/**************************************************************************** ** ** Copyright (C) 2015 The Qt Company Ltd. ** Contact: http://www.qt.io/licensing/ ** ** This file is part of the QtQml module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL21$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see http://www.qt.io/terms-conditions. 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These rights are described in The Qt Company LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qv4mathobject_p.h" #include "qv4objectproto_p.h" #include #include #include #include #include using namespace QV4; DEFINE_OBJECT_VTABLE(MathObject); static const double qt_PI = 2.0 * ::asin(1.0); Heap::MathObject::MathObject(ExecutionEngine *e) : Heap::Object(e->emptyClass, e->objectPrototype()) { Scope scope(e); ScopedObject m(scope, this); m->defineReadonlyProperty(QStringLiteral("E"), Primitive::fromDouble(M_E)); m->defineReadonlyProperty(QStringLiteral("LN2"), Primitive::fromDouble(M_LN2)); m->defineReadonlyProperty(QStringLiteral("LN10"), Primitive::fromDouble(M_LN10)); m->defineReadonlyProperty(QStringLiteral("LOG2E"), Primitive::fromDouble(M_LOG2E)); m->defineReadonlyProperty(QStringLiteral("LOG10E"), Primitive::fromDouble(M_LOG10E)); m->defineReadonlyProperty(QStringLiteral("PI"), Primitive::fromDouble(M_PI)); m->defineReadonlyProperty(QStringLiteral("SQRT1_2"), Primitive::fromDouble(M_SQRT1_2)); m->defineReadonlyProperty(QStringLiteral("SQRT2"), Primitive::fromDouble(M_SQRT2)); m->defineDefaultProperty(QStringLiteral("abs"), QV4::MathObject::method_abs, 1); m->defineDefaultProperty(QStringLiteral("acos"), QV4::MathObject::method_acos, 1); m->defineDefaultProperty(QStringLiteral("asin"), QV4::MathObject::method_asin, 0); m->defineDefaultProperty(QStringLiteral("atan"), QV4::MathObject::method_atan, 1); m->defineDefaultProperty(QStringLiteral("atan2"), QV4::MathObject::method_atan2, 2); m->defineDefaultProperty(QStringLiteral("ceil"), QV4::MathObject::method_ceil, 1); m->defineDefaultProperty(QStringLiteral("cos"), QV4::MathObject::method_cos, 1); m->defineDefaultProperty(QStringLiteral("exp"), QV4::MathObject::method_exp, 1); m->defineDefaultProperty(QStringLiteral("floor"), QV4::MathObject::method_floor, 1); m->defineDefaultProperty(QStringLiteral("log"), QV4::MathObject::method_log, 1); m->defineDefaultProperty(QStringLiteral("max"), QV4::MathObject::method_max, 2); m->defineDefaultProperty(QStringLiteral("min"), QV4::MathObject::method_min, 2); m->defineDefaultProperty(QStringLiteral("pow"), QV4::MathObject::method_pow, 2); m->defineDefaultProperty(QStringLiteral("random"), QV4::MathObject::method_random, 0); m->defineDefaultProperty(QStringLiteral("round"), QV4::MathObject::method_round, 1); m->defineDefaultProperty(QStringLiteral("sin"), QV4::MathObject::method_sin, 1); m->defineDefaultProperty(QStringLiteral("sqrt"), QV4::MathObject::method_sqrt, 1); m->defineDefaultProperty(QStringLiteral("tan"), QV4::MathObject::method_tan, 1); } /* copies the sign from y to x and returns the result */ static double copySign(double x, double y) { uchar *xch = (uchar *)&x; uchar *ych = (uchar *)&y; if (QSysInfo::ByteOrder == QSysInfo::BigEndian) xch[0] = (xch[0] & 0x7f) | (ych[0] & 0x80); else xch[7] = (xch[7] & 0x7f) | (ych[7] & 0x80); return x; } ReturnedValue MathObject::method_abs(CallContext *context) { if (!context->argc()) return Encode(qSNaN()); if (context->args()[0].isInteger()) { int i = context->args()[0].integerValue(); return Encode(i < 0 ? - i : i); } double v = context->args()[0].toNumber(); if (v == 0) // 0 | -0 return Encode(0); return Encode(v < 0 ? -v : v); } ReturnedValue MathObject::method_acos(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : 2; if (v > 1) return Encode(qSNaN()); return Encode(std::acos(v)); } ReturnedValue MathObject::method_asin(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : 2; if (v > 1) return Encode(qSNaN()); else return Encode(std::asin(v)); } ReturnedValue MathObject::method_atan(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); if (v == 0.0) return Encode(v); else return Encode(std::atan(v)); } ReturnedValue MathObject::method_atan2(CallContext *context) { double v1 = context->argc() ? context->args()[0].toNumber() : qSNaN(); double v2 = context->argc() > 1 ? context->args()[1].toNumber() : qSNaN(); if ((v1 < 0) && qIsFinite(v1) && qIsInf(v2) && (copySign(1.0, v2) == 1.0)) return Encode(copySign(0, -1.0)); if ((v1 == 0.0) && (v2 == 0.0)) { if ((copySign(1.0, v1) == 1.0) && (copySign(1.0, v2) == -1.0)) { return Encode(M_PI); } else if ((copySign(1.0, v1) == -1.0) && (copySign(1.0, v2) == -1.0)) { return Encode(-M_PI); } } return Encode(std::atan2(v1, v2)); } ReturnedValue MathObject::method_ceil(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); if (v < 0.0 && v > -1.0) return Encode(copySign(0, -1.0)); else return Encode(std::ceil(v)); } ReturnedValue MathObject::method_cos(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); return Encode(std::cos(v)); } ReturnedValue MathObject::method_exp(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); if (qIsInf(v)) { if (copySign(1.0, v) == -1.0) return Encode(0); else return Encode(qInf()); } else { return Encode(std::exp(v)); } } ReturnedValue MathObject::method_floor(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); return Encode(std::floor(v)); } ReturnedValue MathObject::method_log(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); if (v < 0) return Encode(qSNaN()); else return Encode(std::log(v)); } ReturnedValue MathObject::method_max(CallContext *context) { double mx = -qInf(); for (int i = 0; i < context->argc(); ++i) { double x = context->args()[i].toNumber(); if (x > mx || std::isnan(x)) mx = x; } return Encode(mx); } ReturnedValue MathObject::method_min(CallContext *context) { double mx = qInf(); for (int i = 0; i < context->argc(); ++i) { double x = context->args()[i].toNumber(); if ((x == 0 && mx == x && copySign(1.0, x) == -1.0) || (x < mx) || std::isnan(x)) { mx = x; } } return Encode(mx); } ReturnedValue MathObject::method_pow(CallContext *context) { double x = context->argc() > 0 ? context->args()[0].toNumber() : qSNaN(); double y = context->argc() > 1 ? context->args()[1].toNumber() : qSNaN(); if (std::isnan(y)) return Encode(qSNaN()); if (y == 0) { return Encode(1); } else if (((x == 1) || (x == -1)) && std::isinf(y)) { return Encode(qSNaN()); } else if (((x == 0) && copySign(1.0, x) == 1.0) && (y < 0)) { return Encode(qInf()); } else if ((x == 0) && copySign(1.0, x) == -1.0) { if (y < 0) { if (std::fmod(-y, 2.0) == 1.0) return Encode(-qInf()); else return Encode(qInf()); } else if (y > 0) { if (std::fmod(y, 2.0) == 1.0) return Encode(copySign(0, -1.0)); else return Encode(0); } } #ifdef Q_OS_AIX else if (qIsInf(x) && copySign(1.0, x) == -1.0) { if (y > 0) { if (std::fmod(y, 2.0) == 1.0) return Encode(-qInf()); else return Encode(qInf()); } else if (y < 0) { if (std::fmod(-y, 2.0) == 1.0) return Encode(copySign(0, -1.0)); else return Encode(0); } } #endif else { return Encode(std::pow(x, y)); } // ### return Encode(qSNaN()); } Q_GLOBAL_STATIC(QThreadStorage, seedCreatedStorage); ReturnedValue MathObject::method_random(CallContext *context) { if (!seedCreatedStorage()->hasLocalData()) { qsrand(QTime(0,0,0).msecsTo(QTime::currentTime()) ^ reinterpret_cast(context)); seedCreatedStorage()->setLocalData(new bool(true)); } return Encode(qrand() / (double) RAND_MAX); } ReturnedValue MathObject::method_round(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); v = copySign(std::floor(v + 0.5), v); return Encode(v); } ReturnedValue MathObject::method_sin(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); return Encode(std::sin(v)); } ReturnedValue MathObject::method_sqrt(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); return Encode(std::sqrt(v)); } ReturnedValue MathObject::method_tan(CallContext *context) { double v = context->argc() ? context->args()[0].toNumber() : qSNaN(); if (v == 0.0) return Encode(v); else return Encode(std::tan(v)); }