/** * @file llcontrol.cpp * @brief Holds global state for viewer. * * $LicenseInfo:firstyear=2001&license=viewergpl$ * * Copyright (c) 2001-2007, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlife.com/developers/opensource/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlife.com/developers/opensource/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #include #include #include #include "llcontrol.h" #include "llstl.h" #include "llstring.h" #include "v3math.h" #include "v3dmath.h" #include "v4coloru.h" #include "v4color.h" #include "v3color.h" #include "llrect.h" #include "llxmltree.h" #include "llsdserialize.h" #if LL_RELEASE_WITH_DEBUG_INFO || LL_DEBUG #define CONTROL_ERRS LL_WARNS("ControlErrors") #else #define CONTROL_ERRS LL_ERRS("ControlErrors") #endif //this defines the current version of the settings file const S32 CURRENT_VERSION = 101; bool LLControlVariable::llsd_compare(const LLSD& a, const LLSD & b) { bool result = false; switch (mType) { case TYPE_U32: case TYPE_S32: result = a.asInteger() == b.asInteger(); break; case TYPE_BOOLEAN: result = a.asBoolean() == b.asBoolean(); break; case TYPE_F32: result = a.asReal() == b.asReal(); break; case TYPE_VEC3: case TYPE_VEC3D: result = LLVector3d(a) == LLVector3d(b); break; case TYPE_RECT: result = LLRect(a) == LLRect(b); break; case TYPE_COL4: result = LLColor4(a) == LLColor4(b); break; case TYPE_COL3: result = LLColor3(a) == LLColor3(b); break; case TYPE_COL4U: result = LLColor4U(a) == LLColor4U(b); break; case TYPE_STRING: result = a.asString() == b.asString(); break; default: break; } return result; } LLControlVariable::LLControlVariable(const std::string& name, eControlType type, LLSD initial, const std::string& comment, bool persist) : mName(name), mComment(comment), mType(type), mPersist(persist) { if (mPersist && mComment.empty()) { llerrs << "Must supply a comment for control " << mName << llendl; } //Push back versus setValue'ing here, since we don't want to call a signal yet mValues.push_back(initial); } LLControlVariable::~LLControlVariable() { } LLSD LLControlVariable::getComparableValue(const LLSD& value) { // *FIX:MEP - The following is needed to make the LLSD::ImplString // work with boolean controls... LLSD storable_value; if(TYPE_BOOLEAN == type() && value.isString()) { BOOL temp; if(LLStringUtil::convertToBOOL(value.asString(), temp)) { storable_value = (bool)temp; } else { storable_value = false; } } else { storable_value = value; } return storable_value; } void LLControlVariable::setValue(const LLSD& value, bool saved_value) { LLSD storable_value = getComparableValue(value); bool value_changed = llsd_compare(getValue(), storable_value) == FALSE; if(saved_value) { // If we're going to save this value, return to default but don't fire resetToDefault(false); if (llsd_compare(mValues.back(), storable_value) == FALSE) { mValues.push_back(storable_value); } } else { // This is a unsaved value. Its needs to reside at // mValues[2] (or greater). It must not affect // the result of getSaveValue() if (llsd_compare(mValues.back(), storable_value) == FALSE) { while(mValues.size() > 2) { // Remove any unsaved values. mValues.pop_back(); } if(mValues.size() < 2) { // Add the default to the 'save' value. mValues.push_back(mValues[0]); } // Add the 'un-save' value. mValues.push_back(storable_value); } } if(value_changed) { mSignal(storable_value); } } void LLControlVariable::setDefaultValue(const LLSD& value) { // Set the control variables value and make it // the default value. If the active value is changed, // send the signal. // *NOTE: Default values are not saved, only read. LLSD comparable_value = getComparableValue(value); bool value_changed = (llsd_compare(getValue(), comparable_value) == FALSE); resetToDefault(false); mValues[0] = comparable_value; if(value_changed) { firePropertyChanged(); } } void LLControlVariable::setPersist(bool state) { mPersist = state; } void LLControlVariable::setComment(const std::string& comment) { mComment = comment; } void LLControlVariable::resetToDefault(bool fire_signal) { //The first setting is always the default //Pop to it and fire off the listener while(mValues.size() > 1) { mValues.pop_back(); } if(fire_signal) { firePropertyChanged(); } } bool LLControlVariable::isSaveValueDefault() { return (mValues.size() == 1) || ((mValues.size() > 1) && llsd_compare(mValues[1], mValues[0])); } LLSD LLControlVariable::getSaveValue() const { //The first level of the stack is default //We assume that the second level is user preferences that should be saved if(mValues.size() > 1) return mValues[1]; return mValues[0]; } LLPointer LLControlGroup::getControl(const std::string& name) { ctrl_name_table_t::iterator iter = mNameTable.find(name); return iter == mNameTable.end() ? LLPointer() : iter->second; } //////////////////////////////////////////////////////////////////////////// LLControlGroup::LLControlGroup() { mTypeString[TYPE_U32] = "U32"; mTypeString[TYPE_S32] = "S32"; mTypeString[TYPE_F32] = "F32"; mTypeString[TYPE_BOOLEAN] = "Boolean"; mTypeString[TYPE_STRING] = "String"; mTypeString[TYPE_VEC3] = "Vector3"; mTypeString[TYPE_VEC3D] = "Vector3D"; mTypeString[TYPE_RECT] = "Rect"; mTypeString[TYPE_COL4] = "Color4"; mTypeString[TYPE_COL3] = "Color3"; mTypeString[TYPE_COL4U] = "Color4u"; mTypeString[TYPE_LLSD] = "LLSD"; } LLControlGroup::~LLControlGroup() { cleanup(); } void LLControlGroup::cleanup() { mNameTable.clear(); } eControlType LLControlGroup::typeStringToEnum(const std::string& typestr) { for(int i = 0; i < (int)TYPE_COUNT; ++i) { if(mTypeString[i] == typestr) return (eControlType)i; } return (eControlType)-1; } std::string LLControlGroup::typeEnumToString(eControlType typeenum) { return mTypeString[typeenum]; } BOOL LLControlGroup::declareControl(const std::string& name, eControlType type, const LLSD initial_val, const std::string& comment, BOOL persist) { if(mNameTable.find(name) != mNameTable.end()) { llwarns << "LLControlGroup::declareControl: Control named " << name << " already exists." << llendl; mNameTable[name]->setValue(initial_val); return TRUE; } // if not, create the control and add it to the name table LLControlVariable* control = new LLControlVariable(name, type, initial_val, comment, persist); mNameTable[name] = control; return TRUE; } BOOL LLControlGroup::declareU32(const std::string& name, const U32 initial_val, const std::string& comment, BOOL persist) { return declareControl(name, TYPE_U32, (LLSD::Integer) initial_val, comment, persist); } BOOL LLControlGroup::declareS32(const std::string& name, const S32 initial_val, const std::string& comment, BOOL persist) { return declareControl(name, TYPE_S32, initial_val, comment, persist); } BOOL LLControlGroup::declareF32(const std::string& name, const F32 initial_val, const std::string& comment, BOOL persist) { return declareControl(name, TYPE_F32, initial_val, comment, persist); } BOOL LLControlGroup::declareBOOL(const std::string& name, const BOOL initial_val, const std::string& comment, BOOL persist) { return declareControl(name, TYPE_BOOLEAN, initial_val, comment, persist); } BOOL LLControlGroup::declareString(const std::string& name, const std::string& initial_val, const std::string& comment, BOOL persist) { return declareControl(name, TYPE_STRING, initial_val, comment, persist); } BOOL LLControlGroup::declareVec3(const std::string& name, const LLVector3 &initial_val, const std::string& comment, BOOL persist) { return declareControl(name, TYPE_VEC3, initial_val.getValue(), comment, persist); } BOOL LLControlGroup::declareVec3d(const std::string& name, const LLVector3d &initial_val, const std::string& comment, BOOL persist) { return declareControl(name, TYPE_VEC3D, initial_val.getValue(), comment, persist); } BOOL LLControlGroup::declareRect(const std::string& name, const LLRect &initial_val, const std::string& comment, BOOL persist) { return declareControl(name, TYPE_RECT, initial_val.getValue(), comment, persist); } BOOL LLControlGroup::declareColor4U(const std::string& name, const LLColor4U &initial_val, const std::string& comment, BOOL persist ) { return declareControl(name, TYPE_COL4U, initial_val.getValue(), comment, persist); } BOOL LLControlGroup::declareColor4(const std::string& name, const LLColor4 &initial_val, const std::string& comment, BOOL persist ) { return declareControl(name, TYPE_COL4, initial_val.getValue(), comment, persist); } BOOL LLControlGroup::declareColor3(const std::string& name, const LLColor3 &initial_val, const std::string& comment, BOOL persist ) { return declareControl(name, TYPE_COL3, initial_val.getValue(), comment, persist); } BOOL LLControlGroup::declareLLSD(const std::string& name, const LLSD &initial_val, const std::string& comment, BOOL persist ) { return declareControl(name, TYPE_LLSD, initial_val, comment, persist); } BOOL LLControlGroup::getBOOL(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_BOOLEAN)) return control->get().asBoolean(); else { CONTROL_ERRS << "Invalid BOOL control " << name << llendl; return FALSE; } } S32 LLControlGroup::getS32(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_S32)) return control->get().asInteger(); else { CONTROL_ERRS << "Invalid S32 control " << name << llendl; return 0; } } U32 LLControlGroup::getU32(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_U32)) return control->get().asInteger(); else { CONTROL_ERRS << "Invalid U32 control " << name << llendl; return 0; } } F32 LLControlGroup::getF32(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_F32)) return (F32) control->get().asReal(); else { CONTROL_ERRS << "Invalid F32 control " << name << llendl; return 0.0f; } } std::string LLControlGroup::findString(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_STRING)) return control->get().asString(); return LLStringUtil::null; } std::string LLControlGroup::getString(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_STRING)) return control->get().asString(); else { CONTROL_ERRS << "Invalid string control " << name << llendl; return LLStringUtil::null; } } LLWString LLControlGroup::getWString(const std::string& name) { return utf8str_to_wstring(getString(name)); } std::string LLControlGroup::getText(const std::string& name) { std::string utf8_string = getString(name); LLStringUtil::replaceChar(utf8_string, '^', '\n'); LLStringUtil::replaceChar(utf8_string, '%', ' '); return (utf8_string); } LLVector3 LLControlGroup::getVector3(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_VEC3)) return control->get(); else { CONTROL_ERRS << "Invalid LLVector3 control " << name << llendl; return LLVector3::zero; } } LLVector3d LLControlGroup::getVector3d(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_VEC3D)) return control->get(); else { CONTROL_ERRS << "Invalid LLVector3d control " << name << llendl; return LLVector3d::zero; } } LLRect LLControlGroup::getRect(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_RECT)) return control->get(); else { CONTROL_ERRS << "Invalid rect control " << name << llendl; return LLRect::null; } } LLColor4 LLControlGroup::getColor(const std::string& name) { ctrl_name_table_t::const_iterator i = mNameTable.find(name); if (i != mNameTable.end()) { LLControlVariable* control = i->second; switch(control->mType) { case TYPE_COL4: { return LLColor4(control->get()); } case TYPE_COL4U: { return LLColor4(LLColor4U(control->get())); } default: { CONTROL_ERRS << "Control " << name << " not a color" << llendl; return LLColor4::white; } } } else { CONTROL_ERRS << "Invalid getColor control " << name << llendl; return LLColor4::white; } } LLColor4U LLControlGroup::getColor4U(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_COL4U)) return control->get(); else { CONTROL_ERRS << "Invalid LLColor4 control " << name << llendl; return LLColor4U::white; } } LLColor4 LLControlGroup::getColor4(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_COL4)) return control->get(); else { CONTROL_ERRS << "Invalid LLColor4 control " << name << llendl; return LLColor4::white; } } LLColor3 LLControlGroup::getColor3(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_COL3)) return control->get(); else { CONTROL_ERRS << "Invalid LLColor3 control " << name << llendl; return LLColor3::white; } } LLSD LLControlGroup::getLLSD(const std::string& name) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_LLSD)) return control->getValue(); CONTROL_ERRS << "Invalid LLSD control " << name << llendl; return LLSD(); } BOOL LLControlGroup::controlExists(const std::string& name) { ctrl_name_table_t::iterator iter = mNameTable.find(name); return iter != mNameTable.end(); } //------------------------------------------------------------------- // Set functions //------------------------------------------------------------------- void LLControlGroup::setBOOL(const std::string& name, BOOL val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_BOOLEAN)) { control->set(val); } else { CONTROL_ERRS << "Invalid control " << name << llendl; } } void LLControlGroup::setS32(const std::string& name, S32 val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_S32)) { control->set(val); } else { CONTROL_ERRS << "Invalid control " << name << llendl; } } void LLControlGroup::setF32(const std::string& name, F32 val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_F32)) { control->set(val); } else { CONTROL_ERRS << "Invalid control " << name << llendl; } } void LLControlGroup::setU32(const std::string& name, U32 val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_U32)) { control->set((LLSD::Integer) val); } else { CONTROL_ERRS << "Invalid control " << name << llendl; } } void LLControlGroup::setString(const std::string& name, const std::string &val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_STRING)) { control->set(val); } else { CONTROL_ERRS << "Invalid control " << name << llendl; } } void LLControlGroup::setVector3(const std::string& name, const LLVector3 &val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_VEC3)) { control->set(val.getValue()); } else { CONTROL_ERRS << "Invalid control " << name << llendl; } } void LLControlGroup::setVector3d(const std::string& name, const LLVector3d &val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_VEC3D)) { control->set(val.getValue()); } else { CONTROL_ERRS << "Invalid control " << name << llendl; } } void LLControlGroup::setRect(const std::string& name, const LLRect &val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_RECT)) { control->set(val.getValue()); } else { CONTROL_ERRS << "Invalid rect control " << name << llendl; } } void LLControlGroup::setColor4U(const std::string& name, const LLColor4U &val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_COL4U)) { control->set(val.getValue()); } else { CONTROL_ERRS << "Invalid LLColor4 control " << name << llendl; } } void LLControlGroup::setColor4(const std::string& name, const LLColor4 &val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_COL4)) { control->set(val.getValue()); } else { CONTROL_ERRS << "Invalid LLColor4 control " << name << llendl; } } void LLControlGroup::setLLSD(const std::string& name, const LLSD& val) { LLControlVariable* control = getControl(name); if (control && control->isType(TYPE_LLSD)) { setValue(name, val); } else { CONTROL_ERRS << "Invalid LLSD control " << name << llendl; } } void LLControlGroup::setValue(const std::string& name, const LLSD& val) { if (name.empty()) { return; } LLControlVariable* control = getControl(name); if (control) { control->set(val); } else { CONTROL_ERRS << "Invalid control " << name << llendl; } } //--------------------------------------------------------------- // Load and save //--------------------------------------------------------------- // Returns number of controls loaded, so 0 if failure U32 LLControlGroup::loadFromFileLegacy(const std::string& filename, BOOL require_declaration, eControlType declare_as) { std::string name; LLXmlTree xml_controls; if (!xml_controls.parseFile(filename)) { llwarns << "Unable to open control file " << filename << llendl; return 0; } LLXmlTreeNode* rootp = xml_controls.getRoot(); if (!rootp || !rootp->hasAttribute("version")) { llwarns << "No valid settings header found in control file " << filename << llendl; return 0; } U32 item = 0; U32 validitems = 0; S32 version; rootp->getAttributeS32("version", version); // Check file version if (version != CURRENT_VERSION) { llinfos << filename << " does not appear to be a version " << CURRENT_VERSION << " controls file" << llendl; return 0; } LLXmlTreeNode* child_nodep = rootp->getFirstChild(); while(child_nodep) { name = child_nodep->getName(); BOOL declared = controlExists(name); if (require_declaration && !declared) { // Declaration required, but this name not declared. // Complain about non-empty names. if (!name.empty()) { //read in to end of line llwarns << "LLControlGroup::loadFromFile() : Trying to set \"" << name << "\", setting doesn't exist." << llendl; } child_nodep = rootp->getNextChild(); continue; } // Got an item. Load it up. item++; // If not declared, assume it's a string if (!declared) { switch(declare_as) { case TYPE_COL4: declareColor4(name, LLColor4::white, LLStringUtil::null, NO_PERSIST); break; case TYPE_COL4U: declareColor4U(name, LLColor4U::white, LLStringUtil::null, NO_PERSIST); break; case TYPE_STRING: default: declareString(name, LLStringUtil::null, LLStringUtil::null, NO_PERSIST); break; } } // Control name has been declared in code. LLControlVariable *control = getControl(name); llassert(control); switch(control->mType) { case TYPE_F32: { F32 initial = 0.f; child_nodep->getAttributeF32("value", initial); control->set(initial); validitems++; } break; case TYPE_S32: { S32 initial = 0; child_nodep->getAttributeS32("value", initial); control->set(initial); validitems++; } break; case TYPE_U32: { U32 initial = 0; child_nodep->getAttributeU32("value", initial); control->set((LLSD::Integer) initial); validitems++; } break; case TYPE_BOOLEAN: { BOOL initial = FALSE; child_nodep->getAttributeBOOL("value", initial); control->set(initial); validitems++; } break; case TYPE_STRING: { std::string string; child_nodep->getAttributeString("value", string); control->set(string); validitems++; } break; case TYPE_VEC3: { LLVector3 vector; child_nodep->getAttributeVector3("value", vector); control->set(vector.getValue()); validitems++; } break; case TYPE_VEC3D: { LLVector3d vector; child_nodep->getAttributeVector3d("value", vector); control->set(vector.getValue()); validitems++; } break; case TYPE_RECT: { //RN: hack to support reading rectangles from a string std::string rect_string; child_nodep->getAttributeString("value", rect_string); std::istringstream istream(rect_string); S32 left, bottom, width, height; istream >> left >> bottom >> width >> height; LLRect rect; rect.setOriginAndSize(left, bottom, width, height); control->set(rect.getValue()); validitems++; } break; case TYPE_COL4U: { LLColor4U color; child_nodep->getAttributeColor4U("value", color); control->set(color.getValue()); validitems++; } break; case TYPE_COL4: { LLColor4 color; child_nodep->getAttributeColor4("value", color); control->set(color.getValue()); validitems++; } break; case TYPE_COL3: { LLVector3 color; child_nodep->getAttributeVector3("value", color); control->set(LLColor3(color.mV).getValue()); validitems++; } break; default: break; } child_nodep = rootp->getNextChild(); } return validitems; } U32 LLControlGroup::saveToFile(const std::string& filename, BOOL nondefault_only) { LLSD settings; int num_saved = 0; for (ctrl_name_table_t::iterator iter = mNameTable.begin(); iter != mNameTable.end(); iter++) { LLControlVariable* control = iter->second; if (!control) { llwarns << "Tried to save invalid control: " << iter->first << llendl; } if( control && control->isPersisted() ) { if (!(nondefault_only && (control->isSaveValueDefault()))) { settings[iter->first]["Type"] = typeEnumToString(control->type()); settings[iter->first]["Comment"] = control->getComment(); settings[iter->first]["Value"] = control->getSaveValue(); ++num_saved; } else { // Debug spam // llinfos << "Skipping " << control->getName() << llendl; } } } llofstream file; file.open(filename); if (file.is_open()) { LLSDSerialize::toPrettyXML(settings, file); file.close(); llinfos << "Saved to " << filename << llendl; } else { // This is a warning because sometime we want to use settings files which can't be written... llwarns << "Unable to open settings file: " << filename << llendl; return 0; } return num_saved; } U32 LLControlGroup::loadFromFile(const std::string& filename, bool set_default_values) { std::string name; LLSD settings; LLSD control_map; llifstream infile; infile.open(filename); if(!infile.is_open()) { llwarns << "Cannot find file " << filename << " to load." << llendl; return 0; } S32 ret = LLSDSerialize::fromXML(settings, infile); if (ret <= 0) { infile.close(); llwarns << "Unable to open LLSD control file " << filename << ". Trying Legacy Method." << llendl; return loadFromFileLegacy(filename, TRUE, TYPE_STRING); } U32 validitems = 0; bool persist = false; for(LLSD::map_const_iterator itr = settings.beginMap(); itr != settings.endMap(); ++itr) { name = (*itr).first; control_map = (*itr).second; if(control_map.has("Persist")) { persist = control_map["Persist"].asInteger(); } // If the control exists just set the value from the input file. LLControlVariable* existing_control = getControl(name); if(existing_control) { if(set_default_values) { // Override all previously set properties of this control. // ... except for type. The types must match. eControlType new_type = typeStringToEnum(control_map["Type"].asString()); if(existing_control->isType(new_type)) { existing_control->setDefaultValue(control_map["Value"]); existing_control->setPersist(persist); existing_control->setComment(control_map["Comment"].asString()); } else { llerrs << "Mismatched type of control variable '" << name << "' found while loading '" << filename << "'." << llendl; } } else if(existing_control->isPersisted()) { existing_control->setValue(control_map["Value"]); } // *NOTE: If not persisted and not setting defaults, // the value should not get loaded. } else { declareControl(name, typeStringToEnum(control_map["Type"].asString()), control_map["Value"], control_map["Comment"].asString(), persist ); } ++validitems; } return validitems; } void LLControlGroup::resetToDefaults() { ctrl_name_table_t::iterator control_iter; for (control_iter = mNameTable.begin(); control_iter != mNameTable.end(); ++control_iter) { LLControlVariable* control = (*control_iter).second; control->resetToDefault(); } } void LLControlGroup::applyToAll(ApplyFunctor* func) { for (ctrl_name_table_t::iterator iter = mNameTable.begin(); iter != mNameTable.end(); iter++) { func->apply(iter->first, iter->second); } } //============================================================================ // First-use static std::string get_warn_name(const std::string& name) { std::string warnname = "Warn" + name; for (std::string::iterator iter = warnname.begin(); iter != warnname.end(); ++iter) { char c = *iter; if (!isalnum(c)) { *iter = '_'; } } return warnname; } void LLControlGroup::addWarning(const std::string& name) { std::string warnname = get_warn_name(name); if(mNameTable.find(warnname) == mNameTable.end()) { std::string comment = std::string("Enables ") + name + std::string(" warning dialog"); declareBOOL(warnname, TRUE, comment); mWarnings.insert(warnname); } } BOOL LLControlGroup::getWarning(const std::string& name) { std::string warnname = get_warn_name(name); return getBOOL(warnname); } void LLControlGroup::setWarning(const std::string& name, BOOL val) { std::string warnname = get_warn_name(name); setBOOL(warnname, val); } void LLControlGroup::resetWarnings() { for (std::set::iterator iter = mWarnings.begin(); iter != mWarnings.end(); ++iter) { setBOOL(*iter, TRUE); } } //============================================================================ #ifdef TEST_HARNESS void main() { F32_CONTROL foo, getfoo; S32_CONTROL bar, getbar; BOOL_CONTROL baz; U32 count = gGlobals.loadFromFile("controls.ini"); llinfos << "Loaded " << count << " controls" << llendl; // test insertion foo = new LLControlVariable("gFoo", 5.f, 1.f, 20.f); gGlobals.addEntry("gFoo", foo); bar = new LLControlVariable("gBar", 10, 2, 22); gGlobals.addEntry("gBar", bar); baz = new LLControlVariable("gBaz", FALSE); gGlobals.addEntry("gBaz", baz); // test retrieval getfoo = (LLControlVariable*) gGlobals.resolveName("gFoo"); getfoo->dump(); getbar = (S32_CONTROL) gGlobals.resolveName("gBar"); getbar->dump(); // change data getfoo->set(10.f); getfoo->dump(); // Failure modes // ...min > max // badfoo = new LLControlVariable("gFoo2", 100.f, 20.f, 5.f); // ...initial > max // badbar = new LLControlVariable("gBar2", 10, 20, 100000); // ...misspelled name // getfoo = (F32_CONTROL) gGlobals.resolveName("fooMisspelled"); // getfoo->dump(); // ...invalid data type getfoo = (F32_CONTROL) gGlobals.resolveName("gFoo"); getfoo->set(TRUE); getfoo->dump(); // ...out of range data // getfoo->set(100000000.f); // getfoo->dump(); // Clean Up delete foo; delete bar; delete baz; } #endif