// command.cpp: implements the parsing and execution of a tiny script language which // is largely backwards compatible with the quake console language. // XXX Emscripten: changed all sizeof to ES_SIZEOF // XXX Emscripten #define STANDALONE #include "limits.h" #include "stdarg.h" #include "string.h" #include "stdio.h" #include "stdlib.h" #include "ctype.h" #include "math.h" #include "time.h" #include #include "tools.h" #include "command.h" // console enum { CON_INFO = 1<<0, CON_WARN = 1<<1, CON_ERROR = 1<<2, CON_DEBUG = 1<<3, CON_INIT = 1<<4, CON_ECHO = 1<<5 }; extern void conoutf(const char *s, ...); extern void conoutf(int type, const char *s, ...); // command extern int variable(const char *name, int min, int cur, int max, int *storage, void (*fun)(), int flags); extern float fvariable(const char *name, float min, float cur, float max, float *storage, void (*fun)(), int flags); extern char *svariable(const char *name, const char *cur, char **storage, void (*fun)(), int flags); extern void setvar(const char *name, int i, bool dofunc = true, bool doclamp = true); extern void setfvar(const char *name, float f, bool dofunc = true, bool doclamp = true); extern void setsvar(const char *name, const char *str, bool dofunc = true); extern void setvarchecked(ident *id, int val); extern void setfvarchecked(ident *id, float val); extern void setsvarchecked(ident *id, const char *val); extern void touchvar(const char *name); extern int getvar(const char *name); extern int getvarmin(const char *name); extern int getvarmax(const char *name); extern bool identexists(const char *name); extern ident *getident(const char *name); extern ident *newident(const char *name); extern bool addcommand(const char *name, void (*fun)(), const char *narg); extern int execute(const char *p); extern char *executeret(const char *p); extern bool execfile(const char *cfgfile, bool msg = true); extern void alias(const char *name, const char *action); extern const char *getalias(const char *name); // main extern void fatal(const char *s, ...); extern char *path(char *s); extern char *path(const char *s, bool copy); extern const char *parentdir(const char *directory); extern bool fileexists(const char *path, const char *mode); extern bool createdir(const char *path); extern size_t fixpackagedir(char *dir); extern void sethomedir(const char *dir); extern void addpackagedir(const char *dir); extern const char *findfile(const char *filename, const char *mode); extern stream *openrawfile(const char *filename, const char *mode); extern stream *openzipfile(const char *filename, const char *mode); extern stream *openfile(const char *filename, const char *mode); extern stream *opentempfile(const char *filename, const char *mode); extern char *loadfile(const char *fn, int *size); extern bool listdir(const char *dir, const char *ext, vector &files); extern int listfiles(const char *dir, const char *ext, vector &files); extern int listzipfiles(const char *dir, const char *ext, vector &files); extern void seedMT(uint seed); extern uint randomMT(void); // XXX ========================= char *exchangestr(char *o, const char *n) { delete[] o; return newstring(n); } typedef hashtable identtable; identtable *idents = NULL; // contains ALL vars/commands/aliases bool overrideidents = false, persistidents = true; void clearstack(ident &id) { identstack *stack = id.stack; while(stack) { delete[] stack->action; identstack *tmp = stack; stack = stack->next; delete tmp; } id.stack = NULL; } void clear_command() { enumerate(*idents, ident, i, if(i.type==ID_ALIAS) { DELETEA(i.name); DELETEA(i.action); if(i.stack) clearstack(i); }); if(idents) idents->clear(); } void clearoverride(ident &i) { if(i.override==NO_OVERRIDE) return; switch(i.type) { case ID_ALIAS: if(i.action[0]) { if(i.action != i.isexecuting) delete[] i.action; i.action = newstring(""); } break; case ID_VAR: *i.storage.i = i.overrideval.i; i.changed(); break; case ID_FVAR: *i.storage.f = i.overrideval.f; i.changed(); break; case ID_SVAR: delete[] *i.storage.s; *i.storage.s = i.overrideval.s; i.changed(); break; } i.override = NO_OVERRIDE; } void clearoverrides() { enumerate(*idents, ident, i, clearoverride(i)); } void pushident(ident &id, char *val) { if(id.type != ID_ALIAS) return; identstack *stack = new identstack; stack->action = id.isexecuting==id.action ? newstring(id.action) : id.action; stack->next = id.stack; id.stack = stack; id.action = val; } void popident(ident &id) { if(id.type != ID_ALIAS || !id.stack) return; if(id.action != id.isexecuting) delete[] id.action; identstack *stack = id.stack; id.action = stack->action; id.stack = stack->next; delete stack; } ident *newident(const char *name) { ident *id = idents->access(name); if(!id) { ident init(ID_ALIAS, newstring(name), newstring(""), persistidents ? IDF_PERSIST : 0); id = &idents->access(init.name, init); } return id; } void pusha(const char *name, char *action) { pushident(*newident(name), action); } void push(char *name, char *action) { pusha(name, newstring(action)); } void pop(char *name) { ident *id = idents->access(name); if(id) popident(*id); } void resetvar(char *name) { ident *id = idents->access(name); if(!id) return; if(id->flags&IDF_READONLY) conoutf(CON_ERROR, "variable %s is read-only", id->name); else clearoverride(*id); } COMMAND(push, "ss"); COMMAND(pop, "s"); COMMAND(resetvar, "s"); void aliasa(const char *name, char *action) { ident *b = idents->access(name); if(!b) { ident b(ID_ALIAS, newstring(name), action, persistidents ? IDF_PERSIST : 0); if(overrideidents) b.override = OVERRIDDEN; idents->access(b.name, b); } else if(b->type != ID_ALIAS) { conoutf(CON_ERROR, "cannot redefine builtin %s with an alias", name); delete[] action; } else { if(b->action != b->isexecuting) delete[] b->action; b->action = action; if(overrideidents) b->override = OVERRIDDEN; else { if(b->override != NO_OVERRIDE) b->override = NO_OVERRIDE; if(persistidents) { if(!(b->flags & IDF_PERSIST)) b->flags |= IDF_PERSIST; } else if(b->flags & IDF_PERSIST) b->flags &= ~IDF_PERSIST; } } } void alias(const char *name, const char *action) { aliasa(name, newstring(action)); } COMMAND(alias, "ss"); // variable's and commands are registered through globals, see cube.h int variable(const char *name, int min, int cur, int max, int *storage, void (*fun)(), int flags) { if(!idents) idents = new identtable; ident v(ID_VAR, name, min, cur, max, storage, (void *)fun, flags); idents->access(name, v); return cur; } float fvariable(const char *name, float min, float cur, float max, float *storage, void (*fun)(), int flags) { if(!idents) idents = new identtable; ident v(ID_FVAR, name, min, cur, max, storage, (void *)fun, flags); idents->access(name, v); return cur; } char *svariable(const char *name, const char *cur, char **storage, void (*fun)(), int flags) { if(!idents) idents = new identtable; ident v(ID_SVAR, name, newstring(cur), storage, (void *)fun, flags); idents->access(name, v); return v.val.s; } #define _GETVAR(id, vartype, name, retval) \ ident *id = idents->access(name); \ if(!id || id->type!=vartype) return retval; #define GETVAR(id, name, retval) _GETVAR(id, ID_VAR, name, retval) #define OVERRIDEVAR(errorval, saveval, resetval, clearval) \ if(overrideidents || id->flags&IDF_OVERRIDE) \ { \ if(id->flags&IDF_PERSIST) \ { \ conoutf(CON_ERROR, "cannot override persistent variable %s", id->name); \ errorval; \ } \ if(id->override==NO_OVERRIDE) { saveval; id->override = OVERRIDDEN; } \ else { clearval; } \ } \ else \ { \ if(id->override!=NO_OVERRIDE) { resetval; id->override = NO_OVERRIDE; } \ clearval; \ } void setvar(const char *name, int i, bool dofunc, bool doclamp) { GETVAR(id, name, ); OVERRIDEVAR(return, id->overrideval.i = *id->storage.i, , ) if(doclamp) *id->storage.i = clamp(i, id->minval, id->maxval); else *id->storage.i = i; if(dofunc) id->changed(); } void setfvar(const char *name, float f, bool dofunc, bool doclamp) { _GETVAR(id, ID_FVAR, name, ); OVERRIDEVAR(return, id->overrideval.f = *id->storage.f, , ); if(doclamp) *id->storage.f = clamp(f, id->minvalf, id->maxvalf); else *id->storage.f = f; if(dofunc) id->changed(); } void setsvar(const char *name, const char *str, bool dofunc) { _GETVAR(id, ID_SVAR, name, ); OVERRIDEVAR(return, id->overrideval.s = *id->storage.s, delete[] id->overrideval.s, delete[] *id->storage.s); *id->storage.s = newstring(str); if(dofunc) id->changed(); } int getvar(const char *name) { GETVAR(id, name, 0); return *id->storage.i; } int getvarmin(const char *name) { GETVAR(id, name, 0); return id->minval; } int getvarmax(const char *name) { GETVAR(id, name, 0); return id->maxval; } bool identexists(const char *name) { return idents->access(name)!=NULL; } ident *getident(const char *name) { return idents->access(name); } void touchvar(const char *name) { ident *id = idents->access(name); if(id) switch(id->type) { case ID_VAR: case ID_FVAR: case ID_SVAR: id->changed(); break; } } const char *getalias(const char *name) { ident *i = idents->access(name); return i && i->type==ID_ALIAS ? i->action : ""; } void setvarchecked(ident *id, int val) { if(id->flags&IDF_READONLY) conoutf(CON_ERROR, "variable %s is read-only", id->name); #ifndef STANDALONE else if(!(id->flags&IDF_OVERRIDE) || overrideidents || game::allowedittoggle()) #else else #endif { OVERRIDEVAR(return, id->overrideval.i = *id->storage.i, , ) if(valminval || val>id->maxval) { val = valminval ? id->minval : id->maxval; // clamp to valid range conoutf(CON_ERROR, id->flags&IDF_HEX ? (id->minval <= 255 ? "valid range for %s is %d..0x%X" : "valid range for %s is 0x%X..0x%X") : "valid range for %s is %d..%d", id->name, id->minval, id->maxval); } *id->storage.i = val; id->changed(); // call trigger function if available #ifndef STANDALONE if(id->flags&IDF_OVERRIDE && !overrideidents) game::vartrigger(id); #endif } } void setfvarchecked(ident *id, float val) { if(id->flags&IDF_READONLY) conoutf(CON_ERROR, "variable %s is read-only", id->name); #ifndef STANDALONE else if(!(id->flags&IDF_OVERRIDE) || overrideidents || game::allowedittoggle()) #else else #endif { OVERRIDEVAR(return, id->overrideval.f = *id->storage.f, , ); if(valminvalf || val>id->maxvalf) { val = valminvalf ? id->minvalf : id->maxvalf; // clamp to valid range conoutf(CON_ERROR, "valid range for %s is %s..%s", id->name, floatstr(id->minvalf), floatstr(id->maxvalf)); } *id->storage.f = val; id->changed(); #ifndef STANDALONE if(id->flags&IDF_OVERRIDE && !overrideidents) game::vartrigger(id); #endif } } void setsvarchecked(ident *id, const char *val) { if(id->flags&IDF_READONLY) conoutf(CON_ERROR, "variable %s is read-only", id->name); #ifndef STANDALONE else if(!(id->flags&IDF_OVERRIDE) || overrideidents || game::allowedittoggle()) #else else #endif { OVERRIDEVAR(return, id->overrideval.s = *id->storage.s, delete[] id->overrideval.s, delete[] *id->storage.s); *id->storage.s = newstring(val); id->changed(); #ifndef STANDALONE if(id->flags&IDF_OVERRIDE && !overrideidents) game::vartrigger(id); #endif } } bool addcommand(const char *name, void (*fun)(), const char *narg) { if(!idents) idents = new identtable; ident c(ID_COMMAND, name, narg, (void *)fun); idents->access(name, c); return false; } void addident(const char *name, ident *id) { if(!idents) idents = new identtable; idents->access(name, *id); } static vector *> wordbufs; static int bufnest = 0; char *parseexp(const char *&p, int right); void parsemacro(const char *&p, int level, vector &wordbuf) { int escape = 1; while(*p=='@') p++, escape++; if(level > escape) { while(escape--) wordbuf.add('@'); return; } if(*p=='(') { char *ret = parseexp(p, ')'); if(ret) { for(char *sub = ret; *sub; ) wordbuf.add(*sub++); delete[] ret; } return; } static vector ident; ident.setsize(0); while(isalnum(*p) || *p=='_') ident.add(*p++); ident.add(0); const char *alias = getalias(ident.getbuf()); while(*alias) wordbuf.add(*alias++); } const char *parsestring(const char *p) { for(; *p; p++) switch(*p) { case '\r': case '\n': case '\"': return p; case '^': if(*++p) break; return p; } return p; } int escapestring(char *dst, const char *src, const char *end) { char *start = dst; while(src < end) { int c = *src++; if(c == '^') { if(src >= end) break; int e = *src++; switch(e) { case 'n': *dst++ = '\n'; break; case 't': *dst++ = '\t'; break; case 'f': *dst++ = '\f'; break; default: *dst++ = e; break; } } else *dst++ = c; } return dst - start; } char *parseexp(const char *&p, int right) // parse any nested set of () or [] { if(bufnest++>=wordbufs.length()) wordbufs.add(new vector); vector &wordbuf = *wordbufs[bufnest-1]; int left = *p++; for(int brak = 1; brak; ) { size_t n = strcspn(p, "\r@\"/()[]"); wordbuf.put(p, n); p += n; int c = *p++; switch(c) { case '\r': continue; case '@': if(left == '[') { parsemacro(p, brak, wordbuf); continue; } break; case '\"': { wordbuf.add(c); const char *end = parsestring(p); wordbuf.put(p, end - p); p = end; if(*p=='\"') wordbuf.add(*p++); continue; } case '/': if(*p=='/') { p += strcspn(p, "\n\0"); continue; } break; case '\0': p--; conoutf(CON_ERROR, "missing \"%c\"", right); wordbuf.setsize(0); bufnest--; return NULL; case '(': case '[': if(c==left) brak++; break; case ')': case ']': if(c==right) brak--; break; } wordbuf.add(c); } wordbuf.pop(); char *s; if(left=='(') { wordbuf.add(0); char *ret = executeret(wordbuf.getbuf()); // evaluate () exps directly, and substitute result wordbuf.pop(); s = ret ? ret : newstring(""); } else { s = newstring(wordbuf.getbuf(), wordbuf.length()); } wordbuf.setsize(0); bufnest--; return s; } char *lookup(char *n) // find value of ident referenced with $ in exp { ident *id = idents->access(n+1); if(id) switch(id->type) { case ID_VAR: return exchangestr(n, intstr(*id->storage.i)); case ID_FVAR: return exchangestr(n, floatstr(*id->storage.f)); case ID_SVAR: return exchangestr(n, *id->storage.s); case ID_ALIAS: return exchangestr(n, id->action); } conoutf(CON_ERROR, "unknown alias lookup: %s", n+1); return n; } char *parseword(const char *&p, int arg, int &infix) // parse single argument, including expressions { for(;;) { p += strspn(p, " \t\r"); if(p[0]!='/' || p[1]!='/') break; p += strcspn(p, "\n\0"); } if(*p=='\"') { p++; const char *end = parsestring(p); char *s = newstring(end - p); s[escapestring(s, p, end)] = '\0'; p = end; if(*p=='\"') p++; return s; } if(*p=='(') return parseexp(p, ')'); if(*p=='[') return parseexp(p, ']'); const char *word = p; for(;;) { p += strcspn(p, "/; \t\r\n\0"); if(p[0]!='/' || p[1]=='/') break; else if(p[1]=='\0') { p++; break; } p += 2; } if(p-word==0) return NULL; if(arg==1 && p-word==1) switch(*word) { case '=': infix = *word; break; } char *s = newstring(word, p-word); if(*s=='$') return lookup(s); // substitute variables return s; } char *conc(char **w, int n, bool space) { int len = space ? max(n-1, 0) : 0; loopj(n) len += (int)strlen(w[j]); char *r = newstring("", len); loopi(n) { strcat(r, w[i]); // make string-list out of all arguments if(i==n-1) break; if(space) strcat(r, " "); } return r; } VARN(numargs, _numargs, 25, 0, 0); static inline bool isinteger(char *c) { return isdigit(c[0]) || ((c[0]=='+' || c[0]=='-' || c[0]=='.') && isdigit(c[1])); } char *commandret = NULL; char *executeret(const char *p) // all evaluation happens here, recursively { const int MAXWORDS = 25; // limit, remove char *w[MAXWORDS]; char *retval = NULL; #define setretval(v) { char *rv = v; if(rv) retval = rv; } for(bool cont = true; cont;) // for each ; seperated statement { int numargs = MAXWORDS, infix = 0; loopi(MAXWORDS) // collect all argument values { w[i] = parseword(p, i, infix); // parse and evaluate exps if(!w[i]) { numargs = i; break; } } p += strcspn(p, ";\n\0"); cont = *p++!=0; // more statements if this isn't the end of the string char *c = w[0]; if(!c || !*c) continue; // empty statement DELETEA(retval); if(infix) { switch(infix) { case '=': aliasa(c, numargs>2 ? w[2] : newstring("")); w[2] = NULL; break; } } else { ident *id = idents->access(c); if(!id) { if(!isinteger(c)) conoutf(CON_ERROR, "unknown command: %s", c); setretval(newstring(c)); } else switch(id->type) { case ID_CCOMMAND: case ID_COMMAND: // game defined commands { void *v[MAXWORDS]; union { int i; float f; } nstor[MAXWORDS]; int n = 0, wn = 0; char *cargs = NULL; if(id->type==ID_CCOMMAND) v[n++] = id->self; for(const char *a = id->narg; *a; a++, n++) switch(*a) { case 's': v[n] = ++wn < numargs ? w[wn] : (char *)""; break; case 'i': nstor[n].i = ++wn < numargs ? parseint(w[wn]) : 0; v[n] = &nstor[n].i; break; case 'f': nstor[n].f = ++wn < numargs ? parsefloat(w[wn]) : 0.0f; v[n] = &nstor[n].f; break; #ifndef STANDALONE case 'D': nstor[n].i = addreleaseaction(id->name) ? 1 : 0; v[n] = &nstor[n].i; break; #endif case 'V': v[n++] = w+1; nstor[n].i = numargs-1; v[n] = &nstor[n].i; break; case 'C': if(!cargs) cargs = conc(w+1, numargs-1, true); v[n] = cargs; break; default: fatal("builtin declared with illegal type"); } switch(n) { case 0: ((void (__cdecl *)() )id->fun)(); break; case 1: ((void (__cdecl *)(void *) )id->fun)(v[0]); break; case 2: ((void (__cdecl *)(void *, void *) )id->fun)(v[0], v[1]); break; case 3: ((void (__cdecl *)(void *, void *, void *) )id->fun)(v[0], v[1], v[2]); break; case 4: ((void (__cdecl *)(void *, void *, void *, void *) )id->fun)(v[0], v[1], v[2], v[3]); break; case 5: ((void (__cdecl *)(void *, void *, void *, void *, void *))id->fun)(v[0], v[1], v[2], v[3], v[4]); break; case 6: ((void (__cdecl *)(void *, void *, void *, void *, void *, void *))id->fun)(v[0], v[1], v[2], v[3], v[4], v[5]); break; case 7: ((void (__cdecl *)(void *, void *, void *, void *, void *, void *, void *))id->fun)(v[0], v[1], v[2], v[3], v[4], v[5], v[6]); break; case 8: ((void (__cdecl *)(void *, void *, void *, void *, void *, void *, void *, void *))id->fun)(v[0], v[1], v[2], v[3], v[4], v[5], v[6], v[7]); break; default: fatal("builtin declared with too many args (use V?)"); } if(cargs) delete[] cargs; setretval(commandret); commandret = NULL; break; } case ID_VAR: // game defined variables if(numargs <= 1) { if(id->flags&IDF_HEX && id->maxval==0xFFFFFF) conoutf("%s = 0x%.6X (%d, %d, %d)", c, *id->storage.i, (*id->storage.i>>16)&0xFF, (*id->storage.i>>8)&0xFF, *id->storage.i&0xFF); else conoutf(id->flags&IDF_HEX ? "%s = 0x%X" : "%s = %d", c, *id->storage.i); // var with no value just prints its current value } else { int val = parseint(w[1]); if(id->flags&IDF_HEX && numargs > 2) { val <<= 16; val |= parseint(w[2])<<8; if(numargs > 3) val |= parseint(w[3]); } setvarchecked(id, val); } break; case ID_FVAR: if(numargs <= 1) conoutf("%s = %s", c, floatstr(*id->storage.f)); else setfvarchecked(id, parsefloat(w[1])); break; case ID_SVAR: if(numargs <= 1) conoutf(strchr(*id->storage.s, '"') ? "%s = [%s]" : "%s = \"%s\"", c, *id->storage.s); else setsvarchecked(id, w[1]); break; case ID_ALIAS: // alias, also used as functions and (global) variables { delete[] w[0]; static vector argids; for(int i = 1; i argids.length()) { defformatstring(argname)("arg%d", i); argids.add(newident(argname)); } pushident(*argids[i-1], w[i]); // set any arguments as (global) arg values so functions can access them } _numargs = numargs-1; bool wasoverriding = overrideidents; if(id->override!=NO_OVERRIDE) overrideidents = true; char *wasexecuting = id->isexecuting; id->isexecuting = id->action; setretval(executeret(id->action)); if(id->isexecuting != id->action && id->isexecuting != wasexecuting) delete[] id->isexecuting; id->isexecuting = wasexecuting; overrideidents = wasoverriding; for(int i = 1; iname, (*y)->name); } void writeescapedstring(stream *f, const char *s) { f->putchar('"'); for(; *s; s++) switch(*s) { case '\n': f->write("^n", 2); break; case '\t': f->write("^t", 2); break; case '\f': f->write("^f", 2); break; case '"': f->write("^\"", 2); break; default: f->putchar(*s); break; } f->putchar('"'); } #endif // below the commands that implement a small imperative language. thanks to the semantics of // () and [] expressions, any control construct can be defined trivially. static string retbuf[3]; static int retidx = 0; const char *intstr(int v) { retidx = (retidx + 1)%3; formatstring(retbuf[retidx])("%d", v); return retbuf[retidx]; } void intret(int v) { commandret = newstring(intstr(v)); } const char *floatstr(float v) { retidx = (retidx + 1)%3; formatstring(retbuf[retidx])(v==int(v) ? "%.1f" : "%.7g", v); return retbuf[retidx]; } void floatret(float v) { commandret = newstring(floatstr(v)); } #undef ICOMMANDNAME #define ICOMMANDNAME(name) _stdcmd ICOMMAND(if, "sss", (char *cond, char *t, char *f), commandret = executeret(cond[0] && (!isinteger(cond) || parseint(cond)) ? t : f)); ICOMMAND(?, "sss", (char *cond, char *t, char *f), result(cond[0] && (!isinteger(cond) || parseint(cond)) ? t : f)); ICOMMAND(loop, "sis", (char *var, int *n, char *body), { if(*n<=0) return; ident *id = newident(var); if(id->type!=ID_ALIAS) return; loopi(*n) { if(i) sprintf(id->action, "%d", i); else pushident(*id, newstring("0", 16)); execute(body); } popident(*id); }); ICOMMAND(loopwhile, "siss", (char *var, int *n, char *cond, char *body), { if(*n<=0) return; ident *id = newident(var); if(id->type!=ID_ALIAS) return; loopi(*n) { if(i) sprintf(id->action, "%d", i); else pushident(*id, newstring("0", 16)); if(!execute(cond)) break; execute(body); } popident(*id); }); ICOMMAND(while, "ss", (char *cond, char *body), while(execute(cond)) execute(body)); // can't get any simpler than this :) void concat(const char *s) { commandret = newstring(s); } void result(const char *s) { commandret = newstring(s); } void concatword(char **args, int *numargs) { commandret = conc(args, *numargs, false); } void format(char **args, int *numargs) { vector s; char *f = args[0]; while(*f) { int c = *f++; if(c == '%') { int i = *f++; if(i >= '1' && i <= '9') { i -= '0'; const char *sub = i < *numargs ? args[i] : ""; while(*sub) s.add(*sub++); } else s.add(i); } else s.add(c); } s.add('\0'); result(s.getbuf()); } #define whitespaceskip s += strspn(s, "\n\t ") #define elementskip *s=='"' ? (++s, s += strcspn(s, "\"\n\0"), s += *s=='"') : s += strcspn(s, "\n\t \0") void explodelist(const char *s, vector &elems) { whitespaceskip; while(*s) { const char *elem = s; elementskip; elems.add(*elem=='"' ? newstring(elem+1, s-elem-(s[-1]=='"' ? 2 : 1)) : newstring(elem, s-elem)); whitespaceskip; } } char *indexlist(const char *s, int pos) { whitespaceskip; loopi(pos) { elementskip; whitespaceskip; if(!*s) break; } const char *e = s; elementskip; if(*e=='"') { e++; if(s[-1]=='"') --s; } return newstring(e, s-e); } int listlen(const char *s) { int n = 0; whitespaceskip; for(; *s; n++) elementskip, whitespaceskip; return n; } void at(char *s, int *pos) { commandret = indexlist(s, *pos); } void substr(char *s, int *start, char *count) { int len = strlen(s), offset = clamp(*start, 0, len); commandret = newstring(&s[offset], count[0] ? clamp(parseint(count), 0, len - offset) : len - offset); } void getalias_(char *s) { result(getalias(s)); } COMMAND(concat, "C"); COMMAND(result, "s"); COMMAND(concatword, "V"); COMMAND(format, "V"); COMMAND(at, "si"); COMMAND(substr, "sis"); ICOMMAND(listlen, "s", (char *s), intret(listlen(s))); COMMANDN(getalias, getalias_, "s"); void looplist(const char *var, const char *list, const char *body, bool search) { ident *id = newident(var); if(id->type!=ID_ALIAS) { if(search) intret(-1); return; } int n = 0; for(const char *s = list;;) { whitespaceskip; if(!*s) { if(search) intret(-1); break; } const char *start = s; elementskip; const char *end = s; if(*start=='"') { start++; if(end[-1]=='"') --end; } char *val = newstring(start, end-start); if(n++) aliasa(id->name, val); else pushident(*id, val); if(execute(body) && search) { intret(n-1); break; } } if(n) popident(*id); } void prettylist(const char *s, const char *conj) { vector p; whitespaceskip; for(int len = listlen(s), n = 0; *s; n++) { const char *elem = s; elementskip; p.put(elem, s - elem); if(n+1 < len) { if(len > 2 || !conj[0]) p.add(','); if(n+2 == len && conj[0]) { p.add(' '); p.put(conj, strlen(conj)); } p.add(' '); } whitespaceskip; } p.add('\0'); result(p.getbuf()); } COMMAND(prettylist, "ss"); int listincludes(const char *list, const char *needle, int needlelen) { const char *s = list; whitespaceskip; int offset = 0; while(*s) { const char *elem = s; elementskip; int len = s-elem; if(*elem=='"') { elem++; len -= s[-1]=='"' ? 2 : 1; } if(needlelen == len && !strncmp(needle, elem, len)) return offset; whitespaceskip; offset++; } return -1; } char *listdel(const char *s, const char *del) { vector p; whitespaceskip; while(*s) { const char *elem = s; elementskip; int len = s-elem; if(*elem=='"') { elem++; len -= s[-1]=='"' ? 2 : 1; } if(listincludes(del, elem, len) < 0) { if(!p.empty()) p.add(' '); p.put(elem, len); } whitespaceskip; } p.add('\0'); return newstring(p.getbuf()); } ICOMMAND(listdel, "ss", (char *list, char *del), commandret = listdel(list, del)); ICOMMAND(indexof, "ss", (char *list, char *elem), intret(listincludes(list, elem, strlen(elem)))); ICOMMAND(listfind, "sss", (char *var, char *list, char *body), looplist(var, list, body, true)); ICOMMAND(looplist, "sss", (char *var, char *list, char *body), looplist(var, list, body, false)); ICOMMAND(+, "ii", (int *a, int *b), intret(*a + *b)); ICOMMAND(*, "ii", (int *a, int *b), intret(*a * *b)); ICOMMAND(-, "ii", (int *a, int *b), intret(*a - *b)); ICOMMAND(+f, "ff", (float *a, float *b), floatret(*a + *b)); ICOMMAND(*f, "ff", (float *a, float *b), floatret(*a * *b)); ICOMMAND(-f, "ff", (float *a, float *b), floatret(*a - *b)); ICOMMAND(=, "ii", (int *a, int *b), intret((int)(*a == *b))); ICOMMAND(!=, "ii", (int *a, int *b), intret((int)(*a != *b))); ICOMMAND(<, "ii", (int *a, int *b), intret((int)(*a < *b))); ICOMMAND(>, "ii", (int *a, int *b), intret((int)(*a > *b))); ICOMMAND(<=, "ii", (int *a, int *b), intret((int)(*a <= *b))); ICOMMAND(>=, "ii", (int *a, int *b), intret((int)(*a >= *b))); ICOMMAND(=f, "ff", (float *a, float *b), intret((int)(*a == *b))); ICOMMAND(!=f, "ff", (float *a, float *b), intret((int)(*a != *b))); ICOMMAND(f, "ff", (float *a, float *b), intret((int)(*a > *b))); ICOMMAND(<=f, "ff", (float *a, float *b), intret((int)(*a <= *b))); ICOMMAND(>=f, "ff", (float *a, float *b), intret((int)(*a >= *b))); ICOMMAND(^, "ii", (int *a, int *b), intret(*a ^ *b)); ICOMMAND(!, "i", (int *a), intret(*a == 0)); ICOMMAND(&, "ii", (int *a, int *b), intret(*a & *b)); ICOMMAND(|, "ii", (int *a, int *b), intret(*a | *b)); ICOMMAND(~, "i", (int *a), intret(~*a)); ICOMMAND(^~, "ii", (int *a, int *b), intret(*a ^ ~*b)); ICOMMAND(&~, "ii", (int *a, int *b), intret(*a & ~*b)); ICOMMAND(|~, "ii", (int *a, int *b), intret(*a | ~*b)); ICOMMAND(<<, "ii", (int *a, int *b), intret(*a << *b)); ICOMMAND(>>, "ii", (int *a, int *b), intret(*a >> *b)); ICOMMAND(&&, "V", (char **args, int *numargs), { int val = 1; loopi(*numargs) { val = execute(args[i]); if(!val) break; } intret(val); }); ICOMMAND(||, "V", (char **args, int *numargs), { int val = 0; loopi(*numargs) { val = execute(args[i]); if(val) break; } intret(val); }); ICOMMAND(div, "ii", (int *a, int *b), intret(*b ? *a / *b : 0)); ICOMMAND(mod, "ii", (int *a, int *b), intret(*b ? *a % *b : 0)); ICOMMAND(divf, "ff", (float *a, float *b), floatret(*b ? *a / *b : 0)); ICOMMAND(modf, "ff", (float *a, float *b), floatret(*b ? fmod(*a, *b) : 0)); ICOMMAND(sin, "f", (float *a), floatret(sin(*a*RAD))); ICOMMAND(cos, "f", (float *a), floatret(cos(*a*RAD))); ICOMMAND(tan, "f", (float *a), floatret(tan(*a*RAD))); ICOMMAND(asin, "f", (float *a), floatret(asin(*a)/RAD)); ICOMMAND(acos, "f", (float *a), floatret(acos(*a)/RAD)); ICOMMAND(atan, "f", (float *a), floatret(atan(*a)/RAD)); ICOMMAND(sqrt, "f", (float *a), floatret(sqrt(*a))); ICOMMAND(pow, "ff", (float *a, float *b), floatret(pow(*a, *b))); ICOMMAND(loge, "f", (float *a), floatret(log(*a))); ICOMMAND(log2, "f", (float *a), floatret(log(*a)/M_LN2)); ICOMMAND(log10, "f", (float *a), floatret(log10(*a))); ICOMMAND(exp, "f", (float *a), floatret(exp(*a))); ICOMMAND(min, "V", (char **args, int *numargs), { int val = *numargs > 0 ? parseint(args[*numargs - 1]) : 0; loopi(*numargs - 1) val = min(val, parseint(args[i])); intret(val); }); ICOMMAND(max, "V", (char **args, int *numargs), { int val = *numargs > 0 ? parseint(args[*numargs - 1]) : 0; loopi(*numargs - 1) val = max(val, parseint(args[i])); intret(val); }); ICOMMAND(minf, "V", (char **args, int *numargs), { float val = *numargs > 0 ? parsefloat(args[*numargs - 1]) : 0.0f; loopi(*numargs - 1) val = min(val, parsefloat(args[i])); floatret(val); }); ICOMMAND(maxf, "V", (char **args, int *numargs), { float val = *numargs > 0 ? parsefloat(args[*numargs - 1]) : 0.0f; loopi(*numargs - 1) val = max(val, parsefloat(args[i])); floatret(val); }); ICOMMAND(cond, "V", (char **args, int *numargs), { for(int i = 0; i < *numargs; i += 2) { if(execute(args[i])) { if(i+1 < *numargs) commandret = executeret(args[i+1]); break; } } }); #define CASECOMMAND(name, fmt, type, compare) \ ICOMMAND(name, fmt "V", (type *val, char **args, int *numargs), \ { \ int i; \ for(i = 1; i+1 < *numargs; i += 2) \ { \ if(compare) \ { \ commandret = executeret(args[i+1]); \ return; \ } \ } \ if(i < *numargs) commandret = executeret(args[i]); \ }) CASECOMMAND(case, "i", int, parseint(args[i]) == *val); CASECOMMAND(casef, "f", float, parsefloat(args[i]) == *val); CASECOMMAND(cases, "s", char, !strcmp(args[i], val)); ICOMMAND(rnd, "ii", (int *a, int *b), intret(*a - *b > 0 ? rnd(*a - *b) + *b : *b)); ICOMMAND(strcmp, "ss", (char *a, char *b), intret(strcmp(a,b)==0)); ICOMMAND(=s, "ss", (char *a, char *b), intret(strcmp(a,b)==0)); ICOMMAND(!=s, "ss", (char *a, char *b), intret(strcmp(a,b)!=0)); ICOMMAND(s, "ss", (char *a, char *b), intret(strcmp(a,b)>0)); ICOMMAND(<=s, "ss", (char *a, char *b), intret(strcmp(a,b)<=0)); ICOMMAND(>=s, "ss", (char *a, char *b), intret(strcmp(a,b)>=0)); ICOMMAND(echo, "C", (char *s), conoutf("%s", s)); ICOMMAND(error, "C", (char *s), conoutf(CON_ERROR, s)); ICOMMAND(strstr, "ss", (char *a, char *b), { char *s = strstr(a, b); intret(s ? s-a : -1); }); ICOMMAND(strlen, "s", (char *s), intret(strlen(s))); char *strreplace(const char *s, const char *oldval, const char *newval) { vector buf; int oldlen = strlen(oldval); if(!oldlen) return newstring(s); for(;;) { const char *found = strstr(s, oldval); if(found) { while(s < found) buf.add(*s++); for(const char *n = newval; *n; n++) buf.add(*n); s = found + oldlen; } else { while(*s) buf.add(*s++); buf.add('\0'); return newstring(buf.getbuf(), buf.length()); } } } ICOMMAND(strreplace, "sss", (char *s, char *o, char *n), commandret = strreplace(s, o, n)); #ifndef STANDALONE ICOMMAND(getmillis, "i", (int *total), intret(*total ? totalmillis : lastmillis)); struct sleepcmd { int delay, millis; char *command; bool override, persist; }; vector sleepcmds; void addsleep(int *msec, char *cmd) { sleepcmd &s = sleepcmds.add(); s.delay = max(*msec, 1); s.millis = lastmillis; s.command = newstring(cmd); s.override = overrideidents; s.persist = persistidents; } COMMANDN(sleep, addsleep, "is"); void checksleep(int millis) { loopv(sleepcmds) { sleepcmd &s = sleepcmds[i]; if(millis - s.millis >= s.delay) { char *cmd = s.command; // execute might create more sleep commands s.command = NULL; bool waspersisting = persistidents, wasoverriding = overrideidents; persistidents = s.persist; overrideidents = s.override; execute(cmd); persistidents = waspersisting; overrideidents = wasoverriding; delete[] cmd; if(sleepcmds.inrange(i) && !sleepcmds[i].command) sleepcmds.remove(i--); } } } void clearsleep(bool clearoverrides) { int len = 0; loopv(sleepcmds) if(sleepcmds[i].command) { if(clearoverrides && !sleepcmds[i].override) sleepcmds[len++] = sleepcmds[i]; else delete[] sleepcmds[i].command; } sleepcmds.shrink(len); } void clearsleep_(int *clearoverrides) { clearsleep(*clearoverrides!=0 || overrideidents); } COMMANDN(clearsleep, clearsleep_, "i"); #endif // XXX Emscripten: console.cpp struct cline { char *line; int type, outtime; }; vector conlines; int commandmillis = -1; string commandbuf; char *commandaction = NULL, *commandprompt = NULL; int commandpos = -1; int totalmillis = -1; // XXX Emscripten VARFP(maxcon, 10, 200, 1000, { while(conlines.length() > maxcon) delete[] conlines.pop().line; }); #define CONSTRLEN 512 void conline(int type, const char *sf) // add a line to the console buffer { cline cl; cl.line = conlines.length()>maxcon ? conlines.pop().line : newstring("", CONSTRLEN-1); // constrain the buffer size cl.type = type; cl.outtime = totalmillis; // for how long to keep line on screen conlines.insert(0, cl); copystring(cl.line, sf, CONSTRLEN); } void conoutfv(int type, const char *fmt, va_list args) { static char buf[CONSTRLEN]; vformatstring(buf, fmt, args, ES_SIZEOF(char)*CONSTRLEN); // XXX Emscripten conline(type, buf); //filtertext(buf, buf); // XXX Emscripten puts(buf); } void conoutf(const char *fmt, ...) { va_list args; va_start(args, fmt); conoutfv(CON_INFO, fmt, args); va_end(args); } void conoutf(int type, const char *fmt, ...) { va_list args; va_start(args, fmt); conoutfv(type, fmt, args); va_end(args); } // XXX ======================================= // XXX Emscripten: tools.cpp #define N (624) #define M (397) #define K (0x9908B0DFU) #define hiBit(u) ((u) & 0x80000000U) #define loBit(u) ((u) & 0x00000001U) #define loBits(u) ((u) & 0x7FFFFFFFU) #define mixBits(u, v) (hiBit(u)|loBits(v)) static uint state[N+1]; static uint *next; static int left = -1; void seedMT(uint seed) { register uint x = (seed | 1U) & 0xFFFFFFFFU, *s = state; register int j; for(left=0, *s++=x, j=N; --j; *s++ = (x*=69069U) & 0xFFFFFFFFU); } uint reloadMT(void) { register uint *p0=state, *p2=state+2, *pM=state+M, s0, s1; register int j; if(left < -1) seedMT(time(NULL)); left=N-1, next=state+1; for(s0=state[0], s1=state[1], j=N-M+1; --j; s0=s1, s1=*p2++) *p0++ = *pM++ ^ (mixBits(s0, s1) >> 1) ^ (loBit(s1) ? K : 0U); for(pM=state, j=M; --j; s0=s1, s1=*p2++) *p0++ = *pM++ ^ (mixBits(s0, s1) >> 1) ^ (loBit(s1) ? K : 0U); s1=state[0], *p0 = *pM ^ (mixBits(s0, s1) >> 1) ^ (loBit(s1) ? K : 0U); s1 ^= (s1 >> 11); s1 ^= (s1 << 7) & 0x9D2C5680U; s1 ^= (s1 << 15) & 0xEFC60000U; return(s1 ^ (s1 >> 18)); } uint randomMT(void) { uint y; if(--left < 0) return(reloadMT()); y = *next++; y ^= (y >> 11); y ^= (y << 7) & 0x9D2C5680U; y ^= (y << 15) & 0xEFC60000U; return(y ^ (y >> 18)); } // XXX ============================================== // XXX Emscripten: main.cpp void fatal(const char *s, ...) // failure exit { static int errors = 0; errors++; if(errors <= 2) // print up to one extra recursive error { defvformatstring(msg,s,s); puts(msg); } exit(EXIT_FAILURE); } VARP(somevar, 0, 0, 1024); int main() { printf("*\n"); execute("somevar 9"); execute("temp = (+ 22 $somevar)"); execute("if (> $temp 30) [ temp = (+ $temp 1) ] [ temp = (* $temp 2) ]"); execute("if (< $temp 30) [ temp = 0 ] [ temp = (+ $temp 1) ]"); execute("echo [Temp is] $temp"); printf("%d\n", getvar("somevar")); execute("x = 2"); execute("push x 5"); execute("push x 11"); execute("pop x"); execute("echo $x"); execute("greet = [ echo hello, $arg1 ]"); execute("greet everyone"); printf("*\n"); return 0; } // XXX ===============================