/* ============================================================================== This file is part of the JUCE library - "Jules' Utility Class Extensions" Copyright 2004-11 by Raw Material Software Ltd. ------------------------------------------------------------------------------ JUCE can be redistributed and/or modified under the terms of the GNU General Public License (Version 2), as published by the Free Software Foundation. A copy of the license is included in the JUCE distribution, or can be found online at www.gnu.org/licenses. JUCE is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. ------------------------------------------------------------------------------ To release a closed-source product which uses JUCE, commercial licenses are available: visit www.rawmaterialsoftware.com/juce for more information. ============================================================================== */ #include "../jucer_Headers.h" //============================================================================== int64 hashCode64 (const String& s) { return s.hashCode64() + s.length() * s.hashCode() + s.toUpperCase().hashCode(); } String createAlphaNumericUID() { String uid; static const char chars[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789"; Random r; uid << chars [r.nextInt (52)]; // make sure the first character is always a letter for (int i = 5; --i >= 0;) { r.setSeedRandomly(); uid << chars [r.nextInt (numElementsInArray (chars))]; } return uid; } String randomHexString (Random& random, int numChars) { String s; const char hexChars[] = "0123456789ABCDEF"; while (--numChars >= 0) s << hexChars [random.nextInt() & 15]; return s; } String hexString8Digits (int value) { return String::toHexString (value).paddedLeft ('0', 8); } String createGUID (const String& seed) { String guid; Random r (hashCode64 (seed + "_jucersalt")); guid << "{" << randomHexString (r, 8); // (written as separate statements to enforce the order of execution) guid << "-" << randomHexString (r, 4); guid << "-" << randomHexString (r, 4); guid << "-" << randomHexString (r, 4); guid << "-" << randomHexString (r, 12) << "}"; return guid; } String escapeSpaces (const String& s) { return s.replace (" ", "\\ "); } //============================================================================== StringPairArray parsePreprocessorDefs (const String& text) { StringPairArray result; String::CharPointerType s (text.getCharPointer()); while (! s.isEmpty()) { String token, value; s = s.findEndOfWhitespace(); while ((! s.isEmpty()) && *s != '=' && ! s.isWhitespace()) token << s.getAndAdvance(); s = s.findEndOfWhitespace(); if (*s == '=') { ++s; s = s.findEndOfWhitespace(); while ((! s.isEmpty()) && ! s.isWhitespace()) { if (*s == ',') { ++s; break; } if (*s == '\\' && (s[1] == ' ' || s[1] == ',')) ++s; value << s.getAndAdvance(); } } if (token.isNotEmpty()) result.set (token, value); } return result; } StringPairArray mergePreprocessorDefs (StringPairArray inheritedDefs, const StringPairArray& overridingDefs) { for (int i = 0; i < overridingDefs.size(); ++i) inheritedDefs.set (overridingDefs.getAllKeys()[i], overridingDefs.getAllValues()[i]); return inheritedDefs; } String createGCCPreprocessorFlags (const StringPairArray& defs) { String s; for (int i = 0; i < defs.size(); ++i) { String def (defs.getAllKeys()[i]); const String value (defs.getAllValues()[i]); if (value.isNotEmpty()) def << "=" << value; s += " -D " + def.quoted(); } return s; } String replacePreprocessorDefs (const StringPairArray& definitions, String sourceString) { for (int i = 0; i < definitions.size(); ++i) { const String key (definitions.getAllKeys()[i]); const String value (definitions.getAllValues()[i]); sourceString = sourceString.replace ("${" + key + "}", value); } return sourceString; } //============================================================================== void autoScrollForMouseEvent (const MouseEvent& e, bool scrollX, bool scrollY) { Viewport* const viewport = e.eventComponent->findParentComponentOfClass ((Viewport*) 0); if (viewport != nullptr) { const MouseEvent e2 (e.getEventRelativeTo (viewport)); viewport->autoScroll (scrollX ? e2.x : 20, scrollY ? e2.y : 20, 8, 16); } } void drawComponentPlaceholder (Graphics& g, int w, int h, const String& text) { g.fillAll (Colours::white.withAlpha (0.4f)); g.setColour (Colours::grey); g.drawRect (0, 0, w, h); g.drawLine (0.5f, 0.5f, w - 0.5f, h - 0.5f); g.drawLine (0.5f, h - 0.5f, w - 0.5f, 0.5f); g.setColour (Colours::black); g.setFont (11.0f); g.drawFittedText (text, 2, 2, w - 4, h - 4, Justification::centredTop, 2); } void drawRecessedShadows (Graphics& g, int w, int h, int shadowSize) { ColourGradient cg (Colours::black.withAlpha (0.15f), 0, 0, Colours::transparentBlack, 0, (float) shadowSize, false); cg.addColour (0.4, Colours::black.withAlpha (0.07f)); cg.addColour (0.6, Colours::black.withAlpha (0.02f)); g.setGradientFill (cg); g.fillRect (0, 0, w, shadowSize); cg.point1.setXY (0.0f, (float) h); cg.point2.setXY (0.0f, (float) h - shadowSize); g.setGradientFill (cg); g.fillRect (0, h - shadowSize, w, shadowSize); cg.point1.setXY (0.0f, 0.0f); cg.point2.setXY ((float) shadowSize, 0.0f); g.setGradientFill (cg); g.fillRect (0, 0, shadowSize, h); cg.point1.setXY ((float) w, 0.0f); cg.point2.setXY ((float) w - shadowSize, 0.0f); g.setGradientFill (cg); g.fillRect (w - shadowSize, 0, shadowSize, h); } //============================================================================== int indexOfLineStartingWith (const StringArray& lines, const String& text, int startIndex) { startIndex = jmax (0, startIndex); while (startIndex < lines.size()) { if (lines[startIndex].trimStart().startsWithIgnoreCase (text)) return startIndex; ++startIndex; } return -1; } //============================================================================== PropertyPanelWithTooltips::PropertyPanelWithTooltips() : lastComp (nullptr) { addAndMakeVisible (&panel); startTimer (150); } PropertyPanelWithTooltips::~PropertyPanelWithTooltips() { } void PropertyPanelWithTooltips::paint (Graphics& g) { g.setColour (Colour::greyLevel (0.15f)); g.setFont (13.0f); TextLayout tl; tl.appendText (lastTip, Font (14.0f)); tl.layout (getWidth() - 10, Justification::left, true); // try to make it look nice if (tl.getNumLines() > 3) tl.layout (getWidth() - 10, Justification::left, false); // too big, so just squash it in.. Rectangle r (getTipArea()); tl.drawWithin (g, r.getX(), r.getY(), r.getWidth(), r.getHeight(), Justification::bottomLeft); } void PropertyPanelWithTooltips::resized() { panel.setBounds (0, 0, getWidth(), jmax (getHeight() - 60, proportionOfHeight (0.6f))); } Rectangle PropertyPanelWithTooltips::getTipArea() const { return Rectangle (5, panel.getBottom() - 50, getWidth() - 10, getHeight() - (panel.getBottom() - 50) - 4); } void PropertyPanelWithTooltips::timerCallback() { Component* newComp = Desktop::getInstance().getMainMouseSource().getComponentUnderMouse(); if (newComp != nullptr && newComp->getTopLevelComponent() != getTopLevelComponent()) newComp = nullptr; if (newComp != lastComp) { lastComp = newComp; String newTip (findTip (newComp)); if (newTip != lastTip) { lastTip = newTip; repaint (getTipArea()); } } } String PropertyPanelWithTooltips::findTip (Component* c) { while (c != nullptr && c != this) { TooltipClient* const tc = dynamic_cast (c); if (tc != nullptr) { const String tip (tc->getTooltip()); if (tip.isNotEmpty()) return tip; } c = c->getParentComponent(); } return String::empty; } //============================================================================== FloatingLabelComponent::FloatingLabelComponent() : font (10.0f) { setInterceptsMouseClicks (false, false); } void FloatingLabelComponent::remove() { if (getParentComponent() != nullptr) getParentComponent()->removeChildComponent (this); } void FloatingLabelComponent::update (Component* parent, const String& text, const Colour& textColour, int x, int y, bool toRight, bool below) { colour = textColour; Rectangle r; if (text != getName()) { setName (text); glyphs.clear(); glyphs.addJustifiedText (font, text, 0, 0, 200.0f, Justification::left); glyphs.justifyGlyphs (0, std::numeric_limits::max(), 0, 0, 1000, 1000, Justification::topLeft); r = glyphs.getBoundingBox (0, std::numeric_limits::max(), false) .getSmallestIntegerContainer().expanded (1, 1); } else { r = getLocalBounds(); } r.setPosition (x + (toRight ? 3 : -(r.getWidth() + 3)), y + (below ? 2 : -(r.getHeight() + 2))); setBounds (r); parent->addAndMakeVisible (this); } void FloatingLabelComponent::paint (Graphics& g) { g.setFont (font); g.setColour (Colours::white.withAlpha (0.5f)); g.fillRoundedRectangle (0, 0, (float) getWidth(), (float) getHeight(), 3); g.setColour (colour); glyphs.draw (g, AffineTransform::translation (1.0f, 1.0f)); }