#include "nex.h" #include "gui.h" #include #include #include #include #include #include #include #include #include #include "renderers.h" Mutex runLock; Nex *Nex::sNex=0; TQTime timer; Renderer::Renderer() {} Renderer::~Renderer() {} Thread::Thread() : mThread(0) { } Thread::~Thread() { if (mThread) kill(); } void Thread::start() { mThread=SDL_CreateThread(&threadRun, (void*)this); } void Thread::kill() { SDL_KillThread(mThread); } int Thread::wait() { int val; SDL_WaitThread(mThread, &val); return val; } int Thread::threadRun(void *v) { Thread *t=(Thread*)v; return t->run(); } NexCheckBox::NexCheckBox(TQWidget *parent, const TQString &name, bool *v) : TQCheckBox(name, parent) { value=v; setChecked(*v); connect(this, TQT_SIGNAL(toggled(bool)), TQT_SLOT(change(bool))); } void NexCheckBox::change(bool b) { *value=b; } NexColorButton::NexColorButton(TQWidget *parent, Pixel *color) : KColorButton(parent) { c=color; TQColor temp( (*c >> 16) & 0xFF, (*c >> 8) & 0xFF, *c & 0xFF); setColor(temp); connect(this, TQT_SIGNAL(changed(const TQColor&)), TQT_SLOT(change(const TQColor&))); } void NexColorButton::change(const TQColor &co) { *c= COLOR(tqRed(co.rgb()), tqGreen(co.rgb()), tqBlue(co.rgb())); } void Bitmap::resize(int w, int h) { delete [] mData; mData=new Pixel[w*h]; } void Bitmap::clear() { memset(mData, 0, bytes()); } void Bitmap::drawCircle(int x, int y, int r, Pixel color) { int16_t cx = 0; int16_t cy = r; int16_t ocx = -1; int16_t ocy = -1; int16_t df = 1 - r; int16_t d_e = 3; int16_t d_se = -2 * r + 5; int16_t xpcx, xmcx, xpcy, xmcy; int16_t ypcy, ymcy, ypcx, ymcx; do { // Draw if ((ocy!=cy) || (ocx!=cx)) { xpcx=x+cx; xmcx=x-cx; if (cy>0) { ypcy=y+cy; ymcy=y-cy; setPixel(xmcx,ypcy,color); setPixel(xpcx,ypcy,color); setPixel(xmcx,ymcy,color); setPixel(xpcx,ymcy,color); } else { setPixel(xmcx,y,color); setPixel(xpcx,y,color); } ocy=cy; xpcy=x+cy; xmcy=x-cy; if (cx>0) { ypcx=y+cx; ymcx=y-cx; setPixel(xmcy,ypcx,color); setPixel(xpcy,ypcx,color); setPixel(xmcy,ymcx,color); setPixel(xpcy,ymcx,color); } else { setPixel(xmcy,y,color); setPixel(xpcy,y,color); } ocx=cx; } // Update if (df < 0) { df += d_e; d_e += 2; d_se += 2; } else { df += d_se; d_e += 2; d_se += 4; cy--; } cx++; } while(cx <= cy); } void Bitmap::fillCircle(int x, int y, int r, Pixel color) { int16_t cx = 0; int16_t cy = r; int16_t ocx = -1; int16_t ocy = -1; int16_t df = 1 - r; int16_t d_e = 3; int16_t d_se = -2 * r + 5; int16_t xpcx, xmcx, xpcy, xmcy; int16_t ypcy, ymcy, ypcx, ymcx; do { // Draw if ((ocy!=cy) || (ocx!=cx)) { xpcx=x+cx; xmcx=x-cx; if (cy>0) { ypcy=y+cy; ymcy=y-cy; setPixel(xmcx,ypcy,color); setPixel(xpcx,ypcy,color); setPixel(xmcx,ymcy,color); setPixel(xpcx,ymcy,color); for (int h=xmcx; h0) { ypcx=y+cx; ymcx=y-cx; setPixel(xmcy,ypcx,color); setPixel(xpcy,ypcx,color); setPixel(xmcy,ymcx,color); setPixel(xpcy,ymcx,color); for (int h=xmcy; h= 0) ? 1 : -1; dx = sx * dx + 1; int dy = y2 - y1; int sy = (dy >= 0) ? 1 : -1; dy = sy * dy + 1; int pixx = sizeof(Pixel); int pixy = width*sizeof(Pixel); uint8_t *pixel = (uint8_t*)pixels() + pixx * x1 + pixy * y1; pixx *= sx; pixy *= sy; if (dx < dy) { int swaptmp = dx; dx = dy; dy = swaptmp; swaptmp = pixx; pixx = pixy; pixy = swaptmp; } // Draw int y=0; for(int x=0; x < dx; x++, pixel += pixx) { *(Pixel*)pixel=color; y += dy; if (y >= dx) { y -= dx; pixel += pixy; } } } RendererList::RendererList() : mClearAfter(false) { mFrame=nex->bitmapPool()->get(true); } RendererList::~RendererList() { nex->bitmapPool()->release(mFrame); } Bitmap *RendererList::render(float *pcm[4], Bitmap *source) { if (mClearAfter) mFrame->clear(); lock(); for (TQPtrListIterator i(mRendererList); i.current(); ++i) { Bitmap *newframe=(*i)->render(pcm, mFrame); if (newframe!=mFrame) { nex->bitmapPool()->release(mFrame); mFrame=newframe; } } unlock(); // add source+=source; return source; uint8_t *d=(uint8_t*)source->pixels(); uint8_t *end=(uint8_t*)((uint8_t*)d+source->bytes()); uint8_t *s=(uint8_t*)mFrame->pixels(); while (d i(mRendererList); *i; ++i) { TQDomElement item; (*i)->save(item); e.appendChild(item); } unlock(); } void RendererList::load(const TQDomElement &e) { lock(); for (TQDomNode n=e.firstChild(); !n.isNull(); n=n.nextSibling()) { if (!n.isElement()) continue; TQDomElement child=n.toElement(); Renderer *r=0; if (e.tagName()=="List") r=new RendererList; else r=nex->renderer(e.tagName()); if (!r) continue; r->load(child); mRendererList.append(r); } unlock(); } TQWidget *RendererList::configure(TQWidget *parent) { return new RendererListConfigurator(this, parent); } RendererListConfigurator::RendererListConfigurator(RendererList *l, TQWidget *parent) : TQWidget(parent), mList(l) { (new TQVBoxLayout(this))->setAutoAdd(true); mErase=new TQCheckBox(i18n("&Erase between frames"), this); connect(mErase, TQT_SIGNAL(toggled(bool)), TQT_SLOT(eraseOn(bool))); mErase->setChecked(mList->mClearAfter); if (nex->rendererList()==l) { TQCheckBox *mConvolve=new TQCheckBox(i18n("&Convolve audio"), this); connect(mConvolve, TQT_SIGNAL(toggled(bool)), TQT_SLOT(convolve(bool))); mConvolve->setChecked(nex->input()->convolve()); } new TQLabel(i18n("Comments"), this); mComments=new TQMultiLineEdit(this); mComments->setText(l->mComments); mComments->setWordWrap(TQMultiLineEdit::WidgetWidth); } RendererListConfigurator::~RendererListConfigurator() { mList->mComments=mComments->text(); } void RendererListConfigurator::eraseOn(bool state) { mList->mClearAfter=state; } void RendererListConfigurator::convolve(bool state) { nex->input()->setConvolve(state); } #define INSERT(name, func) mCreators.insert(name, new CreatorSig*(&func)) Nex::Nex() { sNex=this; mBitmapPool=0; mRendererList=0; setupSize(width, height); INSERT("Fade", Creators::fade); INSERT("Doubler", Creators::doubler); INSERT("Waveform", Creators::waveform); INSERT("Hartley", Creators::hartley); } #undef INSERT void Nex::setupSize(int , int ) { mInput=new Input; delete mBitmapPool; delete mRendererList; mBitmapPool=new BitmapPool(); mRendererList=new RendererList; } Nex::~Nex() { delete mRendererList; delete mBitmapPool; } #define NOTHREAD void Nex::go() { runLock.unlock(); float *audio[6]; Bitmap *frame; frame=mBitmapPool->get(true); int frames=0; TQTime start(TQTime::currentTime()); while (1) { mInput->getAudio(audio); mRendererList->render(audio, frame); int result=mOutput.display(frame); frames++; switch (result) { case OutputSDL::Exit: std::cerr << "Trying" << std::endl; delete mInput; std::cerr << "Deleted" << std::endl; std::cout << "Frames per Second: " << frames/start.secsTo(TQTime::currentTime()) << std::endl; return; case OutputSDL::Resize: // setupSize(width, height); break; } #ifdef NOTHREAD kapp->processEvents(); #endif frame->clear(); } } Renderer *Nex::renderer(const TQString &name) { CreatorSig **sig=mCreators[name]; if (sig) return (**sig)(); else return 0; } TQStringList Nex::renderers() const { TQDictIterator i(mCreators); TQStringList list; for (;i.current(); ++i) list += i.currentKey(); return list; } #ifndef NOTHREAD class VisThread : public Thread { public: virtual int run() { Nex::sNex->go(); exit(0); return 0; } }; #endif int main(int argc, char **argv) { Nex theNex; Nex::sNex=&theNex; #ifndef NOTHREAD runLock.lock(); VisThread vis; vis.start(); runLock.lock(); #endif KAboutData aboutData("nex", I18N_NOOP("Nex"), "0.0.1", I18N_NOOP("The awesome customizable scope"), KAboutData::License_LGPL, "(C) 2001 Charles Samuels", 0, "http://noatun.kde.org"); aboutData.addAuthor("Charles Samuels", I18N_NOOP("Nex Author"), "charles@kde.org"); TDECmdLineArgs::init( argc, argv, &aboutData ); TDEApplication app; (new Control)->show(); #ifdef NOTHREAD theNex.go(); #else app.exec(); vis.wait(); #endif exit(0); //prevent segfault on exit, for some reason return 0; } #include "nex.moc"