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#include <poincare/global_context.h>
#include <poincare/matrix.h>
#include <poincare/undefined.h>
#include <poincare/preferences.h>
#include <assert.h>
#include <cmath>
#include <ion.h>
namespace Poincare {
GlobalContext::GlobalContext() :
m_pi(M_PI),
m_e(M_E),
m_i(0.0, 1.0)
{
for (int i = 0; i < k_maxNumberOfScalarExpressions; i++) {
m_expressions[i] = nullptr;
}
for (int i = 0; i < k_maxNumberOfMatrixExpressions ; i++) {
m_matrixExpressions[i] = nullptr;
m_matrixLayout[i] = nullptr;
}
}
GlobalContext::~GlobalContext() {
for (int i = 0; i < k_maxNumberOfScalarExpressions; i++) {
if (m_expressions[i] != nullptr) {
delete m_expressions[i];
}
m_expressions[i] = nullptr;
}
for (int i = 0; i < k_maxNumberOfMatrixExpressions; i++) {
if (m_matrixExpressions[i] != nullptr) {
delete m_matrixExpressions[i];
}
m_matrixExpressions[i] = nullptr;
if (m_matrixLayout[i] != nullptr) {
delete m_matrixLayout[i];
}
m_matrixLayout[i] = nullptr;
}
}
Decimal * GlobalContext::defaultExpression() {
static Decimal defaultExpression(Integer(0), 0);
return &defaultExpression;
}
int GlobalContext::symbolIndex(const Symbol * symbol) const {
if (symbol->isMatrixSymbol()) {
return symbol->name() - (char)Symbol::SpecialSymbols::M0;
}
if (symbol->isScalarSymbol()) {
return symbol->name() - 'A';
}
return -1;
}
const Expression * GlobalContext::expressionForSymbol(const Symbol * symbol) {
if (symbol->name() == Ion::Charset::IComplex) {
return &m_i;
}
if (symbol->name() == Ion::Charset::SmallPi) {
return &m_pi;
}
if (symbol->name() == Ion::Charset::Exponential) {
return &m_e;
}
int index = symbolIndex(symbol);
if (symbol->isMatrixSymbol()) {
return m_matrixExpressions[index];
}
if (index < 0 || index >= k_maxNumberOfScalarExpressions) {
return nullptr;
}
if (m_expressions[index] == nullptr) {
return defaultExpression();
}
return m_expressions[index];
}
ExpressionLayout * GlobalContext::expressionLayoutForSymbol(const Symbol * symbol, int numberOfSignificantDigits) {
if (symbol->isMatrixSymbol()) {
int index = symbolIndex(symbol);
if (m_matrixLayout[index] == nullptr && m_matrixExpressions[index] != nullptr) {
m_matrixLayout[index] = m_matrixExpressions[index]->createLayout(PrintFloat::Mode::Decimal, numberOfSignificantDigits);
}
return m_matrixLayout[index];
}
return nullptr;
}
void GlobalContext::setExpressionForSymbolName(const Expression * expression, const Symbol * symbol, Context & context) {
int index = symbolIndex(symbol);
if (symbol->isMatrixSymbol()) {
int indexMatrix = symbol->name() - (char)Symbol::SpecialSymbols::M0;
assert(indexMatrix >= 0 && indexMatrix < k_maxNumberOfMatrixExpressions);
Expression * evaluation = expression ? expression->approximate<double>(context, Preferences::sharedPreferences()->angleUnit(), Preferences::sharedPreferences()->complexFormat()) : nullptr; // evaluate before deleting anything (to be able to evaluate M1+2->M1)
if (m_matrixExpressions[indexMatrix] != nullptr) {
delete m_matrixExpressions[indexMatrix];
m_matrixExpressions[indexMatrix] = nullptr;
}
if (m_matrixLayout[indexMatrix] != nullptr) {
delete m_matrixLayout[indexMatrix];
m_matrixLayout[indexMatrix] = nullptr;
}
if (evaluation != nullptr) {
if (evaluation->type() != Expression::Type::Matrix) {
m_matrixExpressions[indexMatrix] = new Matrix(&evaluation, 1, 1, false);
} else {
m_matrixExpressions[indexMatrix] = static_cast<Matrix *>(evaluation);
}
}
return;
}
if (index < 0 || index >= k_maxNumberOfScalarExpressions) {
return;
}
Expression * evaluation = expression ? expression->approximate<double>(context, Preferences::sharedPreferences()->angleUnit(), Preferences::sharedPreferences()->complexFormat()) : nullptr; // evaluate before deleting anything (to be able to evaluate A+2->A)
if (m_expressions[index] != nullptr) {
delete m_expressions[index];
m_expressions[index] = nullptr;
}
if (evaluation == nullptr) {
return;
}
if (evaluation->type() == Expression::Type::Matrix) {
m_expressions[index] = new Undefined();
delete evaluation;
} else {
m_expressions[index] = evaluation;
}
}
}
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