/* * LLCalc.cpp * SecondLife * * Created by Aimee Walton on 28/09/2008. * Copyright 2008 Aimee Walton. * */ #include "linden_common.h" #include "llcalc.h" #include #include #include "llcalcparser.h" #include "llmath.h" // Variable names for use in the build floater const char* LLCalc::X_POS = "PX"; const char* LLCalc::Y_POS = "PY"; const char* LLCalc::Z_POS = "PZ"; const char* LLCalc::X_SCALE = "SX"; const char* LLCalc::Y_SCALE = "SY"; const char* LLCalc::Z_SCALE = "SZ"; const char* LLCalc::X_ROT = "RX"; const char* LLCalc::Y_ROT = "RY"; const char* LLCalc::Z_ROT = "RZ"; const char* LLCalc::HOLLOW = "HLW"; const char* LLCalc::CUT_BEGIN = "CB"; const char* LLCalc::CUT_END = "CE"; const char* LLCalc::PATH_BEGIN = "PB"; const char* LLCalc::PATH_END = "PE"; const char* LLCalc::TWIST_BEGIN = "TB"; const char* LLCalc::TWIST_END = "TE"; const char* LLCalc::X_SHEAR = "SHX"; const char* LLCalc::Y_SHEAR = "SHY"; const char* LLCalc::X_TAPER = "TPX"; const char* LLCalc::Y_TAPER = "TPY"; const char* LLCalc::RADIUS_OFFSET = "ROF"; const char* LLCalc::REVOLUTIONS = "REV"; const char* LLCalc::SKEW = "SKW"; const char* LLCalc::X_HOLE = "HLX"; const char* LLCalc::Y_HOLE = "HLY"; const char* LLCalc::TEX_U_SCALE = "TSU"; const char* LLCalc::TEX_V_SCALE = "TSV"; const char* LLCalc::TEX_U_OFFSET = "TOU"; const char* LLCalc::TEX_V_OFFSET = "TOV"; const char* LLCalc::TEX_ROTATION = "TROT"; const char* LLCalc::TEX_TRANSPARENCY = "TRNS"; const char* LLCalc::TEX_GLOW = "GLOW"; LLCalc* LLCalc::sInstance = NULL; LLCalc::LLCalc() : mLastErrorPos(0) { // mUserVariables = new calc_map_t; mVariables = new calc_map_t; mConstants = new calc_map_t; // Init table of constants (*mConstants)["PI"] = F_PI; (*mConstants)["TWO_PI"] = F_TWO_PI; (*mConstants)["PI_BY_TWO"] = F_PI_BY_TWO; (*mConstants)["SQRT2"] = F_SQRT2; (*mConstants)["DEG_TO_RAD"] = DEG_TO_RAD; (*mConstants)["RAD_TO_DEG"] = RAD_TO_DEG; (*mConstants)["GRAVITY"] = GRAVITY; } LLCalc::~LLCalc() { delete mConstants; delete mVariables; // delete mUserVariables; } //static void LLCalc::cleanUp() { delete sInstance; sInstance = NULL; } //static LLCalc* LLCalc::getInstance() { if (!sInstance) sInstance = new LLCalc(); return sInstance; } void LLCalc::setVar(const std::string& name, const F32& value) { (*mVariables)[name] = value; } void LLCalc::clearVar(const std::string& name) { mVariables->erase(name); } void LLCalc::clearAllVariables() { mVariables->clear(); } /* void LLCalc::updateVariables(LLSD& vars) { LLSD::map_iterator cIt = vars.beginMap(); for(; cIt != vars.endMap(); cIt++) { setVar(cIt->first, (F32)(LLSD::Real)cIt->second); } } */ bool LLCalc::evalString(const std::string& expression, F32& result) { using namespace boost::spirit; std::string expr_upper = expression; LLStringUtil::toUpper(expr_upper); LLCalcParser calc(result, mConstants, mVariables); mLastErrorPos = 0; std::string::iterator start = expr_upper.begin(); parse_info info; try { info = parse(start, expr_upper.end(), calc, space_p); lldebugs << "Math expression: " << expression << " = " << result << llendl; } catch(parser_error &e) { mLastErrorPos = e.where - expr_upper.begin(); llinfos << "Calc parser exception: " << e.descriptor << " at " << mLastErrorPos << " in expression: " << expression << llendl; return false; } if (!info.full) { mLastErrorPos = info.stop - expr_upper.begin(); llinfos << "Unhandled syntax error at " << mLastErrorPos << " in expression: " << expression << llendl; return false; } return true; }