(builtin_info);
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stringfuncs_init();
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table_init();
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iostream_init();
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}
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