package com.codename1.ui.layouts.mig;
/*
* License (BSD):
* ==============
*
* Copyright (c) 2004, Mikael Grev, MiG InfoCom AB. (miglayout (at) miginfocom (dot) com)
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification,
* are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright notice, this list
* of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright notice, this
* list of conditions and the following disclaimer in the documentation and/or other
* materials provided with the distribution.
* Neither the name of the MiG InfoCom AB nor the names of its contributors may be
* used to endorse or promote products derived from this software without specific
* prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
* BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
* OF SUCH DAMAGE.
*
* @version 1.0
* @author Mikael Grev, MiG InfoCom AB
* Date: 2006-sep-08
*/
/** A simple value holder for a constraint for one dimension.
*/
public final class DimConstraint
{
/** How this entity can be resized in the dimension that this constraint represents.
*/
final ResizeConstraint resize = new ResizeConstraint();
// Look at the properties' getter/setter methods for explanation
private String sizeGroup = null; // A "context" compared with equals.
private BoundSize size = BoundSize.NULL_SIZE; // Min, pref, max. Never null, but sizes can be null.
private BoundSize gapBefore = null, gapAfter = null;
private UnitValue align = null;
// ************** Only applicable on components! *******************
private String endGroup = null; // A "context" compared with equals.
// ************** Only applicable on rows/columns! *******************
private boolean fill = false;
private boolean noGrid = false;
/** Empty constructor.
*/
public DimConstraint()
{
}
/** Returns the grow priority. Relative priority is used for determining which entities gets the extra space first.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The grow priority.
*/
public int getGrowPriority()
{
return resize.growPrio;
}
/** Sets the grow priority. Relative priority is used for determining which entities gets the extra space first.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param p The new grow priority.
*/
public void setGrowPriority(int p)
{
resize.growPrio = p;
}
/** Returns the grow weight.<p>
* Grow weight is how flexible the entity should be, relative to other entities, when it comes to growing. <code>null</code> or
* zero mean it will never grow. An entity that has twice the grow weight compared to another entity will get twice
* as much of available space.
* <p>
* GrowWeight are only compared within the same GrowPrio.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The current grow weight.
*/
public Float getGrow()
{
return resize.grow;
}
/** Sets the grow weight.<p>
* Grow weight is how flexible the entity should be, relative to other entities, when it comes to growing. <code>null</code> or
* zero mean it will never grow. An entity that has twice the grow weight compared to another entity will get twice
* as much of available space.
* <p>
* GrowWeight are only compared within the same GrowPrio.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param weight The new grow weight.
*/
public void setGrow(Float weight)
{
resize.grow = weight;
}
/** Returns the shrink priority. Relative priority is used for determining which entities gets smaller first when space is scarce.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The shrink priority.
*/
public int getShrinkPriority()
{
return resize.shrinkPrio;
}
/** Sets the shrink priority. Relative priority is used for determining which entities gets smaller first when space is scarce.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param p The new shrink priority.
*/
public void setShrinkPriority(int p)
{
resize.shrinkPrio = p;
}
/** Returns the shrink priority. Relative priority is used for determining which entities gets smaller first when space is scarce.
* Shrink weight is how flexible the entity should be, relative to other entities, when it comes to shrinking. <code>null</code> or
* zero mean it will never shrink (default). An entity that has twice the shrink weight compared to another entity will get twice
* as much of available space.
* <p>
* Shrink(Weight) are only compared within the same ShrinkPrio.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The current shrink weight.
*/
public Float getShrink()
{
return resize.shrink;
}
/** Sets the shrink priority. Relative priority is used for determining which entities gets smaller first when space is scarce.
* Shrink weight is how flexible the entity should be, relative to other entities, when it comes to shrinking. <code>null</code> or
* zero mean it will never shrink (default). An entity that has twice the shrink weight compared to another entity will get twice
* as much of available space.
* <p>
* Shrink(Weight) are only compared within the same ShrinkPrio.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param weight The new shrink weight.
*/
public void setShrink(Float weight)
{
resize.shrink = weight;
}
public UnitValue getAlignOrDefault(boolean isCols)
{
if (align != null)
return align;
if (isCols)
return UnitValue.LEADING;
return fill || PlatformDefaults.getDefaultRowAlignmentBaseline() == false ? UnitValue.CENTER : UnitValue.BASELINE_IDENTITY;
}
/** Returns the alignment used either as a default value for sub-entities or for this entity.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The alignment.
*/
public UnitValue getAlign()
{
return align;
}
/** Sets the alignment used wither as a default value for sub-entities or for this entity.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param uv The new shrink priority. E.g. {@link UnitValue#CENTER} or {@link net.miginfocom.layout.UnitValue#LEADING}.
*/
public void setAlign(UnitValue uv)
{
this.align = uv;
}
/** Returns the gap after this entity. The gap is an empty space and can have a min/preferred/maximum size so that it can shrink and
* grow depending on available space. Gaps are against other entities' edges and not against other entities' gaps.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The gap after this entity
*/
public BoundSize getGapAfter()
{
return gapAfter;
}
/** Sets the gap after this entity. The gap is an empty space and can have a min/preferred/maximum size so that it can shrink and
* grow depending on available space. Gaps are against other entities' edges and not against other entities' gaps.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param size The new gap.
* @see net.miginfocom.layout.ConstraintParser#parseBoundSize(String, boolean, boolean)
*/
public void setGapAfter(BoundSize size)
{
this.gapAfter = size;
}
boolean hasGapAfter()
{
return gapAfter != null && gapAfter.isUnset() == false;
}
boolean isGapAfterPush()
{
return gapAfter != null && gapAfter.getGapPush();
}
/** Returns the gap before this entity. The gap is an empty space and can have a min/preferred/maximum size so that it can shrink and
* grow depending on available space. Gaps are against other entities' edges and not against other entities' gaps.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The gap before this entity
*/
public BoundSize getGapBefore()
{
return gapBefore;
}
/** Sets the gap before this entity. The gap is an empty space and can have a min/preferred/maximum size so that it can shrink and
* grow depending on available space. Gaps are against other entities' edges and not against other entities' gaps.
* <p>
* See also {@link net.miginfocom.layout.ConstraintParser#parseBoundSize(String, boolean, boolean)}.
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param size The new gap.
*/
public void setGapBefore(BoundSize size)
{
this.gapBefore = size;
}
boolean hasGapBefore()
{
return gapBefore != null && gapBefore.isUnset() == false;
}
boolean isGapBeforePush()
{
return gapBefore != null && gapBefore.getGapPush();
}
/** Returns the min/preferred/max size for the entity in the dimension that this object describes.
* <p>
* See also {@link net.miginfocom.layout.ConstraintParser#parseBoundSize(String, boolean, boolean)}.
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The current size. Never <code>null</code> since v3.5.
*/
public BoundSize getSize()
{
return size;
}
/** Sets the min/preferred/max size for the entity in the dimension that this object describes.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param size The new size. May be <code>null</code>.
*/
public void setSize(BoundSize size)
{
if (size != null)
size.checkNotLinked();
this.size = size;
}
/** Returns the size group that this entity should be in for the dimension that this object is describing.
* If this constraint is in a size group that is specified here. <code>null</code> means no size group
* and all other values are legal. Comparison with .equals(). Components/columnss/rows in the same size group
* will have the same min/preferred/max size; that of the largest in the group for the first two and the
* smallest for max.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The current size group. May be <code>null</code>.
*/
public String getSizeGroup()
{
return sizeGroup;
}
/** Sets the size group that this entity should be in for the dimension that this object is describing.
* If this constraint is in a size group that is specified here. <code>null</code> means no size group
* and all other values are legal. Comparison with .equals(). Components/columnss/rows in the same size group
* will have the same min/preferred/max size; that of the largest in the group for the first two and the
* smallest for max.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param s The new size group. <code>null</code> disables size grouping.
*/
public void setSizeGroup(String s)
{
sizeGroup = s;
}
// ************** Only applicable on components ! *******************
/** Returns the end group that this entity should be in for the demension that this object is describing.
* If this constraint is in an end group that is specified here. <code>null</code> means no end group
* and all other values are legal. Comparison with .equals(). Components in the same end group
* will have the same end coordinate.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return The current end group. <code>null</code> may be returned.
*/
public String getEndGroup()
{
return endGroup;
}
/** Sets the end group that this entity should be in for the demension that this object is describing.
* If this constraint is in an end group that is specified here. <code>null</code> means no end group
* and all other values are legal. Comparison with .equals(). Components in the same end group
* will have the same end coordinate.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param s The new end group. <code>null</code> disables end grouping.
*/
public void setEndGroup(String s)
{
endGroup = s;
}
// ************** Not applicable on components below ! *******************
/** Returns if the component in the row/column that this constraint should default be grown in the same dimension that
* this constraint represents (width for column and height for a row).
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return <code>true</code> means that components should grow.
*/
public boolean isFill()
{
return fill;
}
/** Sets if the component in the row/column that this constraint should default be grown in the same dimension that
* this constraint represents (width for column and height for a row).
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param b <code>true</code> means that components should grow.
*/
public void setFill(boolean b)
{
fill = b;
}
/** Returns if the row/column should default to flow and not to grid behaviour. This means that the whole row/column
* will be one cell and all components will end up in that cell.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @return <code>true</code> means that the whole row/column should be one cell.
*/
public boolean isNoGrid()
{
return noGrid;
}
/** Sets if the row/column should default to flow and not to grid behaviour. This means that the whole row/column
* will be one cell and all components will end up in that cell.
* <p>
* For a more thorough explanation of what this constraint does see the white paper or cheat Sheet at www.migcomponents.com.
* @param b <code>true</code> means that the whole row/column should be one cell.
*/
public void setNoGrid(boolean b)
{
this.noGrid = b;
}
/** Returns the gaps as pixel values.
* @param parent The parent. Used to get the pixel values.
* @param defGap The default gap to use if there is no gap set on this object (i.e. it is null).
* @param refSize The reference size used to get the pixel sizes.
* @param before IF it is the gap before rather than the gap after to return.
* @return The [min,preferred,max] sizes for the specified gap. Uses {@link net.miginfocom.layout.LayoutUtil#NOT_SET}
* for gap sizes that are <code>null</code>. Returns <code>null</code> if there was no gap specified. A new and free to use array.
*/
int[] getRowGaps(ContainerWrapper parent, BoundSize defGap, int refSize, boolean before)
{
BoundSize gap = before ? gapBefore : gapAfter;
if (gap == null || gap.isUnset())
gap = defGap;
if (gap == null || gap.isUnset())
return null;
int[] ret = new int[3];
for (int i = LayoutUtil.MIN; i <= LayoutUtil.MAX; i++) {
UnitValue uv = gap.getSize(i);
ret[i] = uv != null ? uv.getPixels(refSize, parent, null) : LayoutUtil.NOT_SET;
}
return ret;
}
/** Returns the gaps as pixel values.
* @param parent The parent. Used to get the pixel values.
* @param comp The component that the gap is for. If not for a component it is <code>null</code>.
* @param adjGap The gap that the adjacent component, if any, has towards <code>comp</code>.
* @param adjacentComp The adjacent component if any. May be <code>null</code>.
* @param refSize The reference size used to get the pixel sizes.
* @param adjacentSide What side the <code>adjacentComp</code> is on. 0 = top, 1 = left, 2 = bottom, 3 = right.
* @param tag The tag string that the component might be tagged with in the component constraints. May be <code>null</code>.
* @param isLTR If it is left-to-right.
* @return The [min,preferred,max] sizes for the specified gap. Uses {@link net.miginfocom.layout.LayoutUtil#NOT_SET}
* for gap sizes that are <code>null</code>. Returns <code>null</code> if there was no gap specified. A new and free to use array.
*/
int[] getComponentGaps(ContainerWrapper parent, ComponentWrapper comp, BoundSize adjGap, ComponentWrapper adjacentComp, String tag, int refSize, int adjacentSide, boolean isLTR)
{
BoundSize gap = adjacentSide < 2 ? gapBefore : gapAfter;
boolean hasGap = gap != null && gap.getGapPush();
if ((gap == null || gap.isUnset()) && (adjGap == null || adjGap.isUnset()) && comp != null)
gap = PlatformDefaults.getDefaultComponentGap(comp, adjacentComp, adjacentSide + 1, tag, isLTR);
if (gap == null)
return hasGap ? new int[] {0, 0, LayoutUtil.NOT_SET} : null;
int[] ret = new int[3];
for (int i = LayoutUtil.MIN; i <= LayoutUtil.MAX; i++) {
UnitValue uv = gap.getSize(i);
ret[i] = uv != null ? uv.getPixels(refSize, parent, null) : LayoutUtil.NOT_SET;
}
return ret;
}
}