// This file is a part of Framsticks SDK. http://www.framsticks.com/ // Copyright (C) 1999-2022 Maciej Komosinski and Szymon Ulatowski. // See LICENSE.txt for details. #include #include #include "param.h" #include #include "common/log.h" #include #include #ifdef _DEBUG //for sanityCheck - mutable param detection #include "mutparamiface.h" #endif //#define SAVE_ALL_NAMES #define SAVE_SELECTED_NAMES #define WARN_MISSING_NAME char MakeCodeGuardHappy; ParamEntry empty_paramtab[] = { { "Empty", 1, 0, "Empty", }, { 0, 0, 0, }, }; /** return: true if tilde was found, false if finished at EOF */ static bool readUntilTilde(VirtFILE *f, SString &s) { SString temp; int z; char last_char = 0; bool tilde_found = false; while ((z = f->Vgetc()) != EOF) { if (z == '~') if (last_char != '\\') { tilde_found = true; break; } last_char = (char)z; temp += last_char; } s = temp; return tilde_found; } static const char *strchrlimit(const char *t, int ch, const char *limit) { if (limit < t) return NULL; return (const char*)memchr((const void*)t, ch, limit - t); } Param2ParamCopy::Param2ParamCopy(ParamInterface& schema, const std::initializer_list names) { for (const char* n : names) { int i = schema.findId(n); if (i >= 0) fields.push_back(i); else logPrintf("Param2ParamCopy", "findId", LOG_CRITICAL, "Can't find '%s.%s'", schema.getName(), n); } } void Param2ParamCopy::operator()(const ParamInterface& from, ParamInterface& to) { ExtValue tmp; for (int i : fields) { ((ParamInterface&)from).get(i, tmp); to.set(i, tmp); } } void ParamInterface::copyFrom(ParamInterface *src) { int n = getPropCount(); ExtValue v; int j; for (int i = 0; i < n; i++) if ((!(flags(i) & PARAM_READONLY)) && (*type(i) != 'p')) { j = src->findId(id(i)); if (j < 0) continue; src->get(j, v); set(i, v); } } void ParamInterface::quickCopyFrom(ParamInterface *src) { int n = getPropCount(); ExtValue v; for (int i = 0; i < n; i++) if ((!(flags(i) & PARAM_READONLY)) && (*type(i) != 'p')) { src->get(i, v); set(i, v); } } int ParamInterface::getMinMaxInt(int prop, paInt& minumum, paInt& maximum, paInt &def) { return getMinMaxIntFromTypeDef(type(prop), minumum, maximum, def); } int ParamInterface::getMinMaxDouble(int prop, double& minumum, double& maximum, double& def) { return getMinMaxDoubleFromTypeDef(type(prop), minumum, maximum, def); } int ParamInterface::getMinMaxString(int prop, int& minumum, int& maximum, SString& def) { return getMinMaxStringFromTypeDef(type(prop), minumum, maximum, def); } int ParamInterface::getMinMaxIntFromTypeDef(const char* t, paInt& minumum, paInt& maximum, paInt &def) { while (*t) if (*t == ' ') break; else t++; return sscanf(t, PA_INT_SCANF " " PA_INT_SCANF " " PA_INT_SCANF, &minumum, &maximum, &def); } int ParamInterface::getMinMaxDoubleFromTypeDef(const char* t, double& minumum, double& maximum, double& def) { while (*t) if (*t == ' ') break; else t++; return sscanf(t, "%lg %lg %lg", &minumum, &maximum, &def); } int ParamInterface::getMinMaxStringFromTypeDef(const char* t, int& minumum, int& maximum, SString& def) { while (*t) if (*t == ' ') break; else t++; int ret = sscanf(t, "%d %d", &minumum, &maximum); def = SString::empty(); if (ret == 2) { while (*t == ' ') t++; for (int skip_fields = 2; skip_fields > 0; skip_fields--) { while (*t) if (*t == ' ') break; else t++; while (*t == ' ') t++; } if (*t) { const char* end = strchr(t, '~'); if (!end) end = t + strlen(t); while ((end > t) && (end[-1] == ' ')) end--; def = SString(t, end - t); } return 3; } else return ret; } void ParamInterface::setDefault() { for (int i = 0; i < getPropCount(); i++) setDefault(i); } void ParamInterface::setMin() { for (int i = 0; i < getPropCount(); i++) setMin(i); } void ParamInterface::setMax() { for (int i = 0; i < getPropCount(); i++) setMax(i); } void ParamInterface::setDefault(int i) { const char *t = type(i); switch (*t) { case 'f': { double mn = 0, mx = 0, def = 0; if (getMinMaxDoubleFromTypeDef(t, mn, mx, def) < 3) def = mn; setDouble(i, def); } break; case 'd': { paInt mn = 0, mx = 0, def = 0; if (getMinMaxIntFromTypeDef(t, mn, mx, def) < 3) def = mn; setInt(i, def); } break; case 's': case 'x': { int mn, mx; SString def; getMinMaxStringFromTypeDef(t, mn, mx, def); if (*t == 's') setString(i, def); else { if (def.length() > 0) setExtValue(i, ExtValue(def)); else setExtValue(i, ExtValue::empty()); } } break; case 'o': setObject(i, ExtObject::empty()); break; } } void ParamInterface::setMin(int i) { const char *t = type(i); switch (*t) { case 'f': { double mn = 0, mx = 0, def = 0; getMinMaxDoubleFromTypeDef(t, mn, mx, def); setDouble(i, mn); } break; case 'd': { paInt mn = 0, mx = 0, def = 0; getMinMaxIntFromTypeDef(t, mn, mx, def); setInt(i, mn); } break; default: setFromString(i, "", false); } } void ParamInterface::setMax(int i) { const char *t = type(i); switch (*t) { case 'f': { double mn = 0, mx = 0, def = 0; getMinMaxDoubleFromTypeDef(t, mn, mx, def); setDouble(i, mx); } break; case 'd': { paInt mn = 0, mx = 0, def = 0; getMinMaxIntFromTypeDef(t, mn, mx, def); setInt(i, mx); } break; default: setFromString(i, "", false); } } SString ParamInterface::getStringById(const char*prop) { int i = findId(prop); if (i >= 0) return getString(i); else return SString(); } paInt ParamInterface::getIntById(const char*prop) { int i = findId(prop); if (i >= 0) return getInt(i); else return 0; } double ParamInterface::getDoubleById(const char*prop) { int i = findId(prop); if (i >= 0) return getDouble(i); else return 0; } ExtObject ParamInterface::getObjectById(const char*prop) { int i = findId(prop); if (i >= 0) return getObject(i); else return ExtObject(); } ExtValue ParamInterface::getExtValueById(const char*prop) { int i = findId(prop); if (i >= 0) return getExtValue(i); else return ExtValue(); } int ParamInterface::setIntById(const char* prop, paInt v) { int i = findId(prop); if (i >= 0) return setInt(i, v); else return PSET_NOPROPERTY; } int ParamInterface::setDoubleById(const char* prop, double v) { int i = findId(prop); if (i >= 0) return setDouble(i, v); else return PSET_NOPROPERTY; } int ParamInterface::setStringById(const char* prop, const SString &v) { int i = findId(prop); if (i >= 0) return setString(i, v); else return PSET_NOPROPERTY; } int ParamInterface::setObjectById(const char* prop, const ExtObject &v) { int i = findId(prop); if (i >= 0) return setObject(i, v); else return PSET_NOPROPERTY; } int ParamInterface::setExtValueById(const char* prop, const ExtValue &v) { int i = findId(prop); if (i >= 0) return setExtValue(i, v); else return PSET_NOPROPERTY; } int ParamInterface::setById(const char* prop, const ExtValue &v) { int i = findId(prop); if (i >= 0) return set(i, v); else return PSET_NOPROPERTY; } int ParamInterface::saveMultiLine(VirtFILE* f, const char* altname, bool force) { const char *p; SString ws; int err = 0, i; bool withname = false; if ((altname == NULL) || (altname[0] != 0)) { err |= (f->Vputs(altname ? altname : getName()) == EOF); err |= (f->Vputs(":\n") == EOF); withname = true; } for (i = 0; p = id(i); i++) err |= saveprop(f, i, p, force); if (withname) err |= (f->Vputs("\n") == EOF); return err; } const char* ParamInterface::SERIALIZATION_PREFIX = "@Serialized:"; int ParamInterface::saveprop(VirtFILE* f, int i, const char* p, bool force) { if ((flags(i) & PARAM_DONTSAVE) && (!force)) return 0; const char *typ = type(i); if (*typ == 'p') return 0; const char *t, *w; SString ws; int err = 0, cr; err |= (f->Vputs(p) == EOF); f->Vputc(':'); cr = 0; if ((*typ == 'x') || (*typ == 'o')) { ExtValue ex; get(i, ex); ws = SString(SERIALIZATION_PREFIX) + ex.serialize(NativeSerialization); } else ws = get(i); quoteTilde(ws); w = ws.c_str(); if (ws.length() > 50) cr = 1; else for (t = w; *t; t++) if ((*t == 10) || (*t == 13)) { cr = 1; break; } if (cr) f->Vputs("~\n"); err |= (f->Vputs(w) == EOF); err |= (f->Vputs(cr ? "~\n" : "\n") == EOF); return err; } SString ParamInterface::nameDotProperty(int prop) { SString ret = getName(); if (ret.size()>0) //name might be unavailable, happened in GenMan sub-Params ret += "."; ret += id(prop); return ret; } SString ParamInterface::nameDotPropertyForMessages(int prop) { SString name_dot_prop = nameDotProperty(prop); if (getName()==NULL || getLongName()==NULL) //name/longname might be unavailable, happened in GenMan sub-Params return name_dot_prop; if (strcmp(getName(), getLongName()) == 0) { if (strcmp(id(prop), name(prop)) == 0) return name_dot_prop; else return SString("'") + name(prop) + "': " + name_dot_prop; } else return SString("'") + name(prop) + "' in '" + getLongName() + "': " + name_dot_prop; } int SimpleAbstractParam::isequal(int i, void* defdata) { // defdata->member == object->member ? void *backup = object; switch (type(i)[0]) { case 'd': { select(defdata); paInt x = getInt(i); select(backup); return x == getInt(i); } case 'f': { select(defdata); double x = getDouble(i); select(backup); return x == getDouble(i); } case 's': { select(defdata); SString x = getString(i); select(backup); return x == getString(i); } } return 1; } void SimpleAbstractParam::saveSingleLine(SString& f, void *defdata, bool addcr, bool all_names) { // defdata!=NULL -> does not save default values const char *p; int i; int needlabel = 0; int first = 1; SString val; SString t; int fl; // t+=SString(getName()); t+=':'; for (i = 0; p = id(i); i++) if ((!((fl = flags(i)) & PARAM_DONTSAVE)) && type(i)[0]!='p') { if (defdata && isequal(i, defdata)) needlabel = 1; else { if (!first) t += ", "; #ifndef SAVE_ALL_NAMES #ifdef SAVE_SELECTED_NAMES if (needlabel || all_names || !(fl & PARAM_CANOMITNAME)) #else if (needlabel) #endif #endif { t += p; t += "="; needlabel = 0; } if (type(i)[0] == 's') { // string - special case SString str = getString(i); if (strContainsOneOf(str.c_str(), ", \\\n\r\t\"")) { t += "\""; sstringQuote(str); t += str; t += "\""; } else t += str; } else t += get(i); first = 0; } } if (addcr) t += "\n"; f += t; } static void closingTildeError(ParamInterface *pi, VirtFILE *file, int field_index) { SString fileinfo; const char* fname = file->VgetPath(); if (fname != NULL) fileinfo = SString::sprintf(" while reading from '%s'", fname); SString field; if (field_index >= 0) field = pi->nameDotPropertyForMessages(field_index); else field = SString::sprintf("unknown property of '%s'", pi->getName()); logPrintf("ParamInterface", "load", LOG_WARN, "Closing '~' (tilde) not found in %s%s", field.c_str(), fileinfo.c_str()); } template void messageOnExceedRange(SimpleAbstractParam *pi, int i, int setflags, T valuetoset) ///< prints a warning when setflags indicates that allowed param range has been exceeded during set { if (setflags & (PSET_HITMIN | PSET_HITMAX)) { ExtValue v(valuetoset); pi->messageOnExceedRange(i, setflags, v); } } void SimpleAbstractParam::messageOnExceedRange(int i, int setflags, ExtValue& valuetoset) ///< prints a warning when setflags indicates that allowed param range has been exceeded during set { if (setflags & (PSET_HITMIN | PSET_HITMAX)) { SString svaluetoset = valuetoset.getString(); //converts any type to SString SString actual = get(i); bool s_type = type(i)[0] == 's'; bool show_length = valuetoset.getType() == TString; const char* quote = (valuetoset.getType() == TString) ? "\"" : "'"; logPrintf("Param", "set", LOG_WARN, "Setting %s = %s exceeded allowed range (too %s). %s to %s.", nameDotPropertyForMessages(i).c_str(), ::sstringDelimitAndShorten(svaluetoset, 30, show_length, quote, quote).c_str(), (setflags & PSET_HITMAX) ? (s_type ? "long" : "big") : "small", s_type ? "Truncated" : "Adjusted", ::sstringDelimitAndShorten(actual, 30, show_length, quote, quote).c_str() ); } } int ParamInterface::load(FileFormat format, VirtFILE* f, LoadOptions *options) { LoadOptions default_options; if (options == NULL) options = &default_options; switch (format) { case FormatMultiLine: return loadMultiLine(f, *options); case FormatSingleLine: { StringFILE *sf = dynamic_cast(f); SString s; if (sf) { s = sf->getString().c_str(); options->offset += sf->Vtell(); } else { if (!loadSStringLine(f, s)) return -1; } return loadSingleLine(s, *options); } } return -1; } int ParamInterface::load(FileFormat format, const SString &s, LoadOptions *options) { LoadOptions default_options; if (options == NULL) options = &default_options; switch (format) { case FormatMultiLine: { string std_string(s.c_str()); StringFILE f(std_string); return loadMultiLine(&f, *options); } case FormatSingleLine: return loadSingleLine(s, *options); } return -1; } int ParamInterface::loadMultiLine(VirtFILE* f, LoadOptions &options) { SString buf; int i; const char *p, *p0; int p_len; bool loaded; int fields_loaded = 0; int unexpected_line = 0; vector seen; seen.resize(getPropCount()); if ((i = findId("beforeLoad")) >= 0) call(i, NULL, NULL); while (((!options.abortable) || (!*options.abortable)) && loadSStringLine(f, buf)) { if (options.linenum) (*options.linenum)++; const char* t = buf.c_str(); p0 = t; while (isblank(*p0)) p0++; if (!*p0) break; if (p0[0] == '#') { unexpected_line = 0; continue; } p = strchr(p0, ':'); if (!p) { switch (unexpected_line) { case 0: logPrintf("ParamInterface", "load", LOG_WARN, "Ignored unexpected line %s while reading object '%s'", options.linenum ? SString::sprintf("%d", *options.linenum).c_str() : SString::sprintf("'%s'", p0).c_str(), getName()); break; case 1: logPrintf("ParamInterface", "load", LOG_WARN, "The following line(s) were also unexpected and were ignored"); break; } unexpected_line++; continue; } unexpected_line = 0; p_len = (int)(p - p0); loaded = false; if (p_len && ((i = findIdn(p0, p_len)) >= 0)) { if (seen[i]) { SString fileinfo; const char* fname = f->VgetPath(); if (fname != NULL) { fileinfo = SString::sprintf(" while reading from '%s'", fname); if (options.linenum) fileinfo += SString::sprintf(" (line %d)", *options.linenum); } logPrintf("ParamInterface", "load", LOG_WARN, "Multiple '%s.%s' properties found%s", getName(), id(i), fileinfo.c_str()); } else seen[i] = true; if (!(flags(i) & PARAM_DONTLOAD)) { if (p0[p_len + 1] == '~') { SString s; if (!readUntilTilde(f, s)) closingTildeError(this, f, i); int lfcount = 1; const char* tmp = s.c_str(); while (tmp) if ((tmp = strchr(tmp, '\n'))) { lfcount++; tmp++; } removeCR(s); int ch; while ((ch = f->Vgetc()) != EOF) if (ch == '\n') break; unquoteTilde(s); if (options.linenum && (flags(i) & PARAM_LINECOMMENT)) s = SString::sprintf("@file %s\n@line %d\n", f->VgetPath(), *options.linenum + 1) + s; setFromString(i, s.c_str(), false); if (options.linenum) (*options.linenum) += lfcount; } else { SString s = SString(p0 + p_len + 1); unquoteTilde(s); setFromString(i, s.c_str(), false); } fields_loaded++; loaded = true; } } else if (options.warn_unknown_fields) { SString name(p0, p_len); logPrintf("ParamInterface", "load", LOG_WARN, "Ignored unknown property '%s.%s'", getName(), name.c_str()); } if ((!loaded) && (p0[p_len + 1] == '~')) { // eat unrecognized multiline field SString s; if (!readUntilTilde(f, s)) closingTildeError(this, f, -1); if (options.linenum) { const char* tmp = s.c_str(); int lfcount = 1; while (tmp) if ((tmp = strchr(tmp, '\n'))) { lfcount++; tmp++; } (*options.linenum) += lfcount; } int ch; while ((ch = f->Vgetc()) != EOF) if (ch == '\n') break; } } if ((i = findId("afterLoad")) >= 0) call(i, NULL, NULL); return fields_loaded; } /* SString SimpleAbstractParam::getString(int i) { char *t; switch (*(t=type(i))) { case 'd': { for (i=atol(get(i));i>=0;i--) if (t) t=strchr(t+1,'~'); if (t) { t++; char *t2=strchr(t,'~'); if (!t2) t2=t+strlen(t); SString str; strncpy(str.directWrite(t2-t),t,t2-t); str.endWrite(t2-t); return str; } } } return get(i); } */ int ParamInterface::findId(const char* n) { int i; const char *p; for (i = 0; p = id(i); i++) if (!strcmp(n, p)) return i; return -1; } int ParamInterface::findIdn(const char* naz, int n) { int i; const char *p; for (i = 0; p = id(i); i++) if ((!strncmp(naz, p, n)) && (!p[n])) return i; return -1; } int ParamInterface::findGroupId(const char* name) { for(int i=0;i= 3) return setInt(i, def) | PSET_PARSEFAILED; else return setInt(i, (paInt)0) | PSET_PARSEFAILED; } else return setInt(i, value); } int ParamInterface::setDoubleFromString(int i, const char* str) { double value; if (!ExtValue::parseDouble(str, value, true)) { double mn, mx, def; if (getMinMaxDouble(i, mn, mx, def) >= 3) return setDouble(i, def) | PSET_PARSEFAILED; else return setDouble(i, (double)0) | PSET_PARSEFAILED; } else return setDouble(i, value); } int ParamInterface::set(int i, const ExtValue &v) { switch (type(i)[0]) { case 'd': if ((v.type == TInt) || (v.type == TDouble)) return setInt(i, v.getInt()); else { if (v.type == TObj) { logPrintf("ParamInterface", "set", LOG_ERROR, "Setting int %s from object reference (%s)", nameDotPropertyForMessages(i).c_str(), v.getString().c_str()); return 0; } else return setIntFromString(i, v.getString().c_str(), false); } case 'f': if ((v.type == TInt) || (v.type == TDouble)) return setDouble(i, v.getDouble()); else { if (v.type == TObj) { logPrintf("ParamInterface", "set", LOG_ERROR, "Setting float %s from object reference (%s)", nameDotPropertyForMessages(i).c_str(), v.getString().c_str()); return 0; } else return setDoubleFromString(i, v.getString().c_str()); } case 's': { SString t = v.getString(); return setString(i, t); } case 'o': if ((v.type != TUnknown) && (v.type != TObj)) logPrintf("ParamInterface", "set", LOG_ERROR, "Setting object %s from %s", nameDotPropertyForMessages(i).c_str(), v.typeAndValue().c_str()); else return setObject(i, v.getObject()); break; case 'x': return setExtValue(i, v); default: logPrintf("ParamInterface", "set", LOG_ERROR, "%s is not a property", nameDotPropertyForMessages(i).c_str()); } return 0; } int ParamInterface::setFromString(int i, const char *v, bool strict) { char typ = type(i)[0]; switch (typ) { case 'd': return setIntFromString(i, v, strict); case 'f': return setDoubleFromString(i, v); case 's': { SString t(v); return setString(i, t); } case 'x': case 'o': { ExtValue e; const char* after; if (!strncmp(v, SERIALIZATION_PREFIX, strlen(SERIALIZATION_PREFIX))) { after = e.deserialize(v + strlen(SERIALIZATION_PREFIX)); if ((after == NULL) || (*after)) { logPrintf("ParamInterface", "set", LOG_ERROR, "serialization format mismatch in %s.%s", (getName() ? getName() : ""), id(i)); e.setEmpty(); } } else if ((after = e.parseNumber(v)) && (*after == 0)) //consumed the whole string { //OK! } else { e.setString(SString(v)); } if (typ == 'x') return setExtValue(i, e); else return setObject(i, e.getObject()); } } return 0; } SString ParamInterface::getText(int i) //find the current enum text or call get(i) if not enum { const char *t; if (((*(t = type(i))) == 'd') && (strchr(t, '~') != NULL)) //type is int and contains enum labels { paInt mn, mx, def; int value = getInt(i); if (getMinMaxIntFromTypeDef(t, mn, mx, def) >= 2) { if (value > mx) return get(i);//unexpected value of out bounds (should never happen) -> fallback value -= mn; } if (value < 0) return get(i); //unexpected value of out bounds (should never happen) -> fallback // now value is 0-based index of ~text for (; value >= 0; value--) if (t) t = strchr(t + 1, '~'); else break; if (t) // found n-th ~text in type description (else: not enough ~texts in type description) { t++; const char *t2 = strchr(t, '~'); if (!t2) t2 = t + strlen(t); return SString(t, (int)(t2 - t)); } } return get(i); //fallback - return int value as string } SString ParamInterface::get(int i) { switch (type(i)[0]) { case 'd': return SString::valueOf(getInt(i)); case 'f': return SString::valueOf(getDouble(i)); case 's': return getString(i); } ExtValue v; get(i, v); return v.getString(); } bool ParamInterface::isValidTypeDescription(const char* t) { if (t == NULL) return false; if (*t == 0) return false; if (strchr("dfsoxp", *t) == NULL) return false; switch (*t) { case 'd': { paInt a, b, c; int have = getMinMaxIntFromTypeDef(t, a, b, c); if (have == 1) return false; if ((have >= 2) && (b < a) && (a != 0) && (b != -1)) return false; // max= 2) && (b < a) && (a != 0) && (b != -1)) return false; // max= 1) && (!((a == 0) || (a == 1)))) return false; // 'min' for string (single/multi) can be only 0 or 1 if ((have >= 2) && (b < -1)) return false; // max=-1 means unlimited, >=0 is max len, max<-1 is not allowed } break; } return true; } SString ParamInterface::friendlyTypeDescrFromTypeDef(const char* type) { SString t; switch (type[0]) { case 'd': t += "integer"; {paInt a, b, c; int n = getMinMaxIntFromTypeDef(type, a, b, c); if ((n >= 2) && (b >= a)) t += SString::sprintf(" %d..%d", a, b); if (n >= 3) t += SString::sprintf(" (default %d)", c); } break; case 'f': t += "float"; {double a, b, c; int n = getMinMaxDoubleFromTypeDef(type, a, b, c); if ((n >= 2) && (b >= a)) t += SString::sprintf(" %g..%g", a, b); if (n >= 3) t += SString::sprintf(" (default %g)", c); } break; case 's': t += "string"; {int a, b; SString c; int n = getMinMaxStringFromTypeDef(type, a, b, c); if ((n >= 2) && (b > 0)) t += SString::sprintf(", max %d chars", b); if (n >= 3) t += SString::sprintf(" (default \"%s\")", c.c_str()); } break; case 'x': t += "untyped value"; break; case 'p': t += "function"; break; case 'o': t += "object"; if (type[1]) { t += " of class "; t += type + 1; } break; default: return "unknown type"; } return t; } //////////////////////////////// PARAM //////////////////////////////////// #ifdef _DEBUG void SimpleAbstractParam::sanityCheck(int i) { ParamEntry *pe = entry(i); const char* t = pe->type; const char* err = NULL; if (!isValidTypeDescription(t)) err = "invalid type description"; if (*t == 'p') { if (pe->fun1 == NULL) { MutableParamInterface *mpi = dynamic_cast(this); if (mpi == NULL) // Avoid false positives for script-driven mutable params, like expdefs. This can't be reliably verified. Function pointer checking is meant for static param tables anyway so it's probably not a big deal. err = "no procedure defined"; } } else { if ((t[0] == 'o') && (t[1] == ' ')) { err = "space after 'o'"; } if (!(pe->flags & (PARAM_READONLY | PARAM_DONTSAVE | PARAM_USERREADONLY | PARAM_CONST | PARAM_DONTLOAD | PARAM_LINECOMMENT | PARAM_OBJECTSET))) { //write access if ((pe->fun2 == NULL) && (pe->offset == PARAM_ILLEGAL_OFFSET)) err = "no field defined (GETONLY without PARAM_READONLY?)"; } } if (err != NULL) logPrintf("SimpleAbstractParam", "sanityCheck", LOG_ERROR, "Invalid ParamEntry for %s (%s)", nameDotPropertyForMessages(i).c_str(), err); } #endif void *SimpleAbstractParam::getTarget(int i) { return (void*)(((char*)object) + entry(i)->offset); //return &(object->*(entry(i)->fldptr)); } ///////// get #ifdef _DEBUG #define SANITY_CHECK(i) sanityCheck(i) #else #define SANITY_CHECK(i) #endif paInt SimpleAbstractParam::getInt(int i) { SANITY_CHECK(i); ExtValue v; ParamEntry *pe = entry(i); if (pe->fun1) { (*(void(*)(void*, ExtValue*))pe->fun1)(object, &v); return v.getInt(); } else { void *target = getTarget(i); return *((paInt*)target); } } double SimpleAbstractParam::getDouble(int i) { SANITY_CHECK(i); ExtValue v; ParamEntry *pe = entry(i); if (pe->fun1) { (*(void(*)(void*, ExtValue*))pe->fun1)(object, &v); return v.getDouble(); } else { void *target = getTarget(i); return *((double*)target); } } SString SimpleAbstractParam::getString(int i) { SANITY_CHECK(i); ExtValue v; ParamEntry *pe = entry(i); if (pe->fun1) { (*(void(*)(void*, ExtValue*))pe->fun1)(object, &v); return v.getString(); } else { void *target = getTarget(i); return *((SString*)target); } } ExtObject SimpleAbstractParam::getObject(int i) { SANITY_CHECK(i); ExtValue v; ParamEntry *pe = entry(i); if (pe->fun1) { (*(void(*)(void*, ExtValue*))pe->fun1)(object, &v); return v.getObject(); } else { void *target = getTarget(i); return *((ExtObject*)target); } } ExtValue SimpleAbstractParam::getExtValue(int i) { SANITY_CHECK(i); ExtValue v; ParamEntry *pe = entry(i); if (pe->fun1) { (*(void(*)(void*, ExtValue*))pe->fun1)(object, &v); return v; } else { void *target = getTarget(i); return *((ExtValue*)target); } } //////// set int SimpleAbstractParam::setInt(int i, paInt x) { SANITY_CHECK(i); ExtValue v; ParamEntry *pe = entry(i); if (pe->flags & PARAM_READONLY) return PSET_RONLY; paInt xcopy = x; //only needed for messageOnExceedRange(): retain original, requested value of x because it may be changed below paInt mn = 0, mx = 0, de = 0; int result = 0; if (getMinMaxIntFromTypeDef(pe->type, mn, mx, de) >= 2) if (mn <= mx) // else if mn>mx then the min/max constraint makes no sense and there is no checking { if (x < mn) { x = mn; result = PSET_HITMIN; } else if (x > mx) { x = mx; result = PSET_HITMAX; } } if (pe->fun2) { v.setInt(x); result |= (*(int(*)(void*, const ExtValue*))pe->fun2)(object, &v); } else { void *target = getTarget(i); if (dontcheckchanges || (*((paInt*)target) != x)) { result |= PSET_CHANGED; *((paInt*)target) = x; } } ::messageOnExceedRange(this, i, result, xcopy); return result; } int SimpleAbstractParam::setDouble(int i, double x) { SANITY_CHECK(i); ExtValue v; ParamEntry *pe = entry(i); if (pe->flags & PARAM_READONLY) return PSET_RONLY; double xcopy = x; //only needed for messageOnExceedRange(): retain original, requested value of x because it may be changed below double mn = 0, mx = 0, de = 0; int result = 0; if (getMinMaxDoubleFromTypeDef(pe->type, mn, mx, de) >= 2) if (mn <= mx) // else if mn>mx then the min/max constraint makes no sense and there is no checking { if (x < mn) { x = mn; result = PSET_HITMIN; } else if (x > mx) { x = mx; result = PSET_HITMAX; } } if (pe->fun2) { v.setDouble(x); result |= (*(int(*)(void*, const ExtValue*))pe->fun2)(object, &v); } else { void *target = getTarget(i); if (dontcheckchanges || (*((double*)target) != x)) { result |= PSET_CHANGED; *((double*)target) = x; } } ::messageOnExceedRange(this, i, result, xcopy); return result; } int SimpleAbstractParam::setString(int i, const SString& x) { SANITY_CHECK(i); ExtValue v; SString vs; const SString *xx = &x; ParamEntry *pe = entry(i); if (pe->flags & PARAM_READONLY) return PSET_RONLY; SString xcopy = x; //only needed for messageOnExceedRange(): retain original, requested value of x because it may be changed below const char* t = pe->type + 1; while (*t) if (*t == ' ') break; else t++; int mn = 0, mx = 0; int result = 0; if (sscanf(t, "%d %d", &mn, &mx) == 2) //using getMinMax would also get default value, which is not needed here { if ((x.length() > mx) && (mx >= 0)) { vs = x.substr(0, mx); xx = &vs; result |= PSET_HITMAX; } } if (pe->fun2) { v.setString(*xx); result |= (*(int(*)(void*, const ExtValue*))pe->fun2)(object, &v); } else { void *target = getTarget(i); if (dontcheckchanges || (!(*((SString*)target) == *xx))) { result |= PSET_CHANGED; *((SString*)target) = *xx; } } ::messageOnExceedRange(this, i, result, xcopy); return result; } int SimpleAbstractParam::setObject(int i, const ExtObject& x) { SANITY_CHECK(i); ExtValue v; ParamEntry *pe = entry(i); if (pe->flags & PARAM_READONLY) return PSET_RONLY; if (pe->flags & PARAM_OBJECTSET) { ExtObject o = getObject(i); Param tmp; ParamInterface* oif = o.getParamInterface(tmp); int ass; if (oif && ((ass = oif->findId("assign")) >= 0)) { ExtValue arg = x; oif->call(ass, &arg, &v); } else logPrintf("SimpleAbstractParam", "setObject", LOG_ERROR, "%s is PARAM_OBJECTSET but no 'assign()' in %s", nameDotPropertyForMessages(i).c_str(), o.interfaceName()); return PSET_CHANGED; } ExtObject xcopy = x; //only needed for messageOnExceedRange(): retain original, requested value of x because it may be changed below if (pe->fun2) { v.setObject(x); int result = (*(int(*)(void*, const ExtValue*))pe->fun2)(object, &v); ::messageOnExceedRange(this, i, result, xcopy); return result; } else { void *target = getTarget(i); *((ExtObject*)target) = x; return PSET_CHANGED; } } int SimpleAbstractParam::setExtValue(int i, const ExtValue& x) { SANITY_CHECK(i); ParamEntry *pe = entry(i); if (pe->flags & PARAM_READONLY) return PSET_RONLY; ExtValue xcopy = x; //only needed for messageOnExceedRange(): retain original, requested value of x because it may be changed below if (pe->fun2) { int result = (*(int(*)(void*, const ExtValue*))pe->fun2)(object, &x); ::messageOnExceedRange(this, i, result, xcopy); return result; } else { void *target = getTarget(i); *((ExtValue*)target) = x; return PSET_CHANGED; } } void SimpleAbstractParam::call(int i, ExtValue *args, ExtValue *ret) { SANITY_CHECK(i); ParamEntry *pe = entry(i); if (!pe) return; if (pe->fun1 && (pe->type[0] == 'p')) (*(void(*)(void*, ExtValue*, ExtValue*))pe->fun1)(object, args, ret); else { logPrintf("SimpleAbstractParam", "call", LOG_ERROR, (*pe->type != 'p') ? "%s is not a function" : "Internal error - undefined function pointer for %s", nameDotPropertyForMessages(i).c_str()); ret->setInvalid(); } } void SimpleAbstractParam::setDefault() { bool save = dontcheckchanges; dontcheckchanges = 1; ParamInterface::setDefault(); dontcheckchanges = save; } void SimpleAbstractParam::setDefault(int i) { bool save = dontcheckchanges; dontcheckchanges = 1; ParamInterface::setDefault(i); dontcheckchanges = save; } // Returns the address of the beginning of the line. // len = line length (without \n). // 0 may mean the line with length=0 or the end of the SString. // poz is advanced to the beginning of the next line. // A typical loop: for(poz=0;poz= s.length()) { poz = s.length(); len = 0; return s.c_str() + s.length(); } const char *lf = strchr(beg, '\n'); if (!lf) { lf = s.c_str() + s.length() - 1; poz = s.length(); } else { poz = (int)(lf - s.c_str()) + 1; if (poz > s.length()) poz = s.length(); } while (lf >= beg) if ((*lf == '\n') || (*lf == '\r')) lf--; else break; len = (int)(lf - beg) + 1; return beg; } int ParamInterface::loadSingleLine(const SString &s, LoadOptions &options) { int i; // the index number of the parameter int tmpi; int len; int ret; int fields_loaded = 0; const char *t, *lin, *end; const char *equals_sign, *field_end, *next_field; char remember; const char *quote, *quote2; const char *value, *valstop; SString tmpvalue; bool parse_failed = false; if (options.offset >= s.length()) return fields_loaded; t = s.c_str() + options.offset; lin = getline(s, options.offset, len); // all fields must be encoded in a single line if (!len) return fields_loaded; // empty line = end i = 0; end = lin + len; while (t < end) { // processing a single field // "p:name=field_value, field_name=field_value , name=value..." // ^ ^-t (after) ^ ^_next_field // \_t (before) \_field_end while (isspace(*t)) if (t < end) t++; else return fields_loaded; field_end = strchrlimit(t, ',', end); if (!field_end) field_end = end; next_field = field_end; while ((field_end > t) && isblank(field_end[-1])) field_end--; quote = strchrlimit(t, '\"', field_end); if (quote) { quote2 = skipQuoteString(quote + 1, end); if (quote2 > field_end) { field_end = strchrlimit(quote2 + 1, ',', end); if (!field_end) field_end = end; next_field = field_end; } equals_sign = strchrlimit(t, '=', quote); } else { equals_sign = strchrlimit(t, '=', field_end); quote2 = 0; } if (equals_sign == t) { t++; equals_sign = 0; } if (field_end == t) // skip empty value { t++; if (i >= 0) i++; continue; } if (equals_sign) // have parameter name { tmpi = findIdn(t, (int)(equals_sign - t)); i = tmpi; if (tmpi < 0) { SString name(t, (int)(equals_sign - t)); logPrintf("Param", "loadSingleLine", LOG_WARN, "Unknown property '%s.%s' (ignored)", getName(), name.c_str()); } t = equals_sign + 1; // t=value } #ifdef WARN_MISSING_NAME else // no parameter name { #ifdef SAVE_SELECTED_NAMES if ((i < 0) // field after unknown field || (i >= getPropCount()) // field after last field || !(flags(i) & PARAM_CANOMITNAME)) // valid field but it can't be skipped #endif { if (i < getPropCount()) logPrintf("Param", "loadSingleLine", LOG_WARN, "Missing property name in '%s'", getName()); else // 'i' can go past PropCount because of moving to subsequent properties by i++, id(i) is then NULL logPrintf("Param", "loadSingleLine", LOG_WARN, "Value after the last property of '%s'", getName()); } } //else skipping a skippable field #endif if ((i >= 0) && id(i)) // shared by name and skippped name cases { value = t; if (quote) { tmpvalue.copyFrom(quote + 1, (int)(quote2 - quote) - 1); sstringUnquote(tmpvalue); value = tmpvalue.c_str(); valstop = quote2; } else if (field_end < end) valstop = field_end; else valstop = end; remember = *valstop; *(char*)valstop = 0; ret = setFromString(i, value, true); fields_loaded++; if (ret & PSET_PARSEFAILED) parse_failed = true; *(char*)valstop = remember; } if (i >= 0) i++; #ifdef __CODEGUARD__ if (next_field < end - 1) t = next_field + 1; else return fields_loaded; #else t = next_field + 1; #endif } if (parse_failed) options.parse_failed = true; return fields_loaded; } int Param::grmember(int g, int a) { if ((getGroupCount() < 2) && (!g)) return (a < getPropCount()) ? a : -9999; ParamEntry *e = entry(0); int x = 0, i = 0; for (; e->id; i++, e++) { if (e->group == g) if (a == x) return i; else x++; } return -9999; }