/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2010 Robert Bieber * * This program 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 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "symbols.h" #include "tag_table.h" #include "parsetreenode.h" #include "parsetreemodel.h" #include "rbimage.h" #include "rbprogressbar.h" #include "rbtoucharea.h" #include #include int ParseTreeNode::openConditionals = 0; bool ParseTreeNode::breakFlag = false; /* Root element constructor */ ParseTreeNode::ParseTreeNode(struct skin_element* data) : parent(0), element(0), param(0), children() { while(data) { children.append(new ParseTreeNode(data, this)); data = data->next; } } /* Normal element constructor */ ParseTreeNode::ParseTreeNode(struct skin_element* data, ParseTreeNode* parent) : parent(parent), element(data), param(0), children() { switch(element->type) { case TAG: for(int i = 0; i < element->params_count; i++) { if(element->params[i].type == skin_tag_parameter::CODE) children.append(new ParseTreeNode(element->params[i].data.code, this)); else children.append(new ParseTreeNode(&element->params[i], this)); } break; case CONDITIONAL: for(int i = 0; i < element->params_count; i++) children.append(new ParseTreeNode(&data->params[i], this)); for(int i = 0; i < element->children_count; i++) children.append(new ParseTreeNode(data->children[i], this)); break; case LINE_ALTERNATOR: for(int i = 0; i < element->children_count; i++) { children.append(new ParseTreeNode(data->children[i], this)); } break; case VIEWPORT: for(int i = 0; i < element->params_count; i++) children.append(new ParseTreeNode(&data->params[i], this)); /* Deliberate fall-through here */ case LINE: for(int i = 0; i < data->children_count; i++) { for(struct skin_element* current = data->children[i]; current; current = current->next) { children.append(new ParseTreeNode(current, this)); } } break; default: break; } } /* Parameter constructor */ ParseTreeNode::ParseTreeNode(skin_tag_parameter *data, ParseTreeNode *parent) : parent(parent), element(0), param(data), children() { } ParseTreeNode::~ParseTreeNode() { for(int i = 0; i < children.count(); i++) delete children[i]; } QString ParseTreeNode::genCode() const { QString buffer = ""; if(element) { switch(element->type) { case UNKNOWN: break; case VIEWPORT: /* Generating the Viewport tag, if necessary */ if(element->tag) { buffer.append(TAGSYM); buffer.append(element->tag->name); buffer.append(ARGLISTOPENSYM); for(int i = 0; i < element->params_count; i++) { buffer.append(children[i]->genCode()); if(i != element->params_count - 1) buffer.append(ARGLISTSEPERATESYM); } buffer.append(ARGLISTCLOSESYM); buffer.append('\n'); } for(int i = element->params_count; i < children.count(); i++) buffer.append(children[i]->genCode()); break; case LINE: for(int i = 0; i < children.count(); i++) { buffer.append(children[i]->genCode()); } if(openConditionals == 0 && !(parent && parent->element->type == LINE_ALTERNATOR)) { buffer.append('\n'); } break; case LINE_ALTERNATOR: for(int i = 0; i < children.count(); i++) { buffer.append(children[i]->genCode()); if(i != children.count() - 1) buffer.append(MULTILINESYM); } if(openConditionals == 0) buffer.append('\n'); break; case CONDITIONAL: openConditionals++; /* Inserting the tag part */ buffer.append(TAGSYM); buffer.append(CONDITIONSYM); buffer.append(element->tag->name); if(element->params_count > 0) { buffer.append(ARGLISTOPENSYM); for(int i = 0; i < element->params_count; i++) { buffer.append(children[i]->genCode()); if( i != element->params_count - 1) buffer.append(ARGLISTSEPERATESYM); buffer.append(ARGLISTCLOSESYM); } } /* Inserting the sublines */ buffer.append(ENUMLISTOPENSYM); for(int i = element->params_count; i < children.count(); i++) { buffer.append(children[i]->genCode()); if(i != children.count() - 1) buffer.append(ENUMLISTSEPERATESYM); } buffer.append(ENUMLISTCLOSESYM); openConditionals--; break; case TAG: buffer.append(TAGSYM); buffer.append(element->tag->name); if(element->params_count > 0) { /* Rendering parameters if there are any */ buffer.append(ARGLISTOPENSYM); for(int i = 0; i < children.count(); i++) { buffer.append(children[i]->genCode()); if(i != children.count() - 1) buffer.append(ARGLISTSEPERATESYM); } buffer.append(ARGLISTCLOSESYM); } if(element->tag->params[strlen(element->tag->params) - 1] == '\n') buffer.append('\n'); break; case TEXT: for(char* cursor = (char*)element->data; *cursor; cursor++) { if(find_escape_character(*cursor)) buffer.append(TAGSYM); buffer.append(*cursor); } break; case COMMENT: buffer.append(COMMENTSYM); buffer.append((char*)element->data); buffer.append('\n'); break; } } else if(param) { switch(param->type) { case skin_tag_parameter::STRING: for(char* cursor = param->data.text; *cursor; cursor++) { if(find_escape_character(*cursor)) buffer.append(TAGSYM); buffer.append(*cursor); } break; case skin_tag_parameter::INTEGER: buffer.append(QString::number(param->data.number, 10)); break; case skin_tag_parameter::DECIMAL: buffer.append(QString::number(param->data.number / 10., 'f', 1)); break; case skin_tag_parameter::DEFAULT: buffer.append(DEFAULTSYM); break; case skin_tag_parameter::CODE: buffer.append(QObject::tr("This doesn't belong here")); break; } } else { for(int i = 0; i < children.count(); i++) buffer.append(children[i]->genCode()); } return buffer; } /* A more or less random hashing algorithm */ int ParseTreeNode::genHash() const { int hash = 0; char *text; if(element) { hash += element->type; switch(element->type) { case UNKNOWN: break; case VIEWPORT: case LINE: case LINE_ALTERNATOR: case CONDITIONAL: hash += element->children_count; break; case TAG: for(unsigned int i = 0; i < strlen(element->tag->name); i++) hash += element->tag->name[i]; break; case COMMENT: case TEXT: text = (char*)element->data; for(unsigned int i = 0; i < strlen(text); i++) { if(i % 2) hash += text[i] % element->type; else hash += text[i] % element->type * 2; } break; } } if(param) { hash += param->type; switch(param->type) { case skin_tag_parameter::DEFAULT: case skin_tag_parameter::CODE: break; case skin_tag_parameter::INTEGER: hash += param->data.number * (param->data.number / 4); break; case skin_tag_parameter::STRING: for(unsigned int i = 0; i < strlen(param->data.text); i++) { if(i % 2) hash += param->data.text[i] * 2; else hash += param->data.text[i]; } break; case skin_tag_parameter::DECIMAL: hash += param->data.number; break; } } for(int i = 0; i < children.count(); i++) { hash += children[i]->genHash(); } return hash; } ParseTreeNode* ParseTreeNode::child(int row) { if(row < 0 || row >= children.count()) return 0; return children[row]; } int ParseTreeNode::numChildren() const { return children.count(); } QVariant ParseTreeNode::data(int column) const { switch(column) { case ParseTreeModel::typeColumn: if(element) { switch(element->type) { case UNKNOWN: return QObject::tr("Unknown"); case VIEWPORT: return QObject::tr("Viewport"); case LINE: return QObject::tr("Logical Line"); case LINE_ALTERNATOR: return QObject::tr("Alternator"); case COMMENT: return QObject::tr("Comment"); case CONDITIONAL: return QObject::tr("Conditional Tag"); case TAG: return QObject::tr("Tag"); case TEXT: return QObject::tr("Plaintext"); } } else if(param) { switch(param->type) { case skin_tag_parameter::STRING: return QObject::tr("String"); case skin_tag_parameter::INTEGER: return QObject::tr("Integer"); case skin_tag_parameter::DECIMAL: return QObject::tr("Decimal"); case skin_tag_parameter::DEFAULT: return QObject::tr("Default Argument"); case skin_tag_parameter::CODE: return QObject::tr("This doesn't belong here"); } } else { return QObject::tr("Root"); } break; case ParseTreeModel::valueColumn: if(element) { switch(element->type) { case UNKNOWN: case VIEWPORT: case LINE: case LINE_ALTERNATOR: return QString(); case CONDITIONAL: return QString(element->tag->name); case TEXT: case COMMENT: return QString((char*)element->data); case TAG: return QString(element->tag->name); } } else if(param) { switch(param->type) { case skin_tag_parameter::DEFAULT: return QObject::tr("-"); case skin_tag_parameter::STRING: return QString(param->data.text); case skin_tag_parameter::INTEGER: return QString::number(param->data.number, 10); case skin_tag_parameter::DECIMAL: return QString::number(param->data.number / 10., 'f', 1); case skin_tag_parameter::CODE: return QObject::tr("Seriously, something's wrong here"); } } else { return QString(); } break; case ParseTreeModel::lineColumn: if(element) return QString::number(element->line, 10); else return QString(); break; } return QVariant(); } int ParseTreeNode::getRow() const { if(!parent) return -1; return parent->children.indexOf(const_cast(this)); } ParseTreeNode* ParseTreeNode::getParent() const { return parent; } /* This version is called for the root node and for viewports */ void ParseTreeNode::render(const RBRenderInfo& info) { /* Parameters don't get rendered */ if(!element && param) return; /* If we're at the root, we need to render each viewport */ if(!element && !param) { for(int i = 0; i < children.count(); i++) { children[i]->render(info); } return; } if(element->type != VIEWPORT) { std::cerr << QObject::tr("Error in parse tree").toStdString() << std::endl; return; } rendered = new RBViewport(element, info); for(int i = element->params_count; i < children.count(); i++) children[i]->render(info, dynamic_cast(rendered)); } /* This version is called for logical lines, tags, conditionals and such */ void ParseTreeNode::render(const RBRenderInfo &info, RBViewport* viewport, bool noBreak) { if(element->type == LINE) { for(int i = 0; i < children.count(); i++) children[i]->render(info, viewport); if(!noBreak && !breakFlag) viewport->newLine(); else viewport->flushText(); if(breakFlag) breakFlag = false; } else if(element->type == TEXT) { viewport->write(QString(static_cast(element->data))); } else if(element->type == TAG) { if(!execTag(info, viewport)) viewport->write(evalTag(info).toString()); if(element->tag->flags & NOBREAK) breakFlag = true; } else if(element->type == CONDITIONAL) { int child = evalTag(info, true, element->children_count).toInt(); if(child < children.count()) children[element->params_count + child] ->render(info, viewport, true); } else if(element->type == LINE_ALTERNATOR) { /* First we build a list of the times for each branch */ QList times; for(int i = 0; i < children.count() ; i++) times.append(findBranchTime(children[i], info)); double totalTime = 0; for(int i = 0; i < children.count(); i++) totalTime += times[i]; /* Now we figure out which branch to select */ double timeLeft = info.device()->data(QString("simtime")).toDouble(); /* Skipping any full cycles */ timeLeft -= totalTime * std::floor(timeLeft / totalTime); int branch = 0; while(timeLeft > 0) { timeLeft -= times[branch]; if(timeLeft >= 0) branch++; else break; if(branch >= times.count()) branch = 0; } /* In case we end up on a disabled branch, skip ahead. If we find that * all the branches are disabled, don't render anything */ int originalBranch = branch; while(times[branch] == 0) { branch++; if(branch == originalBranch) { branch = -1; break; } if(branch >= times.count()) branch = 0; } /* ...and finally render the selected branch */ if(branch >= 0) children[branch]->render(info, viewport, true); } } bool ParseTreeNode::execTag(const RBRenderInfo& info, RBViewport* viewport) { QString filename; QString id; int x, y, tiles, tile, maxWidth, maxHeight, width, height; char c, hAlign, vAlign; RBImage* image; /* Two switch statements to narrow down the tag name */ switch(element->tag->name[0]) { case 'a': switch(element->tag->name[1]) { case 'c': /* %ac */ viewport->alignText(RBViewport::Center); return true; case 'l': /* %al */ viewport->alignText(RBViewport::Left); return true; case 'r': /* %ar */ viewport->alignText(RBViewport::Right); return true; case 'x': /* %ax */ return true; case 'L': /* %aL */ if(info.device()->data("rtl").toBool()) viewport->alignText(RBViewport::Right); else viewport->alignText(RBViewport::Left); return true; case 'R': /* %aR */ if(info.device()->data("rtl").toBool()) viewport->alignText(RBViewport::Left); else viewport->alignText(RBViewport::Right); return true; } return false; case 'p': switch(element->tag->name[1]) { case 'b': /* %pb */ new RBProgressBar(viewport, info, element->params_count, element->params); return true; case 'v': /* %pv */ if(element->params_count > 0) { new RBProgressBar(viewport, info, element->params_count, element->params, true); return true; } else return false; } return false; case 's': switch(element->tag->name[1]) { case '\0': /* %s */ viewport->scrollText(info.device()->data("simtime").toDouble()); return true; } return false; case 'w': switch(element->tag->name[1]) { case 'd': /* %wd */ info.screen()->breakSBS(); return true; case 'e': /* %we */ /* Totally extraneous */ return true; case 'i': /* %wi */ viewport->enableStatusBar(); return true; } return false; case 'x': switch(element->tag->name[1]) { case 'd': /* %xd */ id = ""; id.append(element->params[0].data.text[0]); c = element->params[0].data.text[1]; if(c == '\0') { tile = 1; } else { if(isupper(c)) tile = c - 'A' + 25; else tile = c - 'a'; } if(info.screen()->getImage(id)) { image = new RBImage(*(info.screen()->getImage(id)), viewport); image->setTile(tile); image->show(); } return true; case 'l': /* %xl */ id = element->params[0].data.text; filename = info.settings()->value("imagepath", "") + "/" + element->params[1].data.text; x = element->params[2].data.number; y = element->params[3].data.number; if(element->params_count > 4) tiles = element->params[4].data.number; else tiles = 1; info.screen()->loadImage(id, new RBImage(filename, tiles, x, y, viewport)); return true; case '\0': /* %x */ id = element->params[0].data.text; filename = info.settings()->value("imagepath", "") + "/" + element->params[1].data.text; x = element->params[2].data.number; y = element->params[3].data.number; image = new RBImage(filename, 1, x, y, viewport); info.screen()->loadImage(id, new RBImage(filename, 1, x, y, viewport)); info.screen()->getImage(id)->show(); return true; } return false; case 'C': switch(element->tag->name[1]) { case 'd': /* %Cd */ info.screen()->showAlbumArt(viewport); return true; case 'l': /* %Cl */ x = element->params[0].data.number; y = element->params[1].data.number; maxWidth = element->params[2].data.number; maxHeight = element->params[3].data.number; hAlign = element->params_count > 4 ? element->params[4].data.text[0] : 'c'; vAlign = element->params_count > 5 ? element->params[5].data.text[0] : 'c'; width = info.device()->data("artwidth").toInt(); height = info.device()->data("artheight").toInt(); info.screen()->setAlbumArt(new RBAlbumArt(viewport, x, y, maxWidth, maxHeight, width, height, hAlign, vAlign)); return true; } return false; case 'F': switch(element->tag->name[1]) { case 'l': /* %Fl */ x = element->params[0].data.number; filename = info.settings()->value("themebase", "") + "/fonts/" + element->params[1].data.text; info.screen()->loadFont(x, new RBFont(filename)); return true; } return false; case 'T': switch(element->tag->name[1]) { case '\0': /* %T */ if(element->params_count < 5) return false; int x = element->params[0].data.number; int y = element->params[1].data.number; int width = element->params[2].data.number; int height = element->params[3].data.number; QString action(element->params[4].data.text); RBTouchArea* temp = new RBTouchArea(width, height, action, info); x += viewport->x(); y += viewport->y(); temp->setPos(x, y); return true; } return false; case 'V': switch(element->tag->name[1]) { case 'b': /* %Vb */ viewport->setBGColor(RBScreen:: stringToColor(QString(element->params[0]. data.text), Qt::white)); return true; case 'd': /* %Vd */ id = element->params[0].data.text; info.screen()->showViewport(id); return true; case 'f': /* %Vf */ viewport->setFGColor(RBScreen:: stringToColor(QString(element->params[0]. data.text), Qt::black)); return true; case 'p': /* %Vp */ viewport->showPlaylist(info, element->params[0].data.number, element->params[1].data.code, element->params[2].data.code); return true; case 'I': /* %VI */ info.screen()->makeCustomUI(element->params[0].data.text); return true; } return false; case 'X': switch(element->tag->name[1]) { case '\0': /* %X */ filename = QString(element->params[0].data.text); if(info.sbsScreen() && info.screen()->parentItem()) info.sbsScreen()->setBackdrop(filename); else info.screen()->setBackdrop(filename); return true; } return false; } return false; } QVariant ParseTreeNode::evalTag(const RBRenderInfo& info, bool conditional, int branches) { if(!conditional) { return info.device()->data(QString(element->tag->name), element->params_count, element->params); } else { /* If we're evaluating for a conditional, we return the child branch * index that should be selected. For true/false values, this is * 0 for true, 1 for false, and we also have to make sure not to * ever exceed the number of available children */ int child; QVariant val = info.device()->data("?" + QString(element->tag->name)); if(val.isNull()) val = info.device()->data(QString(element->tag->name), element->params_count, element->params); if(val.isNull()) { child = 1; } else if(QString(element->tag->name) == "bl") { /* bl has to be scaled to the number of available children, but it * also has an initial -1 value for an unknown state */ child = val.toInt(); if(child == -1) { child = 0; } else { child = ((branches - 1) * child / 100) + 1; } } else if(QString(element->tag->name) == "pv") { /* ?pv gets scaled to the number of available children, sandwiched * in between mute and 0/>0dB. I assume a floor of -50dB for the * time being */ int dB = val.toInt(); if(dB < -50) child = 0; else if(dB == 0) child = branches - 2; else if(dB > 0) child = branches - 1; else { int options = branches - 3; child = (options * (dB + 50)) / 50; } } else if(QString(element->tag->name) == "px") { child = val.toInt(); child = branches * child / 100; } else if(val.type() == QVariant::Bool) { /* Boolean values have to be reversed, because conditionals are * always of the form %?tag */ if(val.toBool()) child = 0; else child = 1; } else if(val.type() == QVariant::String) { if(val.toString().length() > 0) child = 0; else child = 1; } else if(element->tag->name[0] == 'i' || element->tag->name[0] == 'I' || element->tag->name[0] == 'f' || element->tag->name[0] == 'F') { if(info.device()->data("id3available").toBool()) child = 0; else child = 1; } else { child = val.toInt(); } if(child < 0) child = 0; if(child < branches) return child; else if(branches == 1) return 2; else return branches - 1; } } double ParseTreeNode::findBranchTime(ParseTreeNode *branch, const RBRenderInfo& info) { double retval = 2; for(int i = 0; i < branch->children.count(); i++) { ParseTreeNode* current = branch->children[i]; if(current->element->type == TAG) { if(current->element->tag->name[0] == 't' && current->element->tag->name[1] == '\0') { retval = current->element->params[0].data.number / 10.; } } else if(current->element->type == CONDITIONAL) { retval = findConditionalTime(current, info); } } return retval; } double ParseTreeNode::findConditionalTime(ParseTreeNode *conditional, const RBRenderInfo& info) { int child = conditional->evalTag(info, true, conditional->children.count()).toInt(); return findBranchTime(conditional->children[child], info); }