25 #include <QStyleOptionGraphicsItem>
30 #define M_DEG2RAD 0.0174532925
35 double rotToRad =
angle * M_PI / 180.0;
37 xRot = x * std::cos( rotToRad ) - y * std::sin( rotToRad );
38 yRot = x * std::sin( rotToRad ) + y * std::cos( rotToRad );
45 double clippedAngle =
angle;
46 if ( clippedAngle >= 360.0 || clippedAngle <= -360.0 )
48 clippedAngle = std::fmod( clippedAngle, 360.0 );
50 if ( !allowNegative && clippedAngle < 0.0 )
52 clippedAngle += 360.0;
63 if ( clippedAngle >= 22.5 && clippedAngle < 67.5 )
67 else if ( clippedAngle >= 67.5 && clippedAngle < 112.5 )
71 else if ( clippedAngle >= 112.5 && clippedAngle < 157.5 )
75 else if ( clippedAngle >= 157.5 && clippedAngle < 202.5 )
79 else if ( clippedAngle >= 202.5 && clippedAngle < 247.5 )
83 else if ( clippedAngle >= 247.5 && clippedAngle < 292.5 )
87 else if ( clippedAngle >= 292.5 && clippedAngle < 337.5 )
103 if ( dpi < 0 && painter && painter->device() )
105 context.
setScaleFactor( painter->device()->logicalDpiX() / 25.4 );
122 dpi = ( painter && painter->device() ) ? painter->device()->logicalDpiX() : 88;
124 double dotsPerMM = dpi / 25.4;
128 QSizeF mapSizeLayoutUnits = map->rect().size();
157 double left =
relativePosition( rectToResize.left(), boundsBefore.left(), boundsBefore.right(), boundsAfter.left(), boundsAfter.right() );
158 double right =
relativePosition( rectToResize.right(), boundsBefore.left(), boundsBefore.right(), boundsAfter.left(), boundsAfter.right() );
159 double top =
relativePosition( rectToResize.top(), boundsBefore.top(), boundsBefore.bottom(), boundsAfter.top(), boundsAfter.bottom() );
160 double bottom =
relativePosition( rectToResize.bottom(), boundsBefore.top(), boundsBefore.bottom(), boundsAfter.top(), boundsAfter.bottom() );
162 rectToResize.setRect( left, top, right - left, bottom - top );
168 double m = ( afterMax - afterMin ) / ( beforeMax - beforeMin );
169 double c = afterMin - ( beforeMin * m );
172 return m * position +
c;
178 QFont scaledFont = font;
179 double pixelSize = pointsToMM( scaledFont.pointSizeF() ) * FONT_WORKAROUND_SCALE + 0.5;
180 scaledFont.setPixelSize( pixelSize );
189 QFontMetricsF fontMetrics( metricsFont );
190 return ( fontMetrics.ascent() / FONT_WORKAROUND_SCALE );
198 QFontMetricsF fontMetrics( metricsFont );
199 return ( fontMetrics.descent() / FONT_WORKAROUND_SCALE );
208 QFontMetricsF fontMetrics( metricsFont );
209 return ( fontMetrics.height() / FONT_WORKAROUND_SCALE );
218 QFontMetricsF fontMetrics( metricsFont );
219 return ( fontMetrics.boundingRect( character ).height() / FONT_WORKAROUND_SCALE );
227 const QStringList multiLineSplit = text.split(
'\n' );
229 QFontMetricsF fontMetrics( metricsFont );
232 for (
const QString &line : multiLineSplit )
234 maxWidth = std::max( maxWidth, ( fontMetrics.horizontalAdvance( line ) / FONT_WORKAROUND_SCALE ) );
241 QStringList multiLineSplit = text.split(
'\n' );
242 int lines = multiLineSplit.size();
247 QFontMetricsF fontMetrics( metricsFont );
249 double fontHeight = fontMetrics.ascent() + fontMetrics.descent();
250 double textHeight = fontMetrics.ascent() +
static_cast< double >( ( lines - 1 ) * fontHeight * multiLineHeight );
252 return textHeight / FONT_WORKAROUND_SCALE;
267 painter->setFont( textFont );
268 if ( color.isValid() )
270 painter->setPen( color );
272 double scaleFactor = 1.0 / FONT_WORKAROUND_SCALE;
273 painter->scale( scaleFactor, scaleFactor );
274 painter->drawText( position * FONT_WORKAROUND_SCALE, text );
277 void QgsLayoutUtils::drawText( QPainter *painter,
const QRectF &rect,
const QString &text,
const QFont &font,
const QColor &color,
const Qt::AlignmentFlag halignment,
const Qt::AlignmentFlag valignment,
const int flags )
288 QRectF scaledRect( rect.x() * FONT_WORKAROUND_SCALE, rect.y() * FONT_WORKAROUND_SCALE,
289 rect.width() * FONT_WORKAROUND_SCALE, rect.height() * FONT_WORKAROUND_SCALE );
292 painter->setFont( textFont );
293 if ( color.isValid() )
295 painter->setPen( color );
297 double scaleFactor = 1.0 / FONT_WORKAROUND_SCALE;
298 painter->scale( scaleFactor, scaleFactor );
299 painter->drawText( scaledRect, halignment | valignment | flags, text );
304 double originalWidth = originalRect.width();
305 double originalHeight = originalRect.height();
306 double boundsWidth = boundsRect.width();
307 double boundsHeight = boundsRect.height();
308 double ratioBoundsRect = boundsWidth / boundsHeight;
318 rectScale = ( ( originalWidth / originalHeight ) > ratioBoundsRect ) ? boundsWidth / originalWidth : boundsHeight / originalHeight;
322 rectScale = ( ( originalHeight / originalWidth ) > ratioBoundsRect ) ? boundsWidth / originalHeight : boundsHeight / originalWidth;
324 double rectScaledWidth = rectScale * originalWidth;
325 double rectScaledHeight = rectScale * originalHeight;
329 return QRectF( ( boundsWidth - rectScaledWidth ) / 2.0, ( boundsHeight - rectScaledHeight ) / 2.0, rectScaledWidth, rectScaledHeight );
333 return QRectF( ( boundsWidth - rectScaledHeight ) / 2.0, ( boundsHeight - rectScaledWidth ) / 2.0, rectScaledWidth, rectScaledHeight );
338 double angleRad = -clippedRotation *
M_DEG2RAD;
339 double cosAngle = std::cos( angleRad );
340 double sinAngle = std::sin( angleRad );
343 double widthBoundsRotatedRect = originalWidth * std::fabs( cosAngle ) + originalHeight * std::fabs( sinAngle );
344 double heightBoundsRotatedRect = originalHeight * std::fabs( cosAngle ) + originalWidth * std::fabs( sinAngle );
348 double ratioBoundsRotatedRect = widthBoundsRotatedRect / heightBoundsRotatedRect;
349 double rectScale = ratioBoundsRotatedRect > ratioBoundsRect ? boundsWidth / widthBoundsRotatedRect : boundsHeight / heightBoundsRotatedRect;
350 double rectScaledWidth = rectScale * originalWidth;
351 double rectScaledHeight = rectScale * originalHeight;
355 double currentCornerX = 0;
357 currentCornerX += rectScaledWidth * cosAngle;
358 minX = minX < currentCornerX ? minX : currentCornerX;
359 currentCornerX += rectScaledHeight * sinAngle;
360 minX = minX < currentCornerX ? minX : currentCornerX;
361 currentCornerX -= rectScaledWidth * cosAngle;
362 minX = minX < currentCornerX ? minX : currentCornerX;
364 double currentCornerY = 0;
366 currentCornerY -= rectScaledWidth * sinAngle;
367 minY = minY < currentCornerY ? minY : currentCornerY;
368 currentCornerY += rectScaledHeight * cosAngle;
369 minY = minY < currentCornerY ? minY : currentCornerY;
370 currentCornerY += rectScaledWidth * sinAngle;
371 minY = minY < currentCornerY ? minY : currentCornerY;
374 double offsetX = ratioBoundsRotatedRect > ratioBoundsRect ? 0 : ( boundsWidth - rectScale * widthBoundsRotatedRect ) / 2.0;
375 offsetX += std::fabs( minX );
376 double offsetY = ratioBoundsRotatedRect > ratioBoundsRect ? ( boundsHeight - rectScale * heightBoundsRotatedRect ) / 2.0 : 0;
377 offsetY += std::fabs( minY );
379 return QRectF( offsetX, offsetY, rectScaledWidth, rectScaledHeight );
384 QString s =
string.trimmed();
385 if ( s.compare( QLatin1String(
"Portrait" ), Qt::CaseInsensitive ) == 0 )
390 else if ( s.compare( QLatin1String(
"Landscape" ), Qt::CaseInsensitive ) == 0 )
401 #if QT_VERSION < QT_VERSION_CHECK(6, 0, 0)
410 return !
qgsDoubleNear( style->matrix.m11(), 0.0 ) ? style->matrix.m11() : style->matrix.m12();
419 return style->levelOfDetailFromTransform( painter->worldTransform() );
433 const auto layers = project->
mapLayers();
434 for (
auto it = layers.constBegin(); it != layers.constEnd(); ++it )
436 if ( it.value()->name().compare(
string, Qt::CaseInsensitive ) == 0 )
446 double s = std::pow( 10.0, std::floor( std::log10( a ) ) ) / d;
447 return std::ceil( a / s ) * s;
453 double s = std::pow( 10.0, std::floor( std::log10( a ) ) ) / d;
454 return std::floor( a / s ) * s;
459 if ( maximumSize < minimumSize )
473 while ( lowerNiceUnitsPerSeg > maximumSize && upperNiceUnitsPerSeg < minimumSize )
481 return upperNiceUnitsPerSeg < minimumSize ? lowerNiceUnitsPerSeg : upperNiceUnitsPerSeg;
491 QList< QgsLayoutItemMap * > maps;
495 if ( map->itemClippingSettings()->isActive() && map->itemClippingSettings()->sourceItem() == item )
501 double QgsLayoutUtils::pointsToMM(
const double pointSize )
504 return ( pointSize * 0.3527 );
507 double QgsLayoutUtils::mmToPoints(
const double mmSize )
510 return ( mmSize / 0.3527 );
516 QVector< double > mapScales;
521 if ( !hasProjectScales || mapScales.isEmpty() )
526 const QStringList scales = scalesStr.split(
',' );
527 for (
const QString &scale : scales )
529 QStringList parts( scale.split(
':' ) );
530 if ( parts.size() == 2 )
532 mapScales.push_back( parts[1].toDouble() );
static QString defaultProjectScales()
A string with default project scales.
Layout graphical items for displaying a map.
QgsMapSettings mapSettings(const QgsRectangle &extent, QSizeF size, double dpi, bool includeLayerSettings) const
Returns map settings that will be used for drawing of the map.
QgsRectangle extent() const
Returns the current map extent.
Orientation
Page orientation.
@ Landscape
Landscape orientation.
@ Portrait
Portrait orientation.
Base class for graphical items within a QgsLayout.
@ FlagProvidesClipPath
Item can act as a clipping path provider (see clipPath())
virtual Flags itemFlags() const
Returns the item's flags, which indicate how the item behaves.
const QgsLayout * layout() const
Returns the layout the object is attached to.
Qgis::TextRenderFormat textRenderFormat() const
Returns the text render format, which dictates how text is rendered (e.g.
Qgis::RenderContextFlags renderContextFlags() const
Returns the combination of render context flags matched to the layout context's settings.
static QgsRenderContext createRenderContextForLayout(QgsLayout *layout, QPainter *painter, double dpi=-1)
Creates a render context suitable for the specified layout and painter destination.
static QVector< double > predefinedScales(const QgsLayout *layout)
Returns a list of predefined scales associated with a layout.
static double fontHeightMM(const QFont &font)
Calculate a font height in millimeters, including workarounds for QT font rendering issues.
static double relativePosition(double position, double beforeMin, double beforeMax, double afterMin, double afterMax)
Returns a scaled position given a before and after range.
static double fontDescentMM(const QFont &font)
Calculate a font descent in millimeters, including workarounds for QT font rendering issues.
static double fontAscentMM(const QFont &font)
Calculates a font ascent in millimeters, including workarounds for QT font rendering issues.
static QRectF largestRotatedRectWithinBounds(const QRectF &originalRect, const QRectF &boundsRect, double rotation)
Calculates the largest scaled version of originalRect which fits within boundsRect,...
static QFont scaledFontPixelSize(const QFont &font)
Returns a font where size is set in points and the size has been upscaled with FONT_WORKAROUND_SCALE ...
static QgsRenderContext createRenderContextForMap(QgsLayoutItemMap *map, QPainter *painter, double dpi=-1)
Creates a render context suitable for the specified layout map and painter destination.
static bool itemIsAClippingSource(const QgsLayoutItem *item)
Returns true if an item is a clipping item for another layout item.
static double snappedAngle(double angle)
Snaps an angle (in degrees) to its closest 45 degree angle.
static double textHeightMM(const QFont &font, const QString &text, double multiLineHeight=1.0)
Calculate a font height in millimeters for a text string, including workarounds for QT font rendering...
static QgsLayoutItemPage::Orientation decodePaperOrientation(const QString &string, bool &ok)
Decodes a string representing a paper orientation and returns the decoded orientation.
static void rotate(double angle, double &x, double &y)
Rotates a point / vector around the origin.
static double fontHeightCharacterMM(const QFont &font, QChar character)
Calculate a font height in millimeters of a single character, including workarounds for QT font rende...
static double normalizedAngle(double angle, bool allowNegative=false)
Ensures that an angle (in degrees) is in the range 0 <= angle < 360.
static void drawText(QPainter *painter, QPointF position, const QString &text, const QFont &font, const QColor &color=QColor())
Draws text on a painter at a specific position, taking care of layout specific issues (calculation to...
static double textWidthMM(const QFont &font, const QString &text)
Calculate a font width in millimeters for a text string, including workarounds for QT font rendering ...
static double calculatePrettySize(double minimumSize, double maximumSize)
Calculates a "pretty" size which falls between the range [minimumSize, maximumSize].
static QgsMapLayer * mapLayerFromString(const QString &string, QgsProject *project)
Resolves a string into a map layer from a given project.
static Q_DECL_DEPRECATED double scaleFactorFromItemStyle(const QStyleOptionGraphicsItem *style)
Extracts the scale factor from an item style.
static void relativeResizeRect(QRectF &rectToResize, const QRectF &boundsBefore, const QRectF &boundsAfter)
Resizes a QRectF relative to a resized bounding rectangle.
Base class for layouts, which can contain items such as maps, labels, scalebars, etc.
QgsLayoutRenderContext & renderContext()
Returns a reference to the layout's render context, which stores information relating to the current ...
void layoutItems(QList< T * > &itemList) const
Returns a list of layout items of a specific type.
QgsLayoutItemMap * referenceMap() const
Returns the map item which will be used to generate corresponding world files when the layout is expo...
QgsLayoutMeasurement convertFromLayoutUnits(double length, QgsUnitTypes::LayoutUnit unit) const
Converts a length measurement from the layout's native units to a specified target unit.
QgsProject * project() const
The project associated with the layout.
Base class for all map layer types.
The QgsMapSettings class contains configuration for rendering of the map.
bool useProjectScales() const
Returns true if project mapScales() are enabled.
QVector< double > mapScales() const
Returns the list of custom project map scales.
Encapsulates a QGIS project, including sets of map layers and their styles, layouts,...
Q_INVOKABLE QgsMapLayer * mapLayer(const QString &layerId) const
Retrieve a pointer to a registered layer by layer ID.
QList< QgsMapLayer * > mapLayersByName(const QString &layerName) const
Retrieve a list of matching registered layers by layer name.
const QgsProjectViewSettings * viewSettings() const
Returns the project's view settings, which contains settings and properties relating to how a QgsProj...
QMap< QString, QgsMapLayer * > mapLayers(const bool validOnly=false) const
Returns a map of all registered layers by layer ID.
A rectangle specified with double values.
Contains information about the context of a rendering operation.
void setScaleFactor(double factor)
Sets the scaling factor for the render to convert painter units to physical sizes.
void setTextRenderFormat(Qgis::TextRenderFormat format)
Sets the text render format, which dictates how text is rendered (e.g.
void setFlags(Qgis::RenderContextFlags flags)
Set combination of flags that will be used for rendering.
void setPainter(QPainter *p)
Sets the destination QPainter for the render operation.
static QgsRenderContext fromMapSettings(const QgsMapSettings &mapSettings)
create initialized QgsRenderContext instance from given QgsMapSettings
Scoped object for saving and restoring a QPainter object's state.
This class is a composition of two QSettings instances:
QVariant value(const QString &key, const QVariant &defaultValue=QVariant(), Section section=NoSection) const
Returns the value for setting key.
@ LayoutMillimeters
Millimeters.
double ANALYSIS_EXPORT angle(QgsPoint *p1, QgsPoint *p2, QgsPoint *p3, QgsPoint *p4)
Calculates the angle between two segments (in 2 dimension, z-values are ignored)
As part of the API refactoring and improvements which landed in the Processing API was substantially reworked from the x version This was done in order to allow much of the underlying Processing framework to be ported into c
bool qgsDoubleNear(double a, double b, double epsilon=4 *std::numeric_limits< double >::epsilon())
Compare two doubles (but allow some difference)
double prevNiceNumber(double a, double d=1)
double nextNiceNumber(double a, double d=1)