javawrapper.TreePopulation Class Reference

This holds all data relating to the tree population. More...

Inheritance diagram for javawrapper.TreePopulation:

javawrapper.WorkerBase

List of all members.

Public Member Functions

 TreePopulation (GUIManager oManager)
 Constructor.
int GetNumberOfSpecies ()
 Returns the number of species.
Vector< TreeGetTrees ()
 Gets the list of trees.
int GetSpeciesCodeFromName (String sName)
 When passed the name of a species, will give back the corresponding species number code.
void AddTabDelimTreeMapFile (javax.swing.JFrame oWindow, String sFileName) throws ModelException
 Adds the trees from a tab-delimited text tree map file.
int GetNumberOfSizeClasses ()
 Returns the number of size classes.
Float GetSizeClass (int iIndex)
 Returns the size class at a specific index.
void SetInitialSeedlingSize (float fVal) throws ModelException
 Sets the value of the diameter at 10 cm for new seedlings.
void SetSizeClasses (Float[] p_fVals) throws ModelException
 Sets the size classes.
void SetMinimumAdultDbh (Float[] p_fVals) throws ModelException
 Sets the minimum adult dbhs.
void SetSpeciesNames (String[] p_sVals) throws ModelException
 Sets the species name list.
void DoSetup (TreePopulation oPop)
 Performs setup.
void ChangeOfSpecies (int iOldNumSpecies, int[] p_iIndexer, String[] p_sNewSpecies) throws ModelException
 Overridden from WorkerBase to take care of other arrays.
void SetInitialDensities (int iSizeClass, Float[] p_fVals) throws ModelException
 Sets the initial densities for a given species.
String GetSpeciesNameFromCode (int iSpecies)
 For a given species code, returns its name.
float GetNewSeedlingDiam10 ()
 Gets the new seedling diameter at 10 cm value, in cm.
void WriteXML (BufferedWriter out, TreePopulation oPop) throws ModelException
 Writes the settings to XML for the parameter file for the tree population.
void ValidateData (TreePopulation oPop) throws ModelException
 This makes sure all data is valid and can be used to run the model.
boolean SetVectorValueByXMLTag (String sXMLTag, String sXMLParentTag, Vector< String > p_oData, String[] p_sChildXMLTags, boolean[] p_bAppliesTo, Attributes oParentAttributes, Attributes[] p_oAttributes) throws ModelException
 Override this function in order to be able to handle initial densities and species names.
int GetFloatDataCode (String sDataMember, int iSpecies, int iType)
 Gets the data code for accessing a float tree data member.
void ReadXMLParentTag (String sXMLTag, Attributes oAttributes) throws ModelException
 Accepts an XML parent tag (empty, no data) from the parser.
void ClearTrees ()
 Clears all trees.
boolean SetSingleValueByXMLTag (String sXMLTag, String sXMLParentTag, Attributes oAttributes, Object oData) throws ModelException
 This method is looking for tm_floatCode, tm_intCode, tm_charCode, tm_boolCode, fl, int, ch, and bl.
void ChangeSpeciesName (String sOldSpecies, String sNewSpecies) throws ModelException
 Changes the name of a species.
void DoCopySpecies (String sCopyFrom, String sCopyTo) throws ModelException
 Makes one species exactly like another.

Static Public Member Functions

static int GetNumberOfTypes ()
 Get the total number of tree types (life history stages).
static String GetTypeNameFromCode (int iType)
 For a given type code, returns its name.
static int GetTypeCodeFromName (String sName)
 For a given type name, returns its code.

Static Public Attributes

static final int SEED = 0
 Seed tree life history stage - matches definition in C++.
static final int SEEDLING = 1
 Seedling tree life history stage - matches definition in C++.
static final int SAPLING = 2
 Sapling tree life history stage - matches definition in C++.
static final int ADULT = 3
 Adult tree life history stage - matches definition in C++.
static final int STUMP = 4
 Stump tree life history stage - matches definition in C++.
static final int SNAG = 5
 Snag tree life history stage - matches definition in C++.
static final int WOODY_DEBRIS = 6
 Woody debris tree life history stage - matches definition in C++.

Protected Member Functions

int GetCodeForDataMember (Vector< String > p_oMemberList, String sDataMember)
 Gets the data member code for a data member label.

Protected Attributes

ModelVector mp_fSeedlingClass1Density
 Species-specific - initial densities for seedling height class 1.
ModelVector mp_fSeedlingClass2Density
 Species-specific - initial densities for seedling height class 2.
ModelVector mp_fSeedlingClass3Density
 Species-specific - initial densities for seedling height class 3.
Vector< Treemp_oTrees = new Vector<Tree>(0)
 Holds Tree objects to be written to a tree map.
Vector< Vector< Vector< String > > > mp_sTreeIntDataMembers
 Tree integer data members.
Vector< Vector< Vector< String > > > mp_sTreeFloatDataMembers
 Tree float data members.
Vector< Vector< Vector< String > > > mp_sTreeCharDataMembers
 Tree char data members.
Vector< Vector< Vector< String > > > mp_sTreeBoolDataMembers
 Tree bool data members.
Vector< Vector< Vector
< Integer > > > 
mp_iTreeIntTransforms
 Index positions for tree integer data members.
Vector< Vector< Vector
< Integer > > > 
mp_iTreeFloatTransforms
 Index positions for tree float data members.
Vector< Vector< Vector
< Integer > > > 
mp_iTreeCharTransforms
 Index positions for tree char data members.
Vector< Vector< Vector
< Integer > > > 
mp_iTreeBoolTransforms
 Index positions for tree bool data members.
ModelFloat m_fInitialSeedlingSize
ModelFloat m_fSeedlingHeightClass1
 <Initial seedling diam10.
ModelFloat m_fSeedlingHeightClass2
 Upper limit of seedling 2 initial densities height class, in cm.
ModelString m_sTextTreeMap
 Filename for text tree map, if present.
int[] mp_iSpeciesTransforms
 When parsing tree maps, this will convert in case the species list is in a different order.
int m_iSpeciesCounter
 Counter for tree map species list when parsing tree map files.
int m_iCurrentTreeType
 When parsing tree map settings, the current tree type.
int m_iCurrentSpecies
 When parsing tree map settings, the current tree species.

Private Member Functions

void WriteTreeMap (BufferedWriter jOut) throws ModelException
 Writes an XML tree map if there are any trees to write.

Private Attributes

ModelVector mp_sSpeciesNames
 List of species names - ignore XML tags since this data can't use the automated XML read-write system.
ModelVector mp_fSizeClasses
 Size class list - the values in this are floats which represent the upper dbh limit of a class.
ModelVector mp_fInitialDensities
 Species-specific - contains the initial density for each class.
ModelVector mp_fMinAdultDbh
 Species-specific - the minimum adult dbh value.
ModelVector mp_fMaxSeedlingHeight
 Species-specific - the maximum seedling height value.


Detailed Description

This holds all data relating to the tree population.

It also manages the windows necessary to display and retrieve information about the trees.

Copyright: Copyright (c) Charles D. Canham 2003

Company: Institute of Ecosystem Studies

Author:
Lora E. Murphy
Version:
1.1

Edit history:
------------------
April 28, 2004: Submitted in beta version (LEM)
March 8, 2005: Added seedling height classes for initial densities and made version 1.1 (LEM)
March 28, 2005: Added new tab-delimited tree map format (LEM)
May 2, 2005: Added new seedling max height (LEM)
February 4, 2008: Updated to conform to Java 6 compliance (LEM)

Constructor & Destructor Documentation

javawrapper.TreePopulation.TreePopulation ( GUIManager  oManager  ) 

Constructor.

Parameters:
oManager GUIManager object


Member Function Documentation

int javawrapper.TreePopulation.GetNumberOfSpecies (  ) 

Returns the number of species.

Returns:
Number of species

Vector<Tree> javawrapper.TreePopulation.GetTrees (  ) 

Gets the list of trees.

Returns:
A vector of Tree objects.

static int javawrapper.TreePopulation.GetNumberOfTypes (  )  [static]

Get the total number of tree types (life history stages).

Returns:
Total number of tree types

int javawrapper.TreePopulation.GetSpeciesCodeFromName ( String  sName  ) 

When passed the name of a species, will give back the corresponding species number code.

If there are spaces in the name, they should be replaced with underscores BEFORE being passed.

Parameters:
sName The name of the species.
Returns:
The code, or -1 if the name is not recognized.

void javawrapper.TreePopulation.AddTabDelimTreeMapFile ( javax.swing.JFrame  oWindow,
String  sFileName 
) throws ModelException

Adds the trees from a tab-delimited text tree map file.

Parameters:
sFileName The file name of the tree map file.
oWindow Window to which to display messages
Exceptions:
ModelException if:
  • There is an unrecognized species
  • There is an unrecognized life history stage
  • There is a negative diameter
  • There is a negative height

int javawrapper.TreePopulation.GetNumberOfSizeClasses (  ) 

Returns the number of size classes.

Returns:
Number of size classes

Float javawrapper.TreePopulation.GetSizeClass ( int  iIndex  ) 

Returns the size class at a specific index.

Parameters:
iIndex Index of size class to return.
Returns:
Upper limit of size class.

void javawrapper.TreePopulation.SetInitialSeedlingSize ( float  fVal  )  throws ModelException

Sets the value of the diameter at 10 cm for new seedlings.

Parameters:
fVal Diameter at 10 cm, in cm.
Exceptions:
ModelException if value passed is less than or equal to 0.

void javawrapper.TreePopulation.SetSizeClasses ( Float[]  p_fVals  )  throws ModelException

Sets the size classes.

The size class vector will be sized to match the array of Floats passed. The values in the array represent the upper dbh limits of each size class. A value of 0 is assumed to be for seedlings.

Parameters:
p_fVals A Float array of size class values.
Exceptions:
ModelException if any size class value is less than 0.

void javawrapper.TreePopulation.SetMinimumAdultDbh ( Float[]  p_fVals  )  throws ModelException

Sets the minimum adult dbhs.

There must be one for each species.

Parameters:
p_fVals A Float array of values.
Exceptions:
ModelException if any value is less than 0.

void javawrapper.TreePopulation.SetSpeciesNames ( String[]  p_sVals  )  throws ModelException

Sets the species name list.

The species vector will be sized to match the array of Strings passed. All spaces in the species names are replaced with underscores.

If there are species currently defined, this calls ChangeOfSpecies() for all objects.

This calls the GUIManager.DoSetup() method so that behavior groups can adjust for the new species list if species were already defined.

This function also declares certain arrays, since this is the first opportunity to know how many species there are.

Parameters:
p_sVals A String array of species names.
Exceptions:
ModelException if there is a problem setting the species names.

void javawrapper.TreePopulation.DoSetup ( TreePopulation  oPop  )  [virtual]

Performs setup.

Causes the max seedling height to default to 1.35 for all species.

Parameters:
oPop TreePopulation This.

Implements javawrapper.WorkerBase.

void javawrapper.TreePopulation.ChangeOfSpecies ( int  iOldNumSpecies,
int[]  p_iIndexer,
String[]  p_sNewSpecies 
) throws ModelException

Overridden from WorkerBase to take care of other arrays.

Parameters:
iOldNumSpecies says how many species there used to be.
p_iIndexer is an array, sized to the new number of species. For each bucket (representing the index number of a species on the new list), the value is either the index of that same species in the old species list, or -1 if the species is new.
p_sNewSpecies The new species list.
Exceptions:
ModelException if anything goes wrong.

Reimplemented from javawrapper.WorkerBase.

void javawrapper.TreePopulation.SetInitialDensities ( int  iSizeClass,
Float[]  p_fVals 
) throws ModelException

Sets the initial densities for a given species.

Any species number greater than zero is assumed to be valid.

Parameters:
iSizeClass size class number
p_fVals set of initial densities for each species
Exceptions:
ModelException if the size class number is less than 0 or greater than the number of size classes defined.

String javawrapper.TreePopulation.GetSpeciesNameFromCode ( int  iSpecies  ) 

For a given species code, returns its name.

If this name is for display, a replace should be done on underscores to spaces.

Parameters:
iSpecies The species code.
Returns:
The species name.

static String javawrapper.TreePopulation.GetTypeNameFromCode ( int  iType  )  [static]

For a given type code, returns its name.

Parameters:
iType The type code.
Returns:
The type name, or an empty string if the code isn't recognized.

static int javawrapper.TreePopulation.GetTypeCodeFromName ( String  sName  )  [static]

For a given type name, returns its code.

Parameters:
sName The type name.
Returns:
The type code, or -1 if the name is invalid.

float javawrapper.TreePopulation.GetNewSeedlingDiam10 (  ) 

Gets the new seedling diameter at 10 cm value, in cm.

Returns:
The new seedling diameter at 10 cm value, in cm.

void javawrapper.TreePopulation.WriteXML ( BufferedWriter  out,
TreePopulation  oPop 
) throws ModelException

Writes the settings to XML for the parameter file for the tree population.

Parameters:
out Out stream for the file.
oPop TreePopulation object.
Exceptions:
ModelException If something goes wrong with the writing.

Reimplemented from javawrapper.WorkerBase.

void javawrapper.TreePopulation.ValidateData ( TreePopulation  oPop  )  throws ModelException [virtual]

This makes sure all data is valid and can be used to run the model.

Exceptions:
ModelException in any of the following cases:
  • Any of the species-specific vectors is not sized equal to the number of species.
  • There are no species defined.
  • The initial seedling size is not greater than zero.
  • There is any value less than or equal to zero in any of the following vectors:
    • mp_fCanradToDbhRatio
    • mp_fDiam10ToDbhConversion
    • mp_fSlopeOfAsympCanDepth
    • mp_fInitialDensities
    • mp_fMaxCanopyHeight
    • mp_fMinAdultDbh
    • mp_fSizeClasses
    • mp_fSlopeOfAsymptoticHeight
  • Either of the seedling initial densities height classes is less than 0 or greater than 135.
  • The first seedling height class upper bound is greater than the second one.
  • Any of the seedling initial densities is less than 0.
Parameters:
oPop Not used.

Implements javawrapper.WorkerBase.

void javawrapper.TreePopulation.WriteTreeMap ( BufferedWriter  jOut  )  throws ModelException [private]

Writes an XML tree map if there are any trees to write.

Parameters:
jOut The XML file to write to.
Exceptions:
ModelException If anything goes wrong. This could wrap another exception.
Todo:
subplot support

boolean javawrapper.TreePopulation.SetVectorValueByXMLTag ( String  sXMLTag,
String  sXMLParentTag,
Vector< String >  p_oData,
String[]  p_sChildXMLTags,
boolean[]  p_bAppliesTo,
Attributes  oParentAttributes,
Attributes[]  p_oAttributes 
) throws ModelException

Override this function in order to be able to handle initial densities and species names.

Parameters:
sXMLTag Parent XML tag of data vector whose value is to be set.
sXMLParentTag The immediate parent tag that sXMLTag is within.
p_oData Vector of data values appropriate to the data type
p_sChildXMLTags The XML tags of the child elements
p_bAppliesTo Array of booleans saying which of the vector values should be set. This is important in the case of species-specifics - the vector index is the species number but not all species are set.
oParentAttributes Attributes of parent tag. May be useful when overridding this for unusual tags.
p_oAttributes Attributes passed from parser. This may be needed when overriding this function. Basic species-specific values are already handled by this function.
Returns:
true if the value was set successfully; false if the value could not be found. (This would not be an error, because I need a way to cycle through the objects until one of the objects comes up with a match.) If a match to a data object is made via XML tag, but the found object is not a ModelVector, this returns false.
Exceptions:
ModelException if the value could not be assigned to the data object.

Reimplemented from javawrapper.WorkerBase.

int javawrapper.TreePopulation.GetCodeForDataMember ( Vector< String >  p_oMemberList,
String  sDataMember 
) [protected]

Gets the data member code for a data member label.

If this is not a currently listed data member, it will be added.

Parameters:
p_oMemberList List of data members.
sDataMember Data member name.
Returns:
Data member code.

int javawrapper.TreePopulation.GetFloatDataCode ( String  sDataMember,
int  iSpecies,
int  iType 
)

Gets the data code for accessing a float tree data member.

You can use the return code to get the data from a Tree class object.

Parameters:
sDataMember Name of data member.
iSpecies Tree species.
iType Tree type.
Returns:
Data code, or -1 if the data member name is unrecognized.

void javawrapper.TreePopulation.ReadXMLParentTag ( String  sXMLTag,
Attributes  oAttributes 
) throws ModelException

Accepts an XML parent tag (empty, no data) from the parser.

This method watches for the following tags:

  • tm_treeSettings
  • tree
  • tm_speciesList
  • tm_species
  • grid

Parameters:
sXMLTag The XML tag.
oAttributes The attributes of this object.
Exceptions:
ModelException if there is a problem reading this data.

Reimplemented from javawrapper.WorkerBase.

void javawrapper.TreePopulation.ClearTrees (  ) 

Clears all trees.

boolean javawrapper.TreePopulation.SetSingleValueByXMLTag ( String  sXMLTag,
String  sXMLParentTag,
Attributes  oAttributes,
Object  oData 
) throws ModelException

This method is looking for tm_floatCode, tm_intCode, tm_charCode, tm_boolCode, fl, int, ch, and bl.

For the last four, they are only set if m_iCurrentSpecies and m_iCurrentTreeType are greater than -1. Thus grid values with these tags will be ignored.

Parameters:
sXMLTag XML tag of data object whose value is to be set.
sXMLParentTag The immediate parent tag that sXMLTag is within.
oAttributes Attributes of the object. Ignored, but may be needed by overriding objects.
oData Data value appropriate to the data type
Returns:
true if the value was set successfully; false if the value could not be found. (This would not be an error, because I need a way to cycle through the objects until one of the objects comes up with a match.)
Exceptions:
ModelException if the value could not be assigned to the data object.

Reimplemented from javawrapper.WorkerBase.

void javawrapper.TreePopulation.ChangeSpeciesName ( String  sOldSpecies,
String  sNewSpecies 
) throws ModelException

Changes the name of a species.

Everything about the species remains the same except for the name. This is an easier process than actually changing the species list.

Parameters:
sOldSpecies String Old name of the species
sNewSpecies String New name of the species
Exceptions:
ModelException if there is a problem.

void javawrapper.TreePopulation.DoCopySpecies ( String  sCopyFrom,
String  sCopyTo 
) throws ModelException

Makes one species exactly like another.

Any difference from the target species is obliterated. Both species names must already exist (i.e. add a new species before making it into a copy of another). This triggers the change through the other GUI objects.

Parameters:
sCopyFrom String Name of species to copy.
sCopyTo String Name of species that is the copy.
Exceptions:
ModelException 


Member Data Documentation

final int javawrapper.TreePopulation.SEED = 0 [static]

Seed tree life history stage - matches definition in C++.

final int javawrapper.TreePopulation.SEEDLING = 1 [static]

Seedling tree life history stage - matches definition in C++.

final int javawrapper.TreePopulation.SAPLING = 2 [static]

Sapling tree life history stage - matches definition in C++.

final int javawrapper.TreePopulation.ADULT = 3 [static]

Adult tree life history stage - matches definition in C++.

final int javawrapper.TreePopulation.STUMP = 4 [static]

Stump tree life history stage - matches definition in C++.

final int javawrapper.TreePopulation.SNAG = 5 [static]

Snag tree life history stage - matches definition in C++.

Woody debris tree life history stage - matches definition in C++.

Initial value:

 new ModelVector("Species names", "", "", 0,
      ModelVector.STRING)
List of species names - ignore XML tags since this data can't use the automated XML read-write system.

Initial value:

 new ModelVector("Size classes", "", "",
      0, ModelVector.FLOAT)
Size class list - the values in this are floats which represent the upper dbh limit of a class.

The lower limit of a class is the upper limit of the size class below it. A size class with an upper limit of 0 is for seedlings. Ignore XML tags since this data can't use the automated XML read-write system.

Initial value:

 new ModelVector(
      "Initial Densities", "", "", 0, ModelVector.FLOAT)
Species-specific - contains the initial density for each class.

Each vector bucket contains another vector with the values for each species for that size class. Ignore XML tags since this data can't use the automated XML read-write system.

Initial value:

 new ModelVector("Minimum Adult DBH",
      "tr_minAdultDBH", "tr_madVal", 0, ModelVector.FLOAT, true)
Species-specific - the minimum adult dbh value.

Initial value:

 new ModelVector(
      "Max Seedling Height (meters)", "tr_maxSeedlingHeight", "tr_mshVal", 0,
      ModelVector.FLOAT, true)
Species-specific - the maximum seedling height value.

Initial value:

 new ModelVector(
      "Initial Density (#/ha) - Seedling Height Class 1",
      "tr_seedlingHeight1Density", "tr_sh1dVal", 0, ModelVector.FLOAT, true)
Species-specific - initial densities for seedling height class 1.

Initial value:

 new ModelVector(
      "Initial Density (#/ha) - Seedling Height Class 2",
      "tr_seedlingHeight2Density", "tr_sh2dVal", 0, ModelVector.FLOAT, true)
Species-specific - initial densities for seedling height class 2.

Initial value:

 new ModelVector(
      "Initial Density (#/ha) - Seedling Height Class 3",
      "tr_seedlingHeight3Density", "tr_sh3dVal", 0, ModelVector.FLOAT, true)
Species-specific - initial densities for seedling height class 3.

Vector<Tree> javawrapper.TreePopulation.mp_oTrees = new Vector<Tree>(0) [protected]

Holds Tree objects to be written to a tree map.

Vector<Vector<Vector<String> > > javawrapper.TreePopulation.mp_sTreeIntDataMembers [protected]

Tree integer data members.

First array index is species, second is type. The vector is a set of strings with the data member names. The position of the String in the vector corresponds to the data member code in the tree map.

Vector<Vector<Vector<String> > > javawrapper.TreePopulation.mp_sTreeFloatDataMembers [protected]

Tree float data members.

First array index is species, second is type. The vector is a set of strings with the data member names. The position of the String in the vector corresponds to the data member code in the tree map.

Vector<Vector<Vector<String> > > javawrapper.TreePopulation.mp_sTreeCharDataMembers [protected]

Tree char data members.

First array index is species, second is type. The vector is a set of strings with the data member names. The position of the String in the vector corresponds to the data member code in the tree map.

Vector<Vector<Vector<String> > > javawrapper.TreePopulation.mp_sTreeBoolDataMembers [protected]

Tree bool data members.

First array index is species, second is type. The vector is a set of strings with the data member names. The position of the String in the vector corresponds to the data member code in the tree map.

Vector<Vector<Vector<Integer> > > javawrapper.TreePopulation.mp_iTreeIntTransforms [protected]

Index positions for tree integer data members.

The current tree map being read may have different data member indexes, and this will help translate to mp_sTreeIntDataMembers. First index is species, second is type. Vector position equals the data member position in the map being read, and vector value is the position in mp_sTreeIntDataMembers of the data member (and thus the tree index).

Vector<Vector<Vector<Integer> > > javawrapper.TreePopulation.mp_iTreeFloatTransforms [protected]

Index positions for tree float data members.

The current tree map being read may have different data member indexes, and this will help translate to mp_sTreeFloatDataMembers. First index is species, second is type. Vector position equals the data member position in the map being read, and vector value is the position in mp_sTreeFloatDataMembers of the data member (and thus the tree index).

Vector<Vector<Vector<Integer> > > javawrapper.TreePopulation.mp_iTreeCharTransforms [protected]

Index positions for tree char data members.

The current tree map being read may have different data member indexes, and this will help translate to mp_sTreeCharDataMembers. First index is species, second is type. Vector position equals the data member position in the map being read, and vector value is the position in mp_sTreeCharDataMembers of the data member (and thus the tree index).

Vector<Vector<Vector<Integer> > > javawrapper.TreePopulation.mp_iTreeBoolTransforms [protected]

Index positions for tree bool data members.

The current tree map being read may have different data member indexes, and this will help translate to mp_sTreeBoolDataMembers. First index is species, second is type. Vector position equals the data member position in the map being read, and vector value is the position in mp_sTreeBoolDataMembers of the data member (and thus the tree index).

Initial value:

 new ModelFloat(
      "New Seedling Diameter at 10 cm", "tr_seedDiam10Cm")

Initial value:

 new ModelFloat(0,
      "Seedling Height Class 1 Upper Bound, in cm", "tr_seedlingHeightClass1")
<Initial seedling diam10.

Upper limit of seedling 1 initial densities height class, in cm

Initial value:

 new ModelFloat(0,
      "Seedling Height Class 2 Upper Bound, in cm", "tr_seedlingHeightClass2")
Upper limit of seedling 2 initial densities height class, in cm.

Initial value:

 new ModelString("",
      "Tree Map To Add As Text", "tr_treemapFile")
Filename for text tree map, if present.

When parsing tree maps, this will convert in case the species list is in a different order.

The array index is the code to convert; the value in the array at that point is the corresponding old species number.

Counter for tree map species list when parsing tree map files.

When parsing tree map settings, the current tree type.

When parsing tree map settings, the current tree species.


The documentation for this class was generated from the following file:

Generated on Wed Oct 28 14:01:24 2009 for SORTIE Java Interface by  doxygen 1.5.6