/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the demonstration applications of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include <QtCore> #include <QtGui> #include <math.h> #ifndef M_PI #define M_PI 3.14159265358979323846 #endif #define WORLD_SIZE 8 int world_map[WORLD_SIZE][WORLD_SIZE] = { { 1, 1, 1, 1, 6, 1, 1, 1 }, { 1, 0, 0, 1, 0, 0, 0, 7 }, { 1, 1, 0, 1, 0, 1, 1, 1 }, { 6, 0, 0, 0, 0, 0, 0, 3 }, { 1, 8, 8, 0, 8, 0, 8, 1 }, { 2, 2, 0, 0, 8, 8, 7, 1 }, { 3, 0, 0, 0, 0, 0, 0, 5 }, { 2, 2, 2, 2, 7, 4, 4, 4 }, }; #define TEXTURE_SIZE 64 #define TEXTURE_BLOCK (TEXTURE_SIZE * TEXTURE_SIZE) class Raycasting: public QWidget { public: Raycasting(QWidget *parent = 0) : QWidget(parent) , angle(0.5) , playerPos(1.5, 1.5) , angleDelta(0) , moveDelta(0) , touchDevice(false) { // http://www.areyep.com/RIPandMCS-TextureLibrary.html textureImg.load(":/textures.png"); textureImg = textureImg.convertToFormat(QImage::Format_ARGB32); Q_ASSERT(textureImg.width() == TEXTURE_SIZE * 2); Q_ASSERT(textureImg.bytesPerLine() == 4 * TEXTURE_SIZE * 2); textureCount = textureImg.height() / TEXTURE_SIZE; watch.start(); ticker.start(25, this); setAttribute(Qt::WA_OpaquePaintEvent, true); setMouseTracking(false); } void updatePlayer() { int interval = qBound(20, watch.elapsed(), 250); watch.start(); angle += angleDelta * interval / 1000; qreal step = moveDelta * interval / 1000; qreal dx = cos(angle) * step; qreal dy = sin(angle) * step; QPointF pos = playerPos + 3 * QPointF(dx, dy); int xi = static_cast<int>(pos.x()); int yi = static_cast<int>(pos.y()); if (world_map[yi][xi] == 0) playerPos = playerPos + QPointF(dx, dy); } void showFps() { static QTime frameTick; static int totalFrame = 0; if (!(totalFrame & 31)) { int elapsed = frameTick.elapsed(); frameTick.start(); int fps = 32 * 1000 / (1 + elapsed); setWindowTitle(QString("Raycasting (%1 FPS)").arg(fps)); } totalFrame++; } void render() { // setup the screen surface if (buffer.size() != bufferSize) buffer = QImage(bufferSize, QImage::Format_ARGB32); int bufw = buffer.width(); int bufh = buffer.height(); if (bufw <= 0 || bufh <= 0) return; // we intentionally cheat here, to avoid detach const uchar *ptr = buffer.bits(); QRgb *start = (QRgb*)(ptr); QRgb stride = buffer.bytesPerLine() / 4; QRgb *finish = start + stride * bufh; // prepare the texture pointer const uchar *src = textureImg.bits(); const QRgb *texsrc = reinterpret_cast<const QRgb*>(src); // cast all rays here qreal sina = sin(angle); qreal cosa = cos(angle); qreal u = cosa - sina; qreal v = sina + cosa; qreal du = 2 * sina / bufw; qreal dv = -2 * cosa / bufw; for (int ray = 0; ray < bufw; ++ray, u += du, v += dv) { // every time this ray advances 'u' units in x direction, // it also advanced 'v' units in y direction qreal uu = (u < 0) ? -u : u; qreal vv = (v < 0) ? -v : v; qreal duu = 1 / uu; qreal dvv = 1 / vv; int stepx = (u < 0) ? -1 : 1; int stepy = (v < 0) ? -1 : 1; // the cell in the map that we need to check qreal px = playerPos.x(); qreal py = playerPos.y(); int mapx = static_cast<int>(px); int mapy = static_cast<int>(py); // the position and texture for the hit int texture = 0; qreal hitdist = 0.1; qreal texofs = 0; bool dark = false; // first hit at constant x and constant y lines qreal distx = (u > 0) ? (mapx + 1 - px) * duu : (px - mapx) * duu; qreal disty = (v > 0) ? (mapy + 1 - py) * dvv : (py - mapy) * dvv; // loop until we hit something while (texture <= 0) { if (distx > disty) { // shorter distance to a hit in constant y line hitdist = disty; disty += dvv; mapy += stepy; texture = world_map[mapy][mapx]; if (texture > 0) { dark = true; if (stepy > 0) { qreal ofs = px + u * (mapy - py) / v; texofs = ofs - floor(ofs); } else { qreal ofs = px + u * (mapy + 1 - py) / v; texofs = ofs - floor(ofs); } } } else { // shorter distance to a hit in constant x line hitdist = distx; distx += duu; mapx += stepx; texture = world_map[mapy][mapx]; if (texture > 0) { if (stepx > 0) { qreal ofs = py + v * (mapx - px) / u; texofs = ofs - floor(ofs); } else { qreal ofs = py + v * (mapx + 1 - px) / u; texofs = ceil(ofs) - ofs; } } } } // get the texture, note that the texture image // has two textures horizontally, "normal" vs "dark" int col = static_cast<int>(texofs * TEXTURE_SIZE); col = qBound(0, col, TEXTURE_SIZE - 1); texture = (texture - 1) % textureCount; const QRgb *tex = texsrc + TEXTURE_BLOCK * texture * 2 + (TEXTURE_SIZE * 2 * col); if (dark) tex += TEXTURE_SIZE; // start from the texture center (horizontally) int h = static_cast<int>(bufw / hitdist / 2); int dy = (TEXTURE_SIZE << 12) / h; int p1 = ((TEXTURE_SIZE / 2) << 12) - dy; int p2 = p1 + dy; // start from the screen center (vertically) // y1 will go up (decrease), y2 will go down (increase) int y1 = bufh / 2; int y2 = y1 + 1; QRgb *pixel1 = start + y1 * stride + ray; QRgb *pixel2 = pixel1 + stride; // map the texture to the sliver while (y1 >= 0 && y2 < bufh && p1 >= 0) { *pixel1 = tex[p1 >> 12]; *pixel2 = tex[p2 >> 12]; p1 -= dy; p2 += dy; --y1; ++y2; pixel1 -= stride; pixel2 += stride; } // ceiling and floor for (; pixel1 > start; pixel1 -= stride) *pixel1 = qRgb(0, 0, 0); for (; pixel2 < finish; pixel2 += stride) *pixel2 = qRgb(96, 96, 96); } update(QRect(QPoint(0, 0), bufferSize)); } protected: void resizeEvent(QResizeEvent*) { #if defined(Q_OS_WINCE_WM) touchDevice = true; #elif defined(Q_OS_SYMBIAN) // FIXME: use HAL if (width() > 480 || height() > 480) touchDevice = true; #else touchDevice = false; #endif if (touchDevice) { if (width() < height()) { trackPad = QRect(0, height() / 2, width(), height() / 2); centerPad = QPoint(width() / 2, height() * 3 / 4); bufferSize = QSize(width(), height() / 2); } else { trackPad = QRect(width() / 2, 0, width() / 2, height()); centerPad = QPoint(width() * 3 / 4, height() / 2); bufferSize = QSize(width() / 2, height()); } } else { trackPad = QRect(); bufferSize = size(); } update(); } void timerEvent(QTimerEvent*) { updatePlayer(); render(); showFps(); } void paintEvent(QPaintEvent *event) { QPainter p(this); p.setCompositionMode(QPainter::CompositionMode_Source); p.drawImage(event->rect(), buffer, event->rect()); if (touchDevice && event->rect().intersects(trackPad)) { p.fillRect(trackPad, Qt::white); p.setPen(QPen(QColor(224, 224, 224), 6)); int rad = qMin(trackPad.width(), trackPad.height()) * 0.3; p.drawEllipse(centerPad, rad, rad); p.setPen(Qt::NoPen); p.setBrush(Qt::gray); QPolygon poly; poly << QPoint(-30, 0); poly << QPoint(0, -40); poly << QPoint(30, 0); p.translate(centerPad); for (int i = 0; i < 4; ++i) { p.rotate(90); p.translate(0, 20 - rad); p.drawPolygon(poly); p.translate(0, rad - 20); } } p.end(); } void keyPressEvent(QKeyEvent *event) { event->accept(); if (event->key() == Qt::Key_Left) angleDelta = 1.3 * M_PI; if (event->key() == Qt::Key_Right) angleDelta = -1.3 * M_PI; if (event->key() == Qt::Key_Up) moveDelta = 2.5; if (event->key() == Qt::Key_Down) moveDelta = -2.5; } void keyReleaseEvent(QKeyEvent *event) { event->accept(); if (event->key() == Qt::Key_Left) angleDelta = (angleDelta > 0) ? 0 : angleDelta; if (event->key() == Qt::Key_Right) angleDelta = (angleDelta < 0) ? 0 : angleDelta; if (event->key() == Qt::Key_Up) moveDelta = (moveDelta > 0) ? 0 : moveDelta; if (event->key() == Qt::Key_Down) moveDelta = (moveDelta < 0) ? 0 : moveDelta; } void mousePressEvent(QMouseEvent *event) { qreal dx = centerPad.x() - event->pos().x(); qreal dy = centerPad.y() - event->pos().y(); angleDelta = dx * 2 * M_PI / width(); moveDelta = dy * 10 / height(); } void mouseMoveEvent(QMouseEvent *event) { qreal dx = centerPad.x() - event->pos().x(); qreal dy = centerPad.y() - event->pos().y(); angleDelta = dx * 2 * M_PI / width(); moveDelta = dy * 10 / height(); } void mouseReleaseEvent(QMouseEvent*) { angleDelta = 0; moveDelta = 0; } private: QTime watch; QBasicTimer ticker; QImage buffer; qreal angle; QPointF playerPos; qreal angleDelta; qreal moveDelta; QImage textureImg; int textureCount; bool touchDevice; QRect trackPad; QPoint centerPad; QSize bufferSize; }; int main(int argc, char **argv) { QApplication app(argc, argv); Raycasting w; w.setWindowTitle("Raycasting"); #if defined(Q_OS_SYMBIAN) || defined(Q_OS_WINCE_WM) w.showMaximized(); #else w.resize(640, 480); w.show(); #endif return app.exec(); }
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