Scroll to navigation

blt::tree(3tcl) BLT Built-In Commands blt::tree(3tcl)


NAME

tree - Create and manage tree data objects.

SYNOPSIS

tree create ?-fixed? ?-dictset? ?-keyhash N? ?treeName?

tree destroy treeName...

tree names ?pattern?

tree op subcmd ?subsubcmd ...? treeName ?arg arg ...?


DESCRIPTION

The tree command is used to create, destroy, and provide Tcl access to a tree object. A tree object is an ordered tree of nodes where each node can have data key-values, tags and a label. The treeview widget uses a tree object.

INTRODUCTION

Tree provides Tcl with a rich API for managing complex data structures. Here is a simple example.



set t [tree create]
set id [$t insert 0]
$t set $id X 2
set n [$t get $id X]
# Create a node with label
$t insert 0 -label A
$t set 0->A X 1
set n [$t get 0->A X]

Labels provide convenient -> indexing relative a starting node.

Nodes may also be created with initial data values.



$t insert 0 -label A -data {X 1 Y "a 1 b 2"}
$t incr 0->A X 3
$t set 0->A Y(a) 4

Note round braces are used to access sub-values in a dict-array. See the section DICT-ARRAYS below for details.

SYNTAX

Creates a new tree object. The name of the new tree is returned and a Tcl command is created. If no treeName argument is present, then the name of the tree is automatically generated in the form "tree0", "tree1", etc relative to the current namespace. A tree name (if given) can not start with a dash. Tree names containing the substring "#auto" will be replaced with a generated identifier. For example, the name data#auto will translate to datatree0. Note that when the Tcl command is deleted the tree object also gets freed.

Newly created trees always contain a single root node with id 0 that can not be deleted.

Switches for create are listed below:

Make insert automatically set the -fixed flag. This will disallow later setting of keys not given as -data to the insert. This includes dict-array keys. See the fixed sub-command.
Define that any update of an array field will coerce the array object to a dict object. a dict will preserve order of sub-field keys on update. See the dictset sub-command.
Define the size beyond which node key storage starts using a hash (the default is 21 keys). Normally small numbers of keys are stored as a list. But once more than size keys are added to a node, key storage converts to a hash. This affects the order of key iteration (eg. for get/names/values). A list will iterate in the order in which keys were added, whereas the order of a hash is undetermined. For large numbers of ordered keys, specify a really large size (eg. 1000000).

Releases one of more trees. The Tcl command associated with treeName is also removed. Trees are reference counted. The internal tree data object isn't destroyed until no one else is using the tree.
Returns the names of all tree objects. if a pattern argument is given, then the only those trees whose name matches pattern will be listed.
Provide direct calls to sub-commands, without going through the object command. Aside from self documentating, it allows wize to provide support checked tree calls.

NODE IDS AND TAGS

Nodes in a tree object may be referenced by id or by tag. Each node has a unique serial number or id that is assigned to it at creation. The id of an node never changes or is reused unless all nodes in a tree are delete.

A node may also have any number of tags associated with it. A tag is just a string of characters, and it may take any form but can not start with an integer. For example, "x123" is valid, but "123x" is not. The same tag may be associated with one or multiple nodes (ranges or tagnode). Ranges are commonly used to group nodes in various interesting ways.

Commands that take a tagnode can operate on ranges and will accept either a tag or a list of zero or more integer node numbers. A node-list may contain only integers, and can not have leading spaces. Node-lists simplify the use of iterating commands because it avoids excessive use of eval.

There are four built-in or psuedo tags:

Applies to every node in the tree.
Applies to every node in the tree except the root node.
Applies to every node in the tree whose parent is the root node.
Managed automatically by the tree object, root specifies the node that is currently set as the root node for the tree.

When specifying nodes in tree object commands, if the specifier is an integer then it is assumed to refer to the single node with that id. If the specifier is not an integer, then it is assumed to refer to all of the nodes in the tree that have a tag matching the specifier. The symbol node is used below to indicate that an argument specifies either an id or a tag that selects a single node. A tagnode is either a tag that selects a group of nodes, or it's a list of zero or more integer node numbers. Many tree commands only operate on a single node at a time; if node is specified in a way that names multiple items, then an error "refers to more than one node" is generated.

NODE MODIFIERS

You can also specify node in relation to another node by appending one or more modifiers to the node id or tag after ->. A modifier refers to a node in relation to the specified node. For example, "root->firstchild" selects the first subtree of the root node.

The following modifiers are available:

Selects the first child of the node.
Selects the last child of the node.
Selects the next node in preorder to the node.
Selects the next sibling of the node.
Selects the parent of the node.
Selects the previous node in preorder to the node.
Selects the previous sibling of the node.
The maximum node number.
"label"
´label'
Selects the child node whose label is label. Enclosing label in quotes (double or single) supports labels with embedded spaces and prevents matching reserved words (eg. a node labeled "parentnode"). If mulitiple child nodes have the same label, the first matching node is used.

It's an error if the node can't be found. For example, lastchild and firstchild will generate errors if the node has no children. The exception to this is the index operation which returns -1, allowing you to test if a modifier is valid.

TREE OPERATIONS

Once you create a tree object, you can use its Tcl command to query or modify it. The general form is

treeName operation ?arg?...

Both operation and its arguments determine the exact behavior of the command. The operations available for trees are listed below.

Returns the mutual ancestor of the two nodes node1 and node2. The ancestor can be one of the two nodes. For example, if node1 and node2 are the same nodes, their ancestor is node1.
Append one or more strings to node/key value.
The same as append but accepts a multi-node tag and an undefined key will be initialized to {}. Returns the number of nodes updated.
Runs commands for all nodes matching the criteria given by switches for the subtree designated by node. By default all nodes match, but you can set switches to narrow the match. This operation differs from find in two ways: 1) Tcl commands can be invoked both pre- and post-traversal of a node and 2) the tree is always traversed in depth first order.

The -exact, -glob, and -regexp switches indicate both what kind of pattern matching to perform and the pattern. By default each pattern will be compared with the node label. You can set more than one of these switches. If any of the patterns match (logical or), the node matches. If the -key switch is used, it designates the data field to be matched.

The valid switches are listed below:

Descend at most number (a non-negative integer) levels If number is 1 this means only apply the tests to the children of node.
Matches each node using string. The node must match string exactly.
Test each node to string using global pattern matching. Matching is done in a fashion similar to that used by string match.
Invert the results of the pattern matching of -name.
Only test nodes with no children.
Only test nodes with children.
If pattern matching is selected (using the -exact, -glob, or -regexp switches), compare the values of the data field keyed by key instead of the node's label. If no pattern matching switches are set, then any node with this data key will match. The field names may also be patterns using -keyglob, etc.
Ignore case when matching patterns.
Invoke command for each matching node. Before command is invoked, the id of the node is appended. You can control processing by the return value of command. If command generates an error, processing stops and the find operation returns an error. But if command returns break, then processing stops, no error is generated. If command returns continue, then processing stops on that subtree and continues on the next.
Invoke command for each matching node. Before command is invoked, the id of the node is appended. You can control processing by the return value of command. If command generates an error, processing stops and the find operation returns an error. But if command returns break, then processing stops, no error is generated. If command returns continue, then processing stops on that subtree and continues on the next.
Test each node using string as a regular expression pattern.
Only test nodes that have the tag string.
Use the node's full path when comparing nodes. The node's full path is a list of labels, starting from the root of each ancestor and the node label. The default is to compare only the node label.
Queries or attaches to an existing tree object treeObject. This is primarly used where the tree object was previously created via the C API (eg. via TreeView). The current tree associated with treeName is discarded. In addition, the current set of tags, notifier events, and traces are removed. If -notags is given, tags will not be shared.
Returns a list of children for node. If node is a leaf, then an empty string is returned. If first and/or last are given they are the integer index of the children to display. If the -labels option is used, labels are returned instead of the nodes.
Copies srcNode into parentNode. Both nodes srcNode and parentNode must already exist. The id of the new node is returned. You can copy from one tree to another. If a destTree argument is present, it indicates the name of the destination tree. By default both the source and destination trees are the same. The valid switches are listed below:
Label destNode as string. By default, destNode has the same label as srcNode.
Overwrite nodes that already exist. Normally nodes are always created, even if there already exists a node by the same name. This switch indicates to add or overwrite the node's data fields.
Recursively copy all the subtrees of srcNode as well. In this case, srcNode can't be an ancestor of destNode as it would result in a cyclic copy.
Reverse the direction of the copy.
Copy tag information. Normally the following node is copied: its label and data fields. This indicates to copy tags as well.
Cause the creation of zero or more nodes. Exactly one of -num, -nodes or -path is required. This can create all nodes in a given -path or efficiently populate a tree with large numbers of nodes. The return values is the id of the last created node (or -path element). The valid flags for switches are described below.
Set the fixed flag.
Data to set in each node.
The label generated nodes is to use a sequence number starting from number. The default is to just use the node id.
List of nodes ids to create. The -offset option can specify a constant to add.
The number of nodes to create.
Number to add to each element in -nodes. For example, if loading sqlite rowids you should use 1. The default is 0.
The node to insert children into. The default is the root node.
Verify that a path exists and create any missing nodes. Uses labels in pathList to lookup nodes, creating them if not found. The id for the last node in the path is returned (created or not).
The position where to insert child nodes. The default is -1, meaning append.
String prefix to add to each nodes label.
Node nuber to start from when using -num. The default is 1.
List of tags to add to each newly created node.
Returns the number of children of node.
Recursively deletes one or more nodes from the tree. The node and all its descendants are removed. The one exception is the root node. In this case, only its descendants are removed. The root node will remain. Any tags or traces on the nodes are released.
Returns the depth of the node. The depth is the number of steps from the node to the root of the tree. The depth of the root node is 0.
Get or set the dictset flag for the tree which causes any set of an array sub-fields to force the value to type dict. Unlike array types, dicts preserve the order of elements. Setting this to one has the same effect as using the -dictset flag at tree creation time.
Save tree data for node and its descendants. With the -file option, output goes to the file fileName (this is unsupported in a safe interp). With the -channel option, data is output to channel chan. If neither option is given, the dump is returned as data.

The subtree designated by node is traversed to obtain the following information for each node: 1) the node's path relative to node, 2) a sublist key value pairs representing the node's data fields, and 3) a sublist of tags. and 4) the label This list returned can be used later to copy or restore the tree with the restore operation.

The valid switches are listed below.

Obtain data from from the given channel chan. The channel is not closed afterwards.
Obtain data from from the file. fileName. This options is unsupported in a safe interp.
A list of patterns of matching keys to be dumped.
A list of patterns of matching keys not to be dumped.
A pattern match for tags to include in a node dump.
A pattern match for tags to not include in a node dump.
Do not restore any tags
To save space, do not dump the full path for each node. Instead output periods for all but the last path element. Full paths are used only for partial restores.
Indicates if node exists in the tree. If a key argument is present then the command also indicates if the named data field exists.
Finds for all nodes matching the criteria given by switches for the subtree designated by node. A list of the selected nodes is returned. By default all nodes match, but you can set switches to narrow the match.

The -exact, -glob, and -regexp switches indicate what kind of pattern matching to perform for -name. By default the pattern will be compared with the node label. If the -key switch is used, it designates the data field to be matched.

The order in which the nodes are traversed is controlled by the -order switch. The possible orderings are preorder, postorder, inorder, and breadthfirst. The default is preorder.

The valid switches are listed below:

Add the tag string to each selected node. The tag will be created even if no nodes are tagged.
Use value with field given by key. Like the treeview find -column option, this key may contain an array referrence.
Specify columns whose values are to be appended to -command.
Invoke command for each matching node. Before command is invoked, the id of the node is appended. You can control processing by the return value of command. If command generates an error, processing stops and the find operation returns an error. But if command returns break, then processing stops, no error is generated. If command returns continue, then processing stops on that subtree and continues on the next. If command returns return, then the returned integer is used to indicate 1 for match or 0 for mismatch.
Just return the number of matches.
Include only nodes with level equal to number.
Matches each node exactly.
Specifies a Tcl script to be evaluated for each matching node. If -var was also specified, that variable is set with the value of the node id before each evaluation. Otherwise, percent sustitutions are performed: note this is much less efficient than using either -var or -command

The result of each eval gets appended to the return list, unless the script issues a CONTINUE, in which case that node is skipped.

The available percent substitutions on string are:

%#
The id of the node.
%W
The pathname of the tree.
%p
The label of the node.
%P
The full pathname of the node.
%R
The -> delimited path from root, eg. "root->able->baker->charlie"
%r
The -> delimited path from 0, eg. "0->able->baker->charlie"
%T
The dot delimited tag path eg. ".able.baker.charlie"
%V
The value if using -key or the label otherwise.
%D
The data for the node, ie. like that returned from get.
%%
Translates to a single percent.
Test each node using global pattern matching. Matching is done in a fashion similar to that used by the string match.
Invert the pattern matching of -name.
Only test nodes where the specified -key value is an array. Can not be used with -name. The -invert flag will invert the meaning of the check. Note that this will attempt to convert the key value in each traversed node into an array type.
Only match nodes where the specified -column key value was unset.
Only test nodes that have used fixed 1.
Only test nodes with no children.
Only test nodes that have not used fixed 1.
Only test nodes with children.
Only test if number of keys is equal to num.
Compare the values of the data field keyed by key instead of the node's label. If no -name pattern is used then any node with this data key will match. The key names may also be patterns using -keyglob, etc.
Stop processing after number (a positive integer) matches.
Include only nodes at level number or less.
Include only nodes at level number or greater.
The name to use for pattern matching.
Ignore case when matching patterns.
Search only in tagnode, which is either a tag or a list of nodes ids. This makes possible nested searches. Note this option is incompatible with -top and -notop.
Exclude the -top or starting node.
Traverse the tree and process nodes according to string. String can be one of the following:
Process the node and the subtrees at each sucessive level. Each node on a level is processed before going to the next level.
Recursively process the nodes of the first subtree, the node itself, and any the remaining subtrees.
Recursively process all subtrees before the node.
Recursively process the node first, then any subtrees (default).
Use the node's full path when doing the comparison. The default is to compare only the node label.
Test each node using regular expression pattern matching.
Change the meaning of -depth, -mindepth and -maxdepth to be relative to the -top node.
Return the value of the given key, or the empty string if none. If the given key is the empty string, the node label will be returned. If no value was found and the given key starts with a percent returns the sustitution as per -exec. Note that a percent substitution longer than 2 chars will append values as list elements.
Generate an error if a given key value is unset when using -return.
Search is only at node and it's descendants. The default is the root node.
A variable to set with the node id before each iteration of the -exec script.
Only test nodes that don't have the tag string.
Only test nodes that have the tag string.
Searches for a child node label in node. The id of the child node is returned if found. Otherwise -1 is returned. This is the same as using index node->label.
Returns the id of the first child in the node's list of subtrees. If node is a leaf (has no children), then -1 is returned.
Get or set the fixed key-fields flag for a node. New key-fields can be added to a node only if fixed is 0 (the default) If node is given as an empty string, operates on the tree flag. Note that copied and restored nodes do not preserve the fixed state.
Provides a foreach loop for tree. For each node in tagnode the node-id is assigned to var and then script is evaluated. The tagnode is either a tag or a list of nodes as described in the section NODE IDS AND TAGS above.
Returns a list of key-value pairs of data for node. If key is present, then only the value for that particular data field is returned. It's normally an error if node does not contain the data field key. But if you provide a defaultValue argument, this value is returned instead (node will still not contain key). This feature can be used to access a data field of node without first testing if it exists. This operation may trigger read data traces.
Increment value by 1 or given amount and return the value. The incr operation normally tries to use integers, but uses doubles when one of value or amount is a double.
The same as incr but accepts a multi-node tag and an undefined key will be initialized to 0. Returns the number of nodes updated.
Returns the id of node. In addition to standard node id form, node can also be a path (a list of labels from the root) as returned by the path command. If node is invalid, then -1 is returned.
Inserts a new node into parent node parent. The id of the new node is returned. The following switches are available:
Position node after child. The node child must be a child of parent.
Position node before child. The node child must be a child of parent.
Sets the value for each data field in dataList for the new node. DataList is a list of key-value pairs. May not be used in conjuction with -names or -values.
If bool is 1, set fixed field mode after initializing the key/value pairs from -data. This disallows creation of new key fields after the node is created. If not given, the tree default for fixed is used.
Designates the labels of the node as string. By default, nodes are labeled as 0, 1, etc.
The names for the data fields. This must have the same length as -values, and may not be used in conjuction with -data.
Designates the id for the node. Normally new ids are automatically generated. This allows you to create a node with a specific id. It is an error if the id is already used by another node in the tree.
Inserts the node into parent's list of children at position number. The default is to append.
Adds each tag in tagList to the new node, before data is added. Unlike -tags, traces on these tags will fire on key data during the insert.
Adds each tag in tagList to the new node. TagList is a list of tags, so be careful if a tag has embedded space.
The values for the data fields. This must have the same length as -names, and may not be used in conjuction with -data.
Indicates the property of a node. Both property and args determine the property being tested. Returns 1 if true and 0 otherwise. The following property and args are valid:
Indicates if node1 is an ancestor of node2.
Indicates if node1 is before node2 in depth first traversal.
Indicates if node is a leaf (it has no subtrees).
Indicates if node is the designated root. This can be changed by the root operation.
Get or set modified state for the tree or nodes. With no args returns modified state for tree. With one args returns modified state for a node. With two args set modified state for one or more nodes. In the last case, where ?nodeOrTag? is the tag all, the state for the tree is also set.

Newly created nodes are always considered to be modified until explicitly cleared. After clearing, subsequent updates to keys or tags will toggle the node (and tree) modified again.

Return 1 if key is set in node.
Return list of unique keys for all of the given nodes in tagnode. Keys are in no particular order. Accepts nodes and tags or all. See also names.
Returns the label of the node designated by node. If newLabel is present, the node is relabeled using it as the new label.
Append one or more list values to node/key value.
The same as lappend but accepts a multi-node tag and an undefined key will be initialized to {}. Returns the number of nodes updated.
Returns the id of the last child in the node's list of subtrees. If node is a leaf (has no children), then -1 is returned.
Update one or more fields in one or more nodes in tagnode. As with set, node can be a tag referring to multiple nodes. This is identical to set, except an error is thrown if any of the key fields do not exist. Despite the error, all nodes that do have said fields get updated. For modifying a single node, see update.
Moves node into newParent. Node is appended to the list children of newParent. Node can not be an ancestor of newParent. The valid flags for switches are described below.
Position node after child. The node child must be a child of newParent.
Position node before child. The node child must be a child of newParent.
Inserts node into parent's list of children at position number. The default is -1 to append the node.
Return key names for node, in the order defined (if possible). If a key is given, attempts to return ARRAY fields (see DICT-ARRAYS). If a pattern is given, the array keys are limited to those matching the glob pattern. An error is thrown if the convert to array fails (ie. list-length is odd). The type command can be used to query the type. See also values.
Returns the next node from node in a preorder traversal. If node is the last node in the tree, then -1 is returned.
Returns the node representing the next subtree from node in its parent's list of children. If node is the last child, then -1 is returned.
Get or set the start sequence number for subsequent node insertions not using -node. The default is 0.
Manages notification events that indicate that the tree structure has been changed. See the NOTIFY OPERATIONS section below.
Return the value from before the last (untraced) change operation. This is used primarly by write traces wishing to restore a key to it's pre-write value (eg. read-only variables). The oldvalue is saved internally everytime a change operation occurs to a key value by deferring its deallocation. Changes made during node traces do not affect oldvalue.

If newvalue is provided, the current value of oldvalue is discarded and replaced. This is useful really only for releasing large objects.

Returns the parent node of node. If node is the root of the tree, then -1 is returned.
Returns the full path (from root) of node using the node labels. If delim is not specified, the result is a list. Otherwise, the result is a string starting with prefix and each element of the path separated by delim. This latter form is useful for building tags like: .able.baker
Returns the position of the node(s) in its parent's list of children. Positions are numbered from 0. The position of the root node is always 0. The value of ftype is one of: position parent-at-position id+position id+parent-at-position.
Returns the previous node from node in a preorder traversal. If node is the root of the tree, then -1 is returned.
Returns the node representing the previous subtree from node in its parent's list of children. If node is the first child, then -1 is returned.
Performs the inverse function of the dump operation, restoring nodes to the tree. The format of the input data is exactly what is returned by the dump operation. It's a list containing information for each node to be restored. The information consists of 1) the relative path of the node, 2) a sublist of key value pairs representing the node's data, 3) a list of tags for the node, and 4) the label. Nodes are created starting from node. Nodes can be listed in any order. If a node's path describes ancestor nodes that do not already exist, they are automatically created.

The valid switches are listed below. Exactly one of -channel, -file or -data must be specified.

List of tags to add to each node restored node. Each tag will be created only if a node loaded.
Obtain data from from the given channel chan. The channel is not closed afterwards.
Data input is from the given string.
Obtain data from from the file. fileName. This options is unsupported in a safe interp.
A list of patterns of matching keys to be restored.
A list of patterns of matching keys not to be restored.
A pattern match for tags to include in a node restore.
A pattern match for tags to not include in a node restore.
Do not restore any tags
Overwrite nodes that already exist. Normally nodes are always created, even if there already exists a node by the same name. This switch indicates to overwrite existing node's data fields.
Returns the id of the root node. Normally this is node 0. If a node argument is provided, it will become the new root of the tree. This lets you temporarily work within a subset of the tree. Changing root affects operations such as next, path, previous, etc.
Sets one or more data fields in node. tagode may be a tag that represents several nodes and a count of the number of nodes updated is returned. Key is the name of the data field to be set, or an array-like reference such as field(subkey). See the DICT-ARRAYS section below. Value is the respective keys value. The Key will be created if it does not exists (see modify).

The set operation triggers write and create data traces.

Returns the number of nodes in the subtree. This includes the node and all its descendants. The size of a leaf node is 1.
Return nodes in sorted order.
Compare strings using the ASCII collation order.
Use command string as a comparison command. To compare two elements, evaluate a Tcl script consisting of command with the five elements appended as additional arguments: the tree, node1, node1, label1, label2. The script should return an integer less than, equal to, or greater than zero if the first element is to be considered less than, equal to, or greater than the second, respectively.
Sort in decreasing order (largest items come first).
Compare strings using a dictionary-style comparison. This is the same as -ascii except (a) case is ignored except as a tie-breaker and (b) if two strings contain embedded numbers, the numbers compare as integers, not characters. For example, in -dictionary mode, bigBoy sorts between bigbang and bigboy, and x10y sorts between x9y and x11y.
Compare the nodes as integers.
Sort based upon the node's data field keyed by string. Normally nodes are sorted according to their label. label.
Compare the nodes as real numbers.
Recursively sort the entire subtree rooted at node.
Recursively sort subtrees for each node. Warning. Unlike the normal flat sort, where a list of nodes is returned, this will reorder the tree.
Compare the full path of each node. The default is to compare only the node label.
Load tree with the results of evaling the SQL in sqlstmt using dbhfile. The evaluated SQL creates one tree-node per row result. The returned value is the number of rows loaded. Dbhfile is either an sqlite3 database handle, or an sqlite3 file.

The sqlload command can populate a tree with 10k nodes about 7 times faster than sqlite3 eval. It also preserves NULL values and object types (eg. int or double) used internally by sqlite. This eliminates later reconversion within tree. See the SQLLOAD EXAMPLE below.

The following switches are available:

The tags in taglist to add to each inserted node. Each tag will be created only if a node loaded.
Set the fixed flag to disallow new keys after creation.
Store the entire result in the key name instead of creating one key per column. Array notation can be used to then access column results. This is more efficent as it initially stores just one object per row. Conversion to an array is at the first array access (if that occurs).
The value of column is used as the label. By default the label is the node id.
This option maps the node id to the rowid plus the constant num. The key for rowid will also not be created. This is applicable only if rowid is returned in the result-set of sqlstmt. If rowid is not in the result set, this option is ignored. If mapping fails (because the tree already contains a requested node) the load will abort at that point with an error. Note that num must be >= 1 since sqlite rowids start from 0, but the root node of the tree uses the node-id 0.
The maximum number of rows to return. The default is 100,000. Note that SQL queries on large tables should probably always use LIMIT.
Define value to use for null values. The default is no value, meaning do not set key if value is null. Note this is different from the sqlite Tcl extension which uses an empty string for NULL.
The node where results are inserted as child nodes. The default is the tree root.
Name of column containing the full path where node is to be created. This works like -treecols, but uses a singl columns.
The given columns are not to be added as keys. This is useful mostly in conjuction with -tagcol, -labelcol, -pathcol.
Where to insert into parents list of children. Default is -1, meaning to append.
The value of column is added as a tag.
Columns whose values concatenated give the path of where node is to be created. This works like -pathcol, but uses multiple columns.
Add values in key fields for all tagnode and return the sum. Values that are not doubles (or integer) are ignored.
Double value difference to ignore and not do update for -runtotal. This is unused when using -int.
Force update -runtotal even if value was unchanged. Normally, a check is made to avoid updating unchanged values.
Use and accept only integer values.
Place running total in the given key field (if changed).
The start value for the sum: default is 0.
Like update, but uses a string comparison to avoid writes if the value will not be changed. This is useful primarily for avoiding unnecessary write traces.
Manages tags for the tree object. See the TAG OPERATIONS section below.
Manages traces for data fields in the tree object. Traces cause Tcl commands to be executed whenever a data field of a node is created, read, written, or unset. Traces can be set for a specific node or a tag, representing possibly many nodes. See the TRACE OPERATIONS section below.
Return type of value. This is the introspected type from the Tcl_Obj value passed to set.
Like modify, except an error is generated if a tag is used that applies to more than one node.
Removes one or more data fields from node. Node may be a tag that represents several nodes. Key is the name of the data field to be removed. It's not an error is node does not contain key. A count of the number of nodes unset is returned. This operation may trigger unset data traces.
Return values for node. The values are returned in the same order as the keys returned from names.

If a key is given, array values get returned for the key value. If withname is True, then key names are also returned with the values. This differs from get in that the result is a true Tcl list object, not an array object. If subsequently using an array value in a list context, this can be more efficient by avoiding a split on string representations.

Dump key field to a vector. With no tagnode, dumps every node to the 1-1 corresponding vector index. With tag dumps nodes to consequetive vector elements.
Loads key field from a vector. With no tagnode, loads every node from the 1-1 corresponding vector index. With tag loads nodes from consequetive vector elements.
For each node in tagnode, evaluate the script after assigning key values to elements of the array variable. The -keys limits which keys may be assigned. If script completes normally, and any of the key values change in the variable, then the updates are reflected back into the key values (unless -noupdate is used). Unsetting a variable key will cause that change to be ignored. New elements added to the array variable are ignored.

Doing a return, break, or continue inside script will still cause updates to copy back, but processing will stop and (unless -break is used) the return code will become the return code to the caller. This means that a break, continue, and return will propagate up through multiple nested with statements to the to an enclosing foreach, while, etc. But -break can be used to change this, making with behave more like a foreach loop.

If -keys is not used, the list of key names will be stored in variable(*) and the node id stored in variable(#) (which could then be overwritten by a key of that name). By default, the array is not cleaned up before or after each execution. However, if -unset is used, the array is unset at the start of each iteration, and -init can be used to specify a default value. Also, long running queries can speed up by initializing variables prior to the call to with.

If the variable name string is zero length, an simple variables are used instead of an array, and * and # do not get set. Note, when not using -keys, arbitrary local variables can get overwritten.

If -array is used, with operates on the keys of an tree array/dict instead of the keys of the node.

Upon normal completion, the number of times script was evaluated is returned.

The valid switches are listed below:

Specifies a single key that is to be treated as an array-dict. The fields of the array for that one key are then used (instead of keys from the whole node). This changes the meaning of -keys and -glob to be the keys of the array rather than the keys of the node. Nodes missing the given array key will be skipped. If a key value can not be converted to an array, an error will occur.
Treat break and continue like foreach does rather than just passing them up to the enclosing script body.
Variables specified by -keys are to be initialized to value for each node where key is missing.
Copy only the named keys and does not set (*).
Pattern to limit matching keys. Can not be used with -keys.
Ignore changes to array variables. This do not copy changed variables back into tree nodes.
Unset the array variable at the begin of each evaluation.

DICT-ARRAYS

Round braces can be used to access sub-values of a key value. In effect, this means each key value can be an array (or dict), eg.



set t [tree create]
set n [$t insert 0 -data {a 1 b 2 c "x 9 y 8 z 7"}]
$t get $n; # a 1 b 2 c {x 9 y 8 z 7}
$t get $n c; # x 9 y 8 z 7
$t get $n c(y); # 8
$t update $n c(y) 8.6
$t get $n c; # x 9 y 8.6 z 7
$t unset $n c(y)
$t get $n c; # x 9 z 7
$t set $n d 10
$t incr $n d

If a key value is a dict object tree will make use of it. If not, on access it converts the value to a pure array hash object. The following example shows the type in a comment after each operation.



set t [tree create]
$t insert 0 -label A;
$t set 0->A X [dict create a 1 b 2 c 3]; # dict
array set q { x 1 y 2 };
$t set 0->A Y [array get q]; # dict
$t set 0->A Z {m 0 n 1}; # string
$t incr 0->A Z(m); # array
dict size [$t get 0->A Z]; # dict

One advantage of using a dict is that it preserves order. See dictset.

TAG OPERATIONS

Tags are a general means of selecting and marking nodes in the tree. A tag is just a string of characters, and it may take any form except that of an integer. The same tag may be associated with many different nodes.

Most tree operations use tags. And several operations let you operate on multiple nodes at once. For example, you can use the set operation with the tag all to set a data field in for all nodes in the tree.

Tags are invoked by the tag operation. The general form is

treeName tag operation ?arg?...

Both operation and its arguments determine the exact behavior of the command. The operations available for tags are listed below.

Adds the tag string to zero or more nodes. If no nodes are given, just creates the tag. A count of the number of nodes tagged is returned.
Remove the tag string from one or more nodes. A count of the number of nodes visited is returned. Calling tag delete with a builtin tag is ignore.
Dump the nodes specified by the tag tagnode.

The valid switches are listed below.

A list of patterns of matching keys to be dumped.
A list of patterns of matching keys not to be dumped.
A pattern match for tags to include in a node dump.
A pattern match for tags to not include in a node dump.
Do not dump the tags.
To save space, do not dump the full path for each node. Instead output periods for all but the last path element. Full paths are used only for partial restores.
If an id is given, return 1 (or 0) if node has (or hasn't) the tag. Otherwise, returns 1 if at least one nodes has tag string.
Removes the tag definition for one or more of string. It's not an error if the tag string does not exist.
Dump a lookup table (dictionary) of nodes-to-tags, or tags-to-nodes if pattern is given. With no arguments, returns a pair list of nodes/tags, for nodes that have tags. With an argument, returns a pair list of tags/nodes. lookups provides efficient bulk processing when dealing with large numbers of nodes and/or tags.
Returns a list of tags used by the tree. If no node argument is given, returns a list of all known tags. Otherwise, returns the union of the tags used by all given node numbers. Patterns can be used via -glob or -regexp. If -nocase is used, the pattern is expected to be all lower case.
Returns a list of any nodes that have any of given string tag. If no node is tagged with any of the string, then an empty string is returned.

TRACE OPERATIONS

Data fields can be traced much like tracing Tcl variables. Data traces cause a Tcl command to be executed whenever data fields are created, read, written, or unset. A trace can apply to one or more nodes. You can trace a specific node by using its id, or a group of nodes by a their tag. Note: operations on arrays trigger on the whole key value, not the individual array element.

The tree's get, set, and unset operations can trigger various traces. The get operation can cause a read trace to fire. The set operation causes a write trace to fire. And if the data field is written for the first time, you will also get a create trace. The unset operation triggers unset traces.

Data traces are invoked by the trace operation. The general form is

treeName trace operation ?arg?...

Both operation and its arguments determine the exact behavior of the command. The operations available for traces are listed below.

Create a trace on data fields (or tags for tag traces) given by the pattern in key. The node argument can be a nodeid, or a tag to refer to multiple nodes eg. all. The return value is an identifier that can be used with "trace info" or "trace delete". Traces are temporarily disabled while executing command within the trace.

Command is a command prefix, to which four arguments are appended before invocation: treeName, nodeid, key and, ops. If an error occurs in command (and -bgerror was not used) the invoking operation will also abort.

Ops indicates which operations are of interest. It consists of one or more of the following letters:

Invoke command whenever key is read.
Invoke command whenever key is written.
Invoke command whenever key is created.
Invoke command whenever key is unset, typically with the unset command. to that.
Invoke command whenever exists is used on an non-existant key. This can be used to populate node key data on demand.
Invoke command whenever tag key is added to a node.
Invoke command when tag key gets added to more than one node. This trace can be used to enforce tags that should be on at most one node. It can avoid later errors with tags used in get or other commands not accepting non-unique tags.
Invoke command whenever tag key is deleted from a node using either tag delete or tag forget. Node deletion will not trigger this trace.

Deletes one of more traces. TraceId is the trace identifier returned by the trace create operation.
Returns information about the trace traceId. TraceId is a trace identifier previously returned by the trace create operation. It's the same information specified for the trace create operation. It consists of the node id or tag, data field key, a string of letters indicating the operations that are traced (it's in the same form as ops) and, the command prefix.
Returns a list of identifers for all the current traces.

NOTIFY OPERATIONS

The purpose of notify is to get control when structural operations occur on a tree. This is used internally by treeview or example when a tree object is shared. A client may create nodes, sort a tree, move a node, etc. Notifier can cause such operations to generate events, resulting in Tcl commands being executed.

The general form of notify is:

treeName notify operation ?arg?...

The available operation are as follows:

Creates a notifier for the tree. A notify identifier in the form "notify0", "notify1", etc. is returned.

Command and args are saved and invoked whenever the tree structure is changed (controlled by switches). Two arguments are appended to command and args before it's invoked: the id of the node and a string representing the type of event that occured. If an error is returned by command the invoking operation returns an error (when not using -whenidle). One or more of the following switches are used to indicate the events that are of interest:

Generate a background error if an error occurs.
Invoke command whenever a new node is added. This is called after the creation. Returning an error will delete the node.
Invoke command whenever a node has been deleted. This is called before the delete starts to allow aborting it with an error. Deletes resulting from failed inserts are ignored.
Disable traces from firing during a notify event.
Invoke command whenever a node with no keys is accessed (via get or with). If a node has at least one key, this will not trigger. The invocation occurs before the read, meaning it can be used to implement demand loading of data keys into empty nodes (eg. loading database row data on read).
Invoke command when an insert completes. This differs from -create in that the call occurs after the label, tags and data are added (but before -fixed gets set). This trace applies to the subcommands create, copy, restore, sqlload, and insert (both tree and treeview). It is useful for verifying key-data, tags and labels. Returning an error will delete the node and cause the originating command to generate an error.
Invoke command at the start of a node move.
Invoke command after a node has been moved.
Invoke command whenever the tree has been sorted and reordered.
Invoke command at the start of a node relabel.
Invoke command after a node has been relabeled.
Invoke command whenever any of the above events occur.
When an event occurs don't invoke command immediately, but queue it to be run the next time the event loop is entered and there are no events to process. If subsequent events occur before the event loop is entered, command will still be invoked only once.
Deletes one or more notifiers from the tree. NotifyId is the notifier identifier returned by the notify create operation.
Returns information about the notify event notifyId. NotifyId is a notify identifier previously returned by the notify create operation. It's the same information specified for the notify create operation. It consists of the notify id, a sublist of event flags (it's in the same form as flags) and, the command prefix.
Returns a list of identifers for all the current notifiers.

TABLE EXAMPLE

The following is a simple example.



variable Users {
tom { Name "Tom Brown" Sex M Age 19 Class {4 5} Rate {A 1 B 2}}
mary { Name "Mary Brown" Sex F Age 16 Class {5} Rate {A 2}}
sam { Name "Sam Spade" Sex M Age 19 Class {3 4} Rate {B 3}}
}
set t [tree create]
foreach {i d} $Users {
# Use name in -tags so we don't have to do "0->mary" etc.
$t insert 0 -tags $i -data $d -label $i
}

$t update tom Sex F Name "Tomi Brown"
$t append sam Name " Jr"
$t lappend sam Class 5
$t incr mary Age
$t update tom Rate(A) 2
$t incr 0->mary Age

# Set a trace.
proc ::Aupd {t id key op} { tclLog "AA: $t $id $key $op" }
$t trace create all Age w ::Aupd
$t incr mary Age

# Display it.
pack [treeview .t -tree $t] -fill both -expand y
eval .t column insert end [$t keys all]

TREE EXAMPLE

The following is a nested tree example with updates.



variable Info {
system {
sol { OS Linux Version 3.4 }
bing { OS Win Version 7 }
gui { OS Mac Version 8 }
}
network {
intra { Address 192.168.1 Netmask 255.255.255.0 }
dmz { Address 192.168.10 Netmask 255.255.255.0 }
wan { Address 0.0.0.0 Netmask 0.0.0.0 Class {A 1 B 4}}
}
admins {
sully { Name "Sully Van Damme" Level 3 }
maverick { Name "Maverick Gump" Level 1 }
}
}

set s [tree create]
foreach {n vals} $Info {
set ind [$s insert 0 -label $n]
foreach {i d} $vals {
$s insert $ind -label $i -data $d
}
}

set old [$s get 0->system->bing]
$s update 0->system->bing OS Linux Version 3.4
$s update 0->network->dmz Address 192.168.11
$s update 0->network->wan Class(A) 2
eval $s set 0->system->bing $old
$s insert 0->admins -label linus -data { Name "Linus Torvalds" Level 9 }


pack [treeview .s -tree $s -width 600] -fill both -expand y
eval .s column insert end [$s keys all]

SQLLOAD EXAMPLE

Here is an example using sqlload on table cust from a database file, and displaying it in a treeview:



set t [tree create]
$t sqlload mydb.dat "select rowid,* from cust"
pack [treeview .t -tree $t -width 500] -fill both -expand y
eval .t column insert end [lsort [$t keys all]]

Although there is no corresponding sqldump command, scripting it is easy. Following is one approach.



proc sqldump {t db table {ids {}}} {
# Dump nodes from tree t into table in open sqlite database db.
if {$ids == {}} { set ids [$t children root] }
set keys [$t keys $ids]
catch { $db eval "CREATE TABLE $table ( [join $keys ,] )" }
$t with s $ids {
set nams {}
set vals {}
foreach nam $s(*) {
lappend vals $s($nam)
lappend nams $nam
}
set vals [join $vals ,]
set nams [join $nams ,]
set q [format {INSERT INTO %s (%s) VALUES (%s)} $table $nams $vals]
$db eval $q
}
}
sqlite3 [set db dbhandle] mydb.dat
sqldump $t $db cust2

TREE KEY STRING STORAGE

Key name strings are stored by default in a global hash table. However, sometimes this can be undesirable (eg. with threading), and so the behavior may be changed (at tree create time only). To enable per-interp storage of keys, set blt::treeKeysLocal to 1 before tree creation. To enable per-tree storage of keys, set blt::treeKeysLocal to 2 before tree creation. The above is unavailable in safe interps.

C LANGUAGE API

Blt_TreeApply, Blt_TreeApplyBFS, Blt_TreeApplyDFS, Blt_TreeChangeRoot, Blt_TreeCreate, Blt_TreeCreateEventHandler, Blt_TreeCreateNode, Blt_TreeCreateTrace, Blt_TreeDeleteEventHandler, Blt_TreeDeleteNode, Blt_TreeDeleteTrace, Blt_TreeExists, Blt_TreeFindChild, Blt_TreeFirstChild, Blt_TreeFirstKey, Blt_TreeGetNode, Blt_TreeGetToken, Blt_TreeGetValue, Blt_TreeIsAncestor, Blt_TreeIsBefore, Blt_TreeIsLeaf, Blt_TreeLastChild, Blt_TreeMoveNode, Blt_TreeName, Blt_TreeNextKey, Blt_TreeNextNode, Blt_TreeNextSibling, Blt_TreeNodeDegree, Blt_TreeNodeDepth, Blt_TreeNodeId, Blt_TreeNodeLabel, Blt_TreeNodeParent, Blt_TreePrevNode, Blt_TreePrevSibling, Blt_TreeRelabelNode, Blt_TreeReleaseToken, Blt_TreeRootNode, Blt_TreeSetValue, Blt_TreeSize, Blt_TreeSortNode, and Blt_TreeUnsetValue.

KEYWORDS

tree, treeview, widget

2.5 BLT