valentina/src/app/container/calculator.cpp

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/************************************************************************
**
** @file calculator.cpp
** @author Roman Telezhynskyi <dismine(at)gmail.com>
** @date November 15, 2013
**
** @brief
** @copyright
** This source code is part of the Valentine project, a pattern making
** program, whose allow create and modeling patterns of clothing.
** Copyright (C) 2013 Valentina project
** <https://bitbucket.org/dismine/valentina> All Rights Reserved.
**
** Valentina is free software: you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation, either version 3 of the License, or
** (at your option) any later version.
**
** Valentina is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with Valentina. If not, see <http://www.gnu.org/licenses/>.
**
*************************************************************************/
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#include "calculator.h"
#include <QDebug>
#include <QSettings>
#include "../widgets/vapplication.h"
#include "vcontainer.h"
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using namespace qmu;
int Calculator::iVal = -1;
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Calculator class constructor. Make easy initialization math parser.
*
* This constructor hide initialization variables, operators, character sets.
* Use this constuctor for evaluation formula. All formulas must be converted to internal look.
* Example:
*
* const QString formula = qApp->FormulaFromUser(edit->text());
* Calculator *cal = new Calculator(data);
* const qreal result = cal->EvalFormula(formula);
* delete cal;
*
* @param data pointer to a variable container.
*/
Calculator::Calculator(const VContainer *data)
:QmuParser(), vVarVal(nullptr)
{
InitCharacterSets();
// Add variables
InitVariables(data);
// Add unary operators
DefinePostfixOprt(cm_Oprt, CmUnit);
DefinePostfixOprt(mm_Oprt, MmUnit);
DefinePostfixOprt(in_Oprt, InchUnit);
SetArgSep(',');
SetDecSep('.');
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief Calculator class constructor. Make easy initialization math parser.
*
* This constructor hide initialization variables, operators, character sets.
* Use this constuctor to get tokens from formula. All formulas must be converted to external look.
* Example:
*
* Calculator *cal = new Calculator(formula, false);
* tokens = cal->GetTokens();
* numbers = cal->GetNumbers();
* delete cal;
*
* @param formula string with formula.
* @param fromUser true if we parse formula from user
*/
Calculator::Calculator(const QString &formula, bool fromUser)
:QmuParser(), vVarVal(nullptr)
{
InitCharacterSets();
SetVarFactory(AddVariable, this);
// Add unary operators
if(fromUser)
{
DefinePostfixOprt(qApp->PostfixOperator(cm_Oprt), CmUnit);
DefinePostfixOprt(qApp->PostfixOperator(mm_Oprt), MmUnit);
DefinePostfixOprt(qApp->PostfixOperator(in_Oprt), InchUnit);
QSettings settings(QSettings::IniFormat, QSettings::UserScope, QApplication::organizationName(),
QApplication::applicationName());
bool osSeparatorValue = settings.value("configuration/osSeparator", 1).toBool();
if (osSeparatorValue)
{
QLocale loc = QLocale::system();
SetDecSep(loc.decimalPoint().toLatin1());
SetThousandsSep(loc.groupSeparator().toLatin1());
SetArgSep(';');
}
else
{
SetArgSep(',');
SetDecSep('.');
}
}
else
{
DefinePostfixOprt(cm_Oprt, CmUnit);
DefinePostfixOprt(mm_Oprt, MmUnit);
DefinePostfixOprt(in_Oprt, InchUnit);
SetArgSep(',');
SetDecSep('.');
}
SetExpr(formula);
//Need run for making tokens. Don't catch exception here, because it will show us in dialog that formula has error.
Eval();
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}
Calculator::~Calculator()
{
delete [] vVarVal;
Calculator::iVal = -1;
}
//---------------------------------------------------------------------------------------------------------------------
/**
* @brief eval calculate formula.
* @param formula string of formula.
* @return value of formula.
*/
qreal Calculator::EvalFormula(const QString &formula)
{
SetExpr(formula);
return Eval();
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}
//---------------------------------------------------------------------------------------------------------------------
void Calculator::InitVariables(const VContainer *data)
{
int num = 0;
if (qApp->patternType() == Pattern::Standard)
{
num +=2;
}
const QHash<QString, qreal> *lengthLines = data->DataLengthLines();
num += lengthLines->size();
const QHash<QString, qreal> *lengthSplines = data->DataLengthSplines();
num += lengthSplines->size();
const QHash<QString, qreal> *lengthArcs = data->DataLengthArcs();
num += lengthArcs->size();
const QHash<QString, qreal> *lineAngles = data->DataLineAngles();
num += lineAngles->size();
const QHash<QString, VMeasurement> *measurements = data->DataMeasurements();
num += measurements->size();
const QHash<QString, VIncrement> *increments = data->DataIncrements();
num += increments->size();
vVarVal = new qreal[num];
int j = 0;
if (qApp->patternType() == Pattern::Standard)
{
vVarVal[j] = data->size();
DefineVar(data->SizeName(), &vVarVal[j]);
++j;
vVarVal[j] = data->height();
DefineVar(data->HeightName(), &vVarVal[j]);
++j;
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}
{
QHash<QString, qreal>::const_iterator i = lengthLines->constBegin();
while (i != lengthLines->constEnd())
{
vVarVal[j] = i.value();
DefineVar(i.key(), &vVarVal[j]);
++j;
++i;
}
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}
{
QHash<QString, qreal>::const_iterator i = lengthSplines->constBegin();
while (i != lengthSplines->constEnd())
{
vVarVal[j] = i.value();
DefineVar(i.key(), &vVarVal[j]);
++j;
++i;
}
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}
{
QHash<QString, qreal>::const_iterator i = lengthArcs->constBegin();
while (i != lengthArcs->constEnd())
{
vVarVal[j] = i.value();
DefineVar(i.key(), &vVarVal[j]);
++j;
++i;
}
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}
{
QHash<QString, qreal>::const_iterator i = lineAngles->constBegin();
while (i != lineAngles->constEnd())
{
vVarVal[j] = i.value();
DefineVar(i.key(), &vVarVal[j]);
++j;
++i;
}
}
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{
QHash<QString, VMeasurement>::const_iterator i = measurements->constBegin();
while (i != measurements->constEnd())
{
if (qApp->patternType() == Pattern::Standard)
{
vVarVal[j] = i.value().GetValue(data->size(), data->height());
}
else
{
vVarVal[j] = i.value().GetValue();
}
DefineVar(i.key(), &vVarVal[j]);
++j;
++i;
}
}
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{
QHash<QString, VIncrement>::const_iterator i = increments->constBegin();
while (i != increments->constEnd())
{
if (qApp->patternType() == Pattern::Standard)
{
vVarVal[j] = i.value().GetValue(data->size(), data->height());
}
else
{
vVarVal[j] = i.value().GetValue();
}
DefineVar(i.key(), &vVarVal[j]);
++j;
++i;
}
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}
}
//---------------------------------------------------------------------------------------------------------------------
void Calculator::InitCharacterSets()
{
//String with all unique symbols for supported alpabets.
// See script alphabets.py for generation and more information.
const QString symbols = QStringLiteral("ցЀĆЈVӧĎАғΕĖӅИқΝĞơРңњΥĦШҫ̆جگĮаҳѕεشԶиһνԾрυلՆӝшËՎҔPÓՖXӛӟŞӣզhëծpóӞնxßվāŁЃֆĉЋCŬđ"
"ҐГΒęҘЛΚŘġҠУGاհЫدԱҰгβطԹõлκKՁÀуςهՉÈыvیՑÐSOřӘћաőcӐթèkàѓżűðsķչøӥӔĀփїІĈЎґĐΗЖҙĘȚ"
"ΟОҡĠآΧЦتЮұİزηжԸغοоÁՀقχцÉՈيюÑՐђӋіәťӆўáŠĺѐfөըnñŰӤӨӹոľЁրăЉŭċБӸēłΔҖЙŤěΜӜDСձģΤӰ"
"ЩīņحҮбưԳصδHйԻŇμӲӴсՃمτƠщՋєLQŹՓŕÖYśÞaգĽæiŽիӓîqճöyջþĂօЄӦĊЌΑĒДҗјΙȘĚМΡéĵĢФūӚΩبĪ"
"ЬүќαذԲдҷιظԺмρՂфÇωوՊьÏՒTŚĻJբdçժlïӪղtպӫAւąЇčŃЏĕӯЗΖEțŮĝПΞأĥĹЧΦثÆӳЯIسŲԵзζԽпξكՅ"
"ÄчφNMՍӌяӢՕÔWÎŝÜџёźեägխoӒյôwĶBžսüЂĄև̈ЊČƏљΓВҕĔӮΛКĜΣТҥĤکЪƯخγвŅԴŪضλкԼĴσтÅՄنъÍՌR"
"ӕՔZÝŜbåդjíլļrӵմzýռپêЅքćچЍďӱҒЕůėژșΘØҚНğńءΠFҢХħΨҪЭųįҶرҲеԷňعθҺнԿفπÂхՇψÊэšՏÒU"
"əÚѝŻşҤӑâeէŐımկòuշÕúտŔ");
// Defining identifier character sets
DefineNameChars(QStringLiteral("0123456789_") + symbols);
DefineOprtChars(symbols + QStringLiteral("+-*^/?<>=#!$%&|~'_"));
}
//---------------------------------------------------------------------------------------------------------------------
qreal Calculator::CmUnit(qreal val)
{
qreal unit = val;
switch(qApp->patternUnit())
{
case Valentina::Mm:
unit = val * 10.0;
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break;
case Valentina::Cm:
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break;
case Valentina::Inch:
unit = val / 2.54;
break;
default:
break;
}
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return unit;
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}
//---------------------------------------------------------------------------------------------------------------------
qreal Calculator::MmUnit(qreal val)
{
qreal unit = val;
switch(qApp->patternUnit())
{
case Valentina::Mm:
break;
case Valentina::Cm:
unit = val / 10.0;
break;
case Valentina::Inch:
unit = val / 25.4;
break;
default:
break;
}
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return unit;
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}
//---------------------------------------------------------------------------------------------------------------------
qreal Calculator::InchUnit(qreal val)
{
qreal unit = val;
switch(qApp->patternUnit())
{
case Valentina::Mm:
unit = val * 25.4;
break;
case Valentina::Cm:
unit = val * 2.54;
break;
case Valentina::Inch:
break;
default:
break;
}
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return unit;
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}
//---------------------------------------------------------------------------
// Factory function for creating new parser variables
// This could as well be a function performing database queries.
qreal* Calculator::AddVariable(const QString &a_szName, void *a_pUserData)
{
// I don't want dynamic allocation here, so i used this static buffer
// If you want dynamic allocation you must allocate all variables dynamically
// in order to delete them later on. Or you find other ways to keep track of
// variables that have been created implicitely.
static qreal afValBuf[100];
++iVal;
Q_UNUSED(a_szName)
Q_UNUSED(a_pUserData)
// qDebug() << "Generating new variable \""
// << a_szName << "\" (slots left: "
// << 99-iVal << ")"
// << " User data pointer is:"
// << QString::number(a_pUserData, 16);
afValBuf[iVal] = 0;
if (iVal>=99)
{
throw qmu::QmuParserError( "Variable buffer overflow." );
}
else
{
return &afValBuf[iVal];
}
}