juicysfplugin/modules/juce_graphics/fonts/juce_AttributedString.cpp

293 lines
8.6 KiB
C++

/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2017 - ROLI Ltd.
JUCE is an open source library subject to commercial or open-source
licensing.
By using JUCE, you agree to the terms of both the JUCE 5 End-User License
Agreement and JUCE 5 Privacy Policy (both updated and effective as of the
27th April 2017).
End User License Agreement: www.juce.com/juce-5-licence
Privacy Policy: www.juce.com/juce-5-privacy-policy
Or: You may also use this code under the terms of the GPL v3 (see
www.gnu.org/licenses).
JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
DISCLAIMED.
==============================================================================
*/
namespace juce
{
namespace
{
int getLength (const Array<AttributedString::Attribute>& atts) noexcept
{
return atts.size() != 0 ? atts.getReference (atts.size() - 1).range.getEnd() : 0;
}
void splitAttributeRanges (Array<AttributedString::Attribute>& atts, int position)
{
for (int i = atts.size(); --i >= 0;)
{
const auto& att = atts.getUnchecked (i);
auto offset = position - att.range.getStart();
if (offset >= 0)
{
if (offset > 0 && position < att.range.getEnd())
{
atts.insert (i + 1, AttributedString::Attribute (att));
atts.getReference (i).range.setEnd (position);
atts.getReference (i + 1).range.setStart (position);
}
break;
}
}
}
Range<int> splitAttributeRanges (Array<AttributedString::Attribute>& atts, Range<int> newRange)
{
newRange = newRange.getIntersectionWith ({ 0, getLength (atts) });
if (! newRange.isEmpty())
{
splitAttributeRanges (atts, newRange.getStart());
splitAttributeRanges (atts, newRange.getEnd());
}
return newRange;
}
void mergeAdjacentRanges (Array<AttributedString::Attribute>& atts)
{
for (int i = atts.size() - 1; --i >= 0;)
{
auto& a1 = atts.getReference (i);
auto& a2 = atts.getReference (i + 1);
if (a1.colour == a2.colour && a1.font == a2.font)
{
a1.range.setEnd (a2.range.getEnd());
atts.remove (i + 1);
if (i < atts.size() - 1)
++i;
}
}
}
void appendRange (Array<AttributedString::Attribute>& atts,
int length, const Font* f, const Colour* c)
{
if (atts.size() == 0)
{
atts.add ({ Range<int> (0, length), f != nullptr ? *f : Font(), c != nullptr ? *c : Colour (0xff000000) });
}
else
{
auto start = getLength (atts);
atts.add ({ Range<int> (start, start + length),
f != nullptr ? *f : atts.getReference (atts.size() - 1).font,
c != nullptr ? *c : atts.getReference (atts.size() - 1).colour });
mergeAdjacentRanges (atts);
}
}
void applyFontAndColour (Array<AttributedString::Attribute>& atts,
Range<int> range, const Font* f, const Colour* c)
{
range = splitAttributeRanges (atts, range);
for (auto& att : atts)
{
if (range.getStart() < att.range.getEnd())
{
if (range.getEnd() <= att.range.getStart())
break;
if (c != nullptr) att.colour = *c;
if (f != nullptr) att.font = *f;
}
}
mergeAdjacentRanges (atts);
}
void truncate (Array<AttributedString::Attribute>& atts, int newLength)
{
splitAttributeRanges (atts, newLength);
for (int i = atts.size(); --i >= 0;)
if (atts.getReference (i).range.getStart() >= newLength)
atts.remove (i);
}
}
//==============================================================================
AttributedString::Attribute::Attribute (Attribute&& other) noexcept
: range (other.range),
font (std::move (other.font)),
colour (other.colour)
{
}
AttributedString::Attribute& AttributedString::Attribute::operator= (Attribute&& other) noexcept
{
range = other.range;
font = std::move (other.font);
colour = other.colour;
return *this;
}
AttributedString::Attribute::Attribute (Range<int> r, const Font& f, Colour c) noexcept
: range (r), font (f), colour (c)
{
}
//==============================================================================
AttributedString::AttributedString (AttributedString&& other) noexcept
: text (std::move (other.text)),
lineSpacing (other.lineSpacing),
justification (other.justification),
wordWrap (other.wordWrap),
readingDirection (other.readingDirection),
attributes (std::move (other.attributes))
{
}
AttributedString& AttributedString::operator= (AttributedString&& other) noexcept
{
text = std::move (other.text);
lineSpacing = other.lineSpacing;
justification = other.justification;
wordWrap = other.wordWrap;
readingDirection = other.readingDirection;
attributes = std::move (other.attributes);
return *this;
}
void AttributedString::setText (const String& newText)
{
auto newLength = newText.length();
auto oldLength = getLength (attributes);
if (newLength > oldLength)
appendRange (attributes, newLength - oldLength, nullptr, nullptr);
else if (newLength < oldLength)
truncate (attributes, newLength);
text = newText;
}
void AttributedString::append (const String& textToAppend)
{
text += textToAppend;
appendRange (attributes, textToAppend.length(), nullptr, nullptr);
}
void AttributedString::append (const String& textToAppend, const Font& font)
{
text += textToAppend;
appendRange (attributes, textToAppend.length(), &font, nullptr);
}
void AttributedString::append (const String& textToAppend, Colour colour)
{
text += textToAppend;
appendRange (attributes, textToAppend.length(), nullptr, &colour);
}
void AttributedString::append (const String& textToAppend, const Font& font, Colour colour)
{
text += textToAppend;
appendRange (attributes, textToAppend.length(), &font, &colour);
}
void AttributedString::append (const AttributedString& other)
{
auto originalLength = getLength (attributes);
auto originalNumAtts = attributes.size();
text += other.text;
attributes.addArray (other.attributes);
for (auto i = originalNumAtts; i < attributes.size(); ++i)
attributes.getReference (i).range += originalLength;
mergeAdjacentRanges (attributes);
}
void AttributedString::clear()
{
text.clear();
attributes.clear();
}
void AttributedString::setJustification (Justification newJustification) noexcept
{
justification = newJustification;
}
void AttributedString::setWordWrap (WordWrap newWordWrap) noexcept
{
wordWrap = newWordWrap;
}
void AttributedString::setReadingDirection (ReadingDirection newReadingDirection) noexcept
{
readingDirection = newReadingDirection;
}
void AttributedString::setLineSpacing (const float newLineSpacing) noexcept
{
lineSpacing = newLineSpacing;
}
void AttributedString::setColour (Range<int> range, Colour colour)
{
applyFontAndColour (attributes, range, nullptr, &colour);
}
void AttributedString::setFont (Range<int> range, const Font& font)
{
applyFontAndColour (attributes, range, &font, nullptr);
}
void AttributedString::setColour (Colour colour)
{
setColour ({ 0, getLength (attributes) }, colour);
}
void AttributedString::setFont (const Font& font)
{
setFont ({ 0, getLength (attributes) }, font);
}
void AttributedString::draw (Graphics& g, const Rectangle<float>& area) const
{
if (text.isNotEmpty() && g.clipRegionIntersects (area.getSmallestIntegerContainer()))
{
jassert (text.length() == getLength (attributes));
if (! g.getInternalContext().drawTextLayout (*this, area))
{
TextLayout layout;
layout.createLayout (*this, area.getWidth());
layout.draw (g, area);
}
}
}
} // namespace juce