.TH mxml 3 "Mini-XML API" "2024-03-20" "Mini-XML API" .SH NAME mxml \- Mini-XML API .SH INCLUDE FILE #include .SH LIBRARY \-lmxml .SH DESCRIPTION Mini-XML is a small XML parsing library that you can use to read XML and XML-like data files in your application without requiring large non-standard libraries. Mini-XML only requires an ANSI C compatible compiler (GCC works, as do most vendors' ANSI C compilers) and a "make" program. .PP Mini-XML provides the following functionality: .IP \(bu 4 Reading of UTF-8 and UTF-16 and writing of UTF-8 encoded XML files and strings. .IP \(bu 4 Data is stored in a linked-list tree structure, preserving the XML data hierarchy. .IP \(bu 4 Supports arbitrary element names, attributes, and attribute values with no preset limits, just available memory. .IP \(bu 4 Supports integer, real, opaque ("CDATA"), and text data types in "leaf" nodes. .IP \(bu 4 Functions for creating, indexing, and managing trees of data. .IP \(bu 4 "Find" and "walk" functions for easily locating and navigating trees of data. .PP Mini-XML doesn't do validation or other types of processing on the data based upon schema files or other sources of definition information, nor does it support character entities other than those required by the XML specification. .SH USING MINI-XML Mini-XML provides a single header file which you include: .nf #include .fi .PP Nodes are defined by the "mxml_node_t" structure; the "type" member defines the node type (element, integer, opaque, real, or text) which determines which value you want to look at in the "value" union. New nodes can be created using the "mxmlNewElement()", "mxmlNewInteger()", "mxmlNewOpaque()", "mxmlNewReal()", and "mxmlNewText()" functions. Only elements can have child nodes, and the top node must be an element, usually "?xml". .PP You load an XML file using the "mxmlLoadFile()" function: .nf FILE *fp; mxml_node_t *tree; fp = fopen("filename.xml", "r"); tree = mxmlLoadFile(NULL, fp, MXML_NO_CALLBACK); fclose(fp); .fi .PP Similarly, you save an XML file using the "mxmlSaveFile()" function: .nf FILE *fp; mxml_node_t *tree; fp = fopen("filename.xml", "w"); mxmlSaveFile(tree, fp, MXML_NO_CALLBACK); fclose(fp); .fi .PP The "mxmlLoadString()", "mxmlSaveAllocString()", and "mxmlSaveString()" functions load XML node trees from and save XML node trees to strings: .nf char buffer[8192]; char *ptr; mxml_node_t *tree; ... tree = mxmlLoadString(NULL, buffer, MXML_NO_CALLBACK); ... mxmlSaveString(tree, buffer, sizeof(buffer), MXML_NO_CALLBACK); ... ptr = mxmlSaveAllocString(tree, MXML_NO_CALLBACK); .fi .PP You can find a named element/node using the "mxmlFindElement()" function: .nf mxml_node_t *node = mxmlFindElement(tree, tree, "name", "attr", "value", MXML_DESCEND); .fi .PP The "name", "attr", and "value" arguments can be passed as NULL to act as wildcards, e.g.: .nf /* Find the first "a" element */ node = mxmlFindElement(tree, tree, "a", NULL, NULL, MXML_DESCEND); /* Find the first "a" element with "href" attribute */ node = mxmlFindElement(tree, tree, "a", "href", NULL, MXML_DESCEND); /* Find the first "a" element with "href" to a URL */ node = mxmlFindElement(tree, tree, "a", "href", "http://www.easysw.com/~mike/mxml/", MXML_DESCEND); /* Find the first element with a "src" attribute*/ node = mxmlFindElement(tree, tree, NULL, "src", NULL, MXML_DESCEND); /* Find the first element with a "src" = "foo.jpg" */ node = mxmlFindElement(tree, tree, NULL, "src", "foo.jpg", MXML_DESCEND); .fi .PP You can also iterate with the same function: .nf mxml_node_t *node; for (node = mxmlFindElement(tree, tree, "name", NULL, NULL, MXML_DESCEND); node != NULL; node = mxmlFindElement(node, tree, "name", NULL, NULL, MXML_DESCEND)) { ... do something ... } .fi .PP To find the value of a specific node in the tree, use the "mxmlFindPath()" function: .nf mxml_node_t *value = mxmlFindPath(tree, "path/to/*/foo/bar"); .fi .PP The "mxmlGetInteger()", "mxmlGetOpaque()", "mxmlGetReal()", and "mxmlGetText()" functions retrieve the value from a node: .nf mxml_node_t *node; long intvalue = mxmlGetInteger(node); const char *opaquevalue = mxmlGetOpaque(node); double realvalue = mxmlGetReal(node); bool whitespacevalue; const char *textvalue = mxmlGetText(node, &whitespacevalue); .fi .PP Finally, once you are done with the XML data, use the "mxmlDelete()" function to recursively free the memory that is used for a particular node or the entire tree: .nf mxmlDelete(tree); .fi .SH ENUMERATIONS .SS mxml_add_e \fImxmlAdd\fR add values .TP 5 MXML_ADD_AFTER .br Add node after specified node .TP 5 MXML_ADD_BEFORE .br Add node before specified node .SS mxml_descend_e \fImxmlFindElement\fR, \fImxmlWalkNext\fR, and \fImxmlWalkPrev\fR descend values .TP 5 MXML_DESCEND_ALL .br Descend when finding/walking .TP 5 MXML_DESCEND_FIRST .br Descend for first find .TP 5 MXML_DESCEND_NONE .br Don't descend when finding/walking .SS mxml_sax_event_e SAX event type. .TP 5 MXML_SAX_EVENT_CDATA .br CDATA node .TP 5 MXML_SAX_EVENT_COMMENT .br Comment node .TP 5 MXML_SAX_EVENT_DATA .br Data node .TP 5 MXML_SAX_EVENT_DECLARATION .br Declaration node .TP 5 MXML_SAX_EVENT_DIRECTIVE .br Processing instruction node .TP 5 MXML_SAX_EVENT_ELEMENT_CLOSE .br Element closed .TP 5 MXML_SAX_EVENT_ELEMENT_OPEN .br Element opened .SS mxml_type_e The XML node type. .TP 5 MXML_TYPE_CDATA .br CDATA value (" .URL [CDATA[...]] [CDATA[...]] ") .TP 5 MXML_TYPE_COMMENT .br Comment (" .URL !--...-- !--...-- ") .TP 5 MXML_TYPE_CUSTOM .br Custom data .TP 5 MXML_TYPE_DECLARATION .br Declaration (" .URL !... !... ") .TP 5 MXML_TYPE_DIRECTIVE .br Processing instruction (" .URL ?...? ?...? ") .TP 5 MXML_TYPE_ELEMENT .br XML element with attributes .TP 5 MXML_TYPE_IGNORE .br Ignore/throw away node .TP 5 MXML_TYPE_INTEGER .br Integer value .TP 5 MXML_TYPE_OPAQUE .br Opaque string .TP 5 MXML_TYPE_REAL .br Real value .TP 5 MXML_TYPE_TEXT .br Text fragment .SS mxml_ws_e Whitespace periods .TP 5 MXML_WS_AFTER_CLOSE .br Callback for after close tag .TP 5 MXML_WS_AFTER_OPEN .br Callback for after open tag .TP 5 MXML_WS_BEFORE_CLOSE .br Callback for before close tag .TP 5 MXML_WS_BEFORE_OPEN .br Callback for before open tag .SH FUNCTIONS .SS mxmlAdd Add a node to a tree. .PP .nf void mxmlAdd ( mxml_node_t *parent, mxml_add_t add, mxml_node_t *child, mxml_node_t *node ); .fi .PP This function adds the specified node \fBnode\fR to the parent. If the \fBchild\fR argument is not \fBNULL\fR, the new node is added before or after the specified child depending on the value of the \fBadd\fR argument. If the \fBchild\fR argument is \fBNULL\fR, the new node is placed at the beginning of the child list (\fBMXML_ADD_BEFORE\fR) or at the end of the child list (\fBMXML_ADD_AFTER\fR). .SS mxmlDelete Delete a node and all of its children. .PP .nf void mxmlDelete ( mxml_node_t *node ); .fi .PP This function deletes the node \fBnode\fR and all of its children. If the specified node has a parent, this function first removes the node from its parent using the \fImxmlRemove\fR function. .SS mxmlElementClearAttr Remove an attribute from an element. .PP .nf void mxmlElementClearAttr ( mxml_node_t *node, const char *name ); .fi .PP This function removes the attribute \fBname\fR from the element \fBnode\fR. .SS mxmlElementGetAttr Get the value of an attribute. .PP .nf const char * mxmlElementGetAttr ( mxml_node_t *node, const char *name ); .fi .PP This function gets the value for the attribute \fBname\fR from the element \fBnode\fR. \fBNULL\fR is returned if the node is not an element or the named attribute does not exist. .SS mxmlElementGetAttrByIndex Get an attribute by index. .PP .nf const char * mxmlElementGetAttrByIndex ( mxml_node_t *node, size_t idx, const char **name ); .fi .PP This function returned the Nth (\fBidx\fR) attribute for element \fBnode\fR. The attribute name is optionallly returned in the \fBname\fR argument. \fBNULL\fR is returned if node is not an element or the specified index is out of range. .SS mxmlElementGetAttrCount Get the number of element attributes. .PP .nf size_t mxmlElementGetAttrCount ( mxml_node_t *node ); .fi .PP This function returns the number of attributes for the element \fBnode\fR. \fB0\fR is returned if the node is not an element or there are no attributes for the element. .SS mxmlElementSetAttr Set an attribute for an element. .PP .nf void mxmlElementSetAttr ( mxml_node_t *node, const char *name, const char *value ); .fi .PP This function sets attribute \fBname\fR to the string \fBvalue\fR for the element \fBnode\fR. If the named attribute already exists, the value of the attribute is replaced by the new string value. The string value is copied. .SS mxmlElementSetAttrf Set an attribute with a formatted value. .PP .nf void mxmlElementSetAttrf ( mxml_node_t *node, const char *name, const char *format, ... ); .fi .PP This function sets attribute \fBname\fR to the formatted value of \fBformat\fR for the element \fBnode\fR. If the named attribute already exists, the value of the attribute is replaced by the new formatted string value. .SS mxmlFindElement Find the named element. .PP .nf mxml_node_t * mxmlFindElement ( mxml_node_t *node, mxml_node_t *top, const char *element, const char *attr, const char *value, mxml_descend_t descend ); .fi .PP This function finds the named element \fBelement\fR in XML tree \fBtop\fR starting at node \fBnode\fR. The search is constrained by element name \fBelement\fR, attribute name \fBattr\fR, and attribute value \fBvalue\fR - \fBNULL\fR names or values are treated as wildcards, so different kinds of searches can be implemented by looking for all elements of a given name or all elements with a specific attribute. .PP The \fBdescend\fR argument determines whether the search descends into child nodes; normally you will use \fBMXML_DESCEND_FIRST\fR for the initial search and \fBMXML_DESCEND_NONE\fR to find additional direct descendents of the node. .SS mxmlFindPath Find a node with the given path. .PP .nf mxml_node_t * mxmlFindPath ( mxml_node_t *top, const char *path ); .fi .PP This function finds a node in XML tree \fBtop\fR using a slash-separated list of element names in \fBpath\fR. The name "\fI" is considered a wildcard for one or more levels of elements, for example, "foo/one/two", "bar/two/one", "\fR/one", and so forth. .PP The first child node of the found node is returned if the given node has children and the first child is a value node. .SS mxmlGetCDATA Get the value for a CDATA node. .PP .nf const char * mxmlGetCDATA ( mxml_node_t *node ); .fi .PP This function gets the string value of a CDATA node. \fBNULL\fR is returned if the node is not a CDATA element. .SS mxmlGetComment Get the value for a comment node. .PP .nf const char * mxmlGetComment ( mxml_node_t *node ); .fi .PP This function gets the string value of a comment node. \fBNULL\fR is returned if the node is not a comment. .SS mxmlGetCustom Get the value for a custom node. .PP .nf const void * mxmlGetCustom ( mxml_node_t *node ); .fi .PP This function gets the binary value of a custom node. \fBNULL\fR is returned if the node (or its first child) is not a custom value node. .SS mxmlGetDeclaration Get the value for a declaration node. .PP .nf const char * mxmlGetDeclaration ( mxml_node_t *node ); .fi .PP This function gets the string value of a declaraction node. \fBNULL\fR is returned if the node is not a declaration. .SS mxmlGetDirective Get the value for a processing instruction node. .PP .nf const char * mxmlGetDirective ( mxml_node_t *node ); .fi .PP This function gets the string value of a processing instruction. \fBNULL\fR is returned if the node is not a processing instruction. .SS mxmlGetElement Get the name for an element node. .PP .nf const char * mxmlGetElement ( mxml_node_t *node ); .fi .PP This function gets the name of an element node. \fBNULL\fR is returned if the node is not an element node. .SS mxmlGetFirstChild Get the first child of a node. .PP .nf mxml_node_t * mxmlGetFirstChild ( mxml_node_t *node ); .fi .PP This function gets the first child of a node. \fBNULL\fR is returned if the node has no children. .SS mxmlGetInteger Get the integer value from the specified node or its first child. .PP .nf long mxmlGetInteger ( mxml_node_t *node ); .fi .PP This function gets the value of an integer node. \fB0\fR is returned if the node (or its first child) is not an integer value node. .SS mxmlGetLastChild Get the last child of a node. .PP .nf mxml_node_t * mxmlGetLastChild ( mxml_node_t *node ); .fi .PP This function gets the last child of a node. \fBNULL\fR is returned if the node has no children. .SS mxmlGetNextSibling .PP .nf mxml_node_t * mxmlGetNextSibling ( mxml_node_t *node ); .fi .SS mxmlGetOpaque Get an opaque string value for a node or its first child. .PP .nf const char * mxmlGetOpaque ( mxml_node_t *node ); .fi .PP This function gets the string value of an opaque node. \fBNULL\fR is returned if the node (or its first child) is not an opaque value node. .SS mxmlGetParent Get the parent node. .PP .nf mxml_node_t * mxmlGetParent ( mxml_node_t *node ); .fi .PP This function gets the parent of a node. \fBNULL\fR is returned for a root node. .SS mxmlGetPrevSibling Get the previous node for the current parent. .PP .nf mxml_node_t * mxmlGetPrevSibling ( mxml_node_t *node ); .fi .PP This function gets the previous node for the current parent. \fBNULL\fR is returned if this is the first child for the current parent. .SS mxmlGetReal Get the real value for a node or its first child. .PP .nf double mxmlGetReal ( mxml_node_t *node ); .fi .PP This function gets the value of a real value node. \fB0.0\fR is returned if the node (or its first child) is not a real value node. .SS mxmlGetRefCount Get the current reference (use) count for a node. .PP .nf size_t mxmlGetRefCount ( mxml_node_t *node ); .fi .PP The initial reference count of new nodes is 1. Use the \fImxmlRetain\fR and \fImxmlRelease\fR functions to increment and decrement a node's reference count. .SS mxmlGetText Get the text value for a node or its first child. .PP .nf const char * mxmlGetText ( mxml_node_t *node, bool *whitespace ); .fi .PP This function gets the string and whitespace values of a text node. \fBNULL\fR and \fBfalse\fR are returned if the node (or its first child) is not a text node. The \fBwhitespace\fR argument can be \fBNULL\fR if you don't want to know the whitespace value. .PP Note: Text nodes consist of whitespace-delimited words. You will only get single words of text when reading an XML file with \fBMXML_TYPE_TEXT\fR nodes. If you want the entire string between elements in the XML file, you MUST read the XML file with \fBMXML_TYPE_OPAQUE\fR nodes and get the resulting strings using the \fImxmlGetOpaque\fR function instead. .SS mxmlGetType Get the node type. .PP .nf mxml_type_t mxmlGetType ( mxml_node_t *node ); .fi .PP This function gets the type of \fBnode\fR. \fBMXML_TYPE_IGNORE\fR is returned if \fBnode\fR is \fBNULL\fR. .SS mxmlGetUserData Get the user data pointer for a node. .PP .nf void * mxmlGetUserData ( mxml_node_t *node ); .fi .PP This function gets the user data pointer associated with \fBnode\fR. .SS mxmlIndexDelete Delete an index. .PP .nf void mxmlIndexDelete ( mxml_index_t *ind ); .fi .SS mxmlIndexEnum Return the next node in the index. .PP .nf mxml_node_t * mxmlIndexEnum ( mxml_index_t *ind ); .fi .PP This function returns the next node in index \fBind\fR. .PP You should call \fImxmlIndexReset\fR prior to using this function to get the first node in the index. Nodes are returned in the sorted order of the index. .SS mxmlIndexFind Find the next matching node. .PP .nf mxml_node_t * mxmlIndexFind ( mxml_index_t *ind, const char *element, const char *value ); .fi .PP This function finds the next matching node in index \fBind\fR. .PP You should call \fImxmlIndexReset\fR prior to using this function for the first time with a particular set of \fBelement\fR and \fBvalue\fR strings. Passing \fBNULL\fR for both \fBelement\fR and \fBvalue\fR is equivalent to calling \fImxmlIndexEnum\fR. .SS mxmlIndexGetCount Get the number of nodes in an index. .PP .nf size_t mxmlIndexGetCount ( mxml_index_t *ind ); .fi .SS mxmlIndexNew Create a new index. .PP .nf mxml_index_t * mxmlIndexNew ( mxml_node_t *node, const char *element, const char *attr ); .fi .PP This function creates a new index for XML tree \fBnode\fR. .PP The index will contain all nodes that contain the named element and/or attribute. If both \fBelement\fR and \fBattr\fR are \fBNULL\fR, then the index will contain a sorted list of the elements in the node tree. Nodes are sorted by element name and optionally by attribute value if the \fBattr\fR argument is not \fBNULL\fR. .SS mxmlIndexReset Reset the enumeration/find pointer in the index and return the first node in the index. .PP .nf mxml_node_t * mxmlIndexReset ( mxml_index_t *ind ); .fi .PP This function resets the enumeration/find pointer in index \fBind\fR and should be called prior to using \fImxmlIndexEnum\fR or \fImxmlIndexFind\fR for the first time. .SS mxmlLoadFd Load a file descriptor into an XML node tree. .PP .nf mxml_node_t * mxmlLoadFd ( mxml_node_t *top, mxml_options_t *options, int fd ); .fi .PP This function loads the file descriptor \fBfd\fR into an XML node tree. The nodes in the specified file are added to the specified node \fBtop\fR - if \fBNULL\fR the XML file MUST be well-formed with a single parent processing instruction node like \fB\fR at the start of the file. .PP Load options are provides via the \fBoptions\fR argument. If \fBNULL\fR, all values will be loaded into \fBMXML_TYPE_TEXT\fR nodes. Use the \fImxmlOptionsNew\fR function to create options when loading XML data. .SS mxmlLoadFile Load a file into an XML node tree. .PP .nf mxml_node_t * mxmlLoadFile ( mxml_node_t *top, mxml_options_t *options, FILE *fp ); .fi .PP This function loads the \fBFILE\fR pointer \fBfp\fR into an XML node tree. The nodes in the specified file are added to the specified node \fBtop\fR - if \fBNULL\fR the XML file MUST be well-formed with a single parent processing instruction node like \fB\fR at the start of the file. .PP Load options are provides via the \fBoptions\fR argument. If \fBNULL\fR, all values will be loaded into \fBMXML_TYPE_TEXT\fR nodes. Use the \fImxmlOptionsNew\fR function to create options when loading XML data. .SS mxmlLoadFilename Load a file into an XML node tree. .PP .nf mxml_node_t * mxmlLoadFilename ( mxml_node_t *top, mxml_options_t *options, const char *filename ); .fi .PP This function loads the named file \fBfilename\fR into an XML node tree. The nodes in the specified file are added to the specified node \fBtop\fR - if \fBNULL\fR the XML file MUST be well-formed with a single parent processing instruction node like \fB\fR at the start of the file. .PP Load options are provides via the \fBoptions\fR argument. If \fBNULL\fR, all values will be loaded into \fBMXML_TYPE_TEXT\fR nodes. Use the \fImxmlOptionsNew\fR function to create options when loading XML data. .SS mxmlLoadIO Load an XML node tree using a read callback. .PP .nf mxml_node_t * mxmlLoadIO ( mxml_node_t *top, mxml_options_t *options, mxml_io_cb_t io_cb, void *io_cbdata ); .fi .PP This function loads data into an XML node tree using a read callback. The nodes in the specified file are added to the specified node \fBtop\fR - if \fBNULL\fR the XML file MUST be well-formed with a single parent processing instruction node like \fB\fR at the start of the file. .PP Load options are provides via the \fBoptions\fR argument. If \fBNULL\fR, all values will be loaded into \fBMXML_TYPE_TEXT\fR nodes. Use the \fImxmlOptionsNew\fR function to create options when loading XML data. .PP The read callback function \fBio_cb\fR is called to read a number of bytes from the source. The callback data pointer \fBio_cbdata\fR is passed to the read callback with a pointer to a buffer and the maximum number of bytes to read, for example: .PP \fB`\fRc size_t my_io_cb(void \fIcbdata, void \fRbuffer, size_t bytes) { ... copy up to "bytes" bytes into buffer ... ... return the number of bytes "read" or 0 on error ... } \fB`\fR .SS mxmlLoadString Load a string into an XML node tree. .PP .nf mxml_node_t * mxmlLoadString ( mxml_node_t *top, mxml_options_t *options, const char *s ); .fi .PP This function loads the string into an XML node tree. The nodes in the specified file are added to the specified node \fBtop\fR - if \fBNULL\fR the XML file MUST be well-formed with a single parent processing instruction node like \fB\fR at the start of the file. .PP Load options are provides via the \fBoptions\fR argument. If \fBNULL\fR, all values will be loaded into \fBMXML_TYPE_TEXT\fR nodes. Use the \fImxmlOptionsNew\fR function to create options when loading XML data. .SS mxmlNewCDATA Create a new CDATA node. .PP .nf mxml_node_t * mxmlNewCDATA ( mxml_node_t *parent, const char *data ); .fi .PP The new CDATA node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new CDATA node has no parent. The data string must be nul-terminated and is copied into the new node. CDATA nodes currently use the \fBMXML_TYPE_ELEMENT\fR type. .SS mxmlNewCDATAf Create a new formatted CDATA node. .PP .nf mxml_node_t * mxmlNewCDATAf ( mxml_node_t *parent, const char *format, ... ); .fi .PP The new CDATA node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new opaque string node has no parent. The format string must be nul-terminated and is formatted into the new node. .SS mxmlNewComment Create a new comment node. .PP .nf mxml_node_t * mxmlNewComment ( mxml_node_t *parent, const char *comment ); .fi .PP The new comment node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new comment node has no parent. The comment string must be nul-terminated and is copied into the new node. .SS mxmlNewCommentf Create a new formatted comment string node. .PP .nf mxml_node_t * mxmlNewCommentf ( mxml_node_t *parent, const char *format, ... ); .fi .PP The new comment string node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new opaque string node has no parent. The format string must be nul-terminated and is formatted into the new node. .SS mxmlNewCustom Create a new custom data node. .PP .nf mxml_node_t * mxmlNewCustom ( mxml_node_t *parent, void *data, mxml_custfree_cb_t free_cb, void *free_cbdata ); .fi .PP The new custom node is added to the end of the specified parent's child list. The \fBfree_cb\fR argument specifies a function to call to free the custom data when the node is deleted. .SS mxmlNewDeclaration Create a new declaraction node. .PP .nf mxml_node_t * mxmlNewDeclaration ( mxml_node_t *parent, const char *declaration ); .fi .PP The new declaration node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new declaration node has no parent. The declaration string must be nul- terminated and is copied into the new node. .SS mxmlNewDeclarationf Create a new formatted declaration node. .PP .nf mxml_node_t * mxmlNewDeclarationf ( mxml_node_t *parent, const char *format, ... ); .fi .PP The new declaration node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new opaque string node has no parent. The format string must be nul-terminated and is formatted into the new node. .SS mxmlNewDirective Create a new processing instruction node. .PP .nf mxml_node_t * mxmlNewDirective ( mxml_node_t *parent, const char *directive ); .fi .PP The new processing instruction node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new processing instruction node has no parent. The data string must be nul-terminated and is copied into the new node. .SS mxmlNewDirectivef Create a new formatted processing instruction node. .PP .nf mxml_node_t * mxmlNewDirectivef ( mxml_node_t *parent, const char *format, ... ); .fi .PP The new processing instruction node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new opaque string node has no parent. The format string must be nul-terminated and is formatted into the new node. .SS mxmlNewElement Create a new element node. .PP .nf mxml_node_t * mxmlNewElement ( mxml_node_t *parent, const char *name ); .fi .PP The new element node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new element node has no parent. .SS mxmlNewInteger Create a new integer node. .PP .nf mxml_node_t * mxmlNewInteger ( mxml_node_t *parent, long integer ); .fi .PP The new integer node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new integer node has no parent. .SS mxmlNewOpaque Create a new opaque string. .PP .nf mxml_node_t * mxmlNewOpaque ( mxml_node_t *parent, const char *opaque ); .fi .PP The new opaque string node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new opaque string node has no parent. The opaque string must be nul- terminated and is copied into the new node. .SS mxmlNewOpaquef Create a new formatted opaque string node. .PP .nf mxml_node_t * mxmlNewOpaquef ( mxml_node_t *parent, const char *format, ... ); .fi .PP The new opaque string node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new opaque string node has no parent. The format string must be nul-terminated and is formatted into the new node. .SS mxmlNewReal Create a new real number node. .PP .nf mxml_node_t * mxmlNewReal ( mxml_node_t *parent, double real ); .fi .PP The new real number node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new real number node has no parent. .SS mxmlNewText Create a new text fragment node. .PP .nf mxml_node_t * mxmlNewText ( mxml_node_t *parent, bool whitespace, const char *string ); .fi .PP The new text node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new text node has no parent. The whitespace parameter is used to specify whether leading whitespace is present before the node. The text string must be nul-terminated and is copied into the new node. .SS mxmlNewTextf Create a new formatted text fragment node. .PP .nf mxml_node_t * mxmlNewTextf ( mxml_node_t *parent, bool whitespace, const char *format, ... ); .fi .PP The new text node is added to the end of the specified parent's child list. The constant \fBMXML_NO_PARENT\fR can be used to specify that the new text node has no parent. The whitespace parameter is used to specify whether leading whitespace is present before the node. The format string must be nul-terminated and is formatted into the new node. .SS mxmlNewXML Create a new XML document tree. .PP .nf mxml_node_t * mxmlNewXML ( const char *version ); .fi .PP The "version" argument specifies the version number to put in the ?xml directive node. If \fBNULL\fR, version "1.0" is assumed. .SS mxmlOptionsDelete Free load/save options. .PP .nf void mxmlOptionsDelete ( mxml_options_t *options ); .fi .SS mxmlOptionsNew Allocate load/save options. .PP .nf mxml_options_t * mxmlOptionsNew (void); .fi .PP This function creates a new set of load/save options to use with the \fImxmlLoadFd\fR, \fImxmlLoadFile\fR, \fImxmlLoadFilename\fR, \fImxmlLoadIO\fR, \fImxmlLoadString\fR, \fImxmlSaveAllocString\fR, \fImxmlSaveFd\fR, \fImxmlSaveFile\fR, \fImxmlSaveFilename\fR, \fImxmlSaveIO\fR, and \fImxmlSaveString\fR functions. Options can be reused for multiple calls to these functions and should be freed using the \fImxmlOptionsDelete\fR function. .PP The default load/save options load values using the constant type \fBMXML_TYPE_TEXT\fR and save XML data with a wrap margin of 72 columns. The various \fBmxmlOptionsSet\fR functions are used to change the defaults, for example: .PP \fB`\fRc mxml_options_t \fIoptions = mxmlOptionsNew(); /\fR Load values as opaque strings */ mxmlOptionsSetTypeValue(options, MXML_TYPE_OPAQUE); .nf Note: The most common programming error when using the Mini-XML library is to load an XML file using the `MXML_TYPE_TEXT` node type, which returns inline text as a series of whitespace-delimited words, instead of using the `MXML_TYPE_OPAQUE` node type which returns the inline text as a single string (including whitespace). .fi .SS mxmlOptionsSetCustomCallbacks Set the custom data callbacks. .PP .nf void mxmlOptionsSetCustomCallbacks ( mxml_options_t *options, mxml_custload_cb_t load_cb, mxml_custsave_cb_t save_cb, void *cbdata ); .fi .PP This function sets the callbacks that are used for loading and saving custom data types. The load callback \fBload_cb\fR accepts the callback data pointer \fBcbdata\fR, a node pointer, and a data string and returns \fBtrue\fR on success and \fBfalse\fR on error, for example: .PP \fB`\fRc typedef struct { unsigned year, /\fI Year \fR/ month, /\fI Month \fR/ day, /\fI Day \fR/ hour, /\fI Hour \fR/ minute, /\fI Minute \fR/ second; /\fI Second \fR/ time_t unix; /\fI UNIX time \fR/ } iso_date_time_t; .PP void my_custom_free_cb(void \fIcbdata, void \fRdata) { free(data); } .PP bool my_custom_load_cb(void \fIcbdata, mxml_node_t \fRnode, const char \fIdata) { iso_date_time_t \fRdt; struct tm tmdata; .PP /\fI Allocate custom data structure ... \fR/ dt = calloc(1, sizeof(iso_date_time_t)); .PP /\fI Parse the data string... \fR/ if (sscanf(data, "%u-%u-%uT%u:%u:%uZ", &(dt->year), &(dt->month), &(dt->day), &(dt->hour), &(dt->minute), &(dt->second)) != 6) { /\fI Unable to parse date and time numbers... \fR/ free(dt); return (false); } .PP /\fI Range check values... \fR/ if (dt->month .URL 1 || dt- 1 || dt- month > 12 || dt->day .URL 1 || dt- 1 || dt- day > 31 || dt->hour .URL 0 || dt- 0 || dt- hour > 23 || dt->minute .URL 0 || dt- 0 || dt- minute > 59 || dt->second .URL 0 || dt- 0 || dt- second > 60) { /\fI Date information is out of range... \fR/ free(dt); return (false); } .PP /\fI Convert ISO time to UNIX time in seconds... \fR/ tmdata.tm_year = dt->year - 1900; tmdata.tm_mon = dt->month - 1; tmdata.tm_day = dt->day; tmdata.tm_hour = dt->hour; tmdata.tm_min = dt->minute; tmdata.tm_sec = dt->second; .PP dt->unix = gmtime(&tmdata); .PP /\fI Set custom data and free function... \fR/ mxmlSetCustom(node, data, my_custom_free, /\fIcbdata\fR/NULL); .PP /\fI Return with no errors... \fR/ return (true); } .nf The save callback `save_cb` accepts the callback data pointer `cbdata` and a node pointer and returns a malloc'd string on success and `NULL` on error, for example: ```c char * my_custom_save_cb(void *cbdata, mxml_node_t *node) { char data[255]; iso_date_time_t *dt; /* Get the custom data structure */ dt = (iso_date_time_t *)mxmlGetCustom(node); /* Generate string version of the date/time... */ snprintf(data, sizeof(data), "%04u-%02u-%02uT%02u:%02u:%02uZ", dt->year, dt->month, dt->day, dt->hour, dt->minute, dt->second); /* Duplicate the string and return... */ return (strdup(data)); } .fi .SS mxmlOptionsSetEntityCallback Set the entity lookup callback to use when loading XML data. .PP .nf void mxmlOptionsSetEntityCallback ( mxml_options_t *options, mxml_entity_cb_t cb, void *cbdata ); .fi .PP This function sets the callback that is used to lookup named XML character entities when loading XML data. The callback function \fBcb\fR accepts the callback data pointer \fBcbdata\fR and the entity name. The function returns a Unicode character value or \fB-1\fR if the entity is not known. For example, the following entity callback supports the "euro" entity: .PP \fB`\fRc int my_entity_cb(void \fIcbdata, const char \fRname) { if (!strcmp(name, "euro")) return (0x20ac); else return (-1); } .nf Mini-XML automatically supports the "amp", "gt", "lt", and "quot" character entities which are required by the base XML specification. .fi char *data) { iso_date_time_t .SS mxmlOptionsSetErrorCallback Set the error message callback. .PP .nf void mxmlOptionsSetErrorCallback ( mxml_options_t *options, mxml_error_cb_t cb, void *cbdata ); .fi .PP This function sets a function to use when reporting errors. The callback \fBcb\fR accepts the data pointer \fBcbdata\fR and a string pointer containing the error message: .PP \fB`\fRc void my_error_cb(void \fIcbdata, const char \fRmessage) { fprintf(stderr, "myprogram: %sn", message); } .nf The default error callback writes the error message to the `stderr` file. .fi ack supports the "euro" entity: .PP \fB`\fR .SS mxmlOptionsSetSAXCallback Set the SAX callback to use when reading XML data. .PP .nf void mxmlOptionsSetSAXCallback ( mxml_options_t *options, mxml_sax_cb_t cb, void *cbdata ); .fi .PP This function sets a SAX callback to use when reading XML data. The SAX callback function \fBcb\fR and associated callback data \fBcbdata\fR are used to enable the Simple API for XML streaming mode. The callback is called as the XML node tree is parsed and receives the \fBcbdata\fR pointer, the \fBmxml_node_t\fR pointer, and an event code. The function returns \fBtrue\fR to continue processing or \fBfalse\fR to stop: .PP \fB`\fRc bool sax_cb(void \fIcbdata, mxml_node_t \fRnode, mxml_sax_event_t event) { ... do something ... .PP /\fI Continue processing... \fR/ return (true); } .nf The event will be one of the following: - `MXML_SAX_EVENT_CDATA`: CDATA was just read. - `MXML_SAX_EVENT_COMMENT`: A comment was just read. - `MXML_SAX_EVENT_DATA`: Data (integer, opaque, real, or text) was just read. - `MXML_SAX_EVENT_DECLARATION`: A declaration was just read. - `MXML_SAX_EVENT_DIRECTIVE`: A processing directive/instruction was just read. - `MXML_SAX_EVENT_ELEMENT_CLOSE` - A close element was just read (``) - `MXML_SAX_EVENT_ELEMENT_OPEN` - An open element was just read (``) Elements are *released* after the close element is processed. All other nodes are released after they are processed. The SAX callback can *retain* the node using the [mxmlRetain](@@) function. .fi /* Date information is out of range... .SS mxmlOptionsSetTypeCallback Set the type callback for child/value nodes. .PP .nf void mxmlOptionsSetTypeCallback ( mxml_options_t *options, mxml_type_cb_t cb, void *cbdata ); .fi .PP The load callback function \fBcb\fR is called to obtain the node type child/value nodes and receives the \fBcbdata\fR pointer and the \fBmxml_node_t\fR pointer, for example: .PP \fB`\fRc mxml_type_t my_type_cb(void \fIcbdata, mxml_node_t \fRnode) { const char \fItype; /\fR \fI You can lookup attributes and/or use the element name, \fR hierarchy, etc... */ .PP type = mxmlElementGetAttr(node, "type"); if (type == NULL) type = mxmlGetElement(node); if (type == NULL) type = "text"; .PP if (!strcmp(type, "integer")) return (MXML_TYPE_INTEGER); else if (!strcmp(type, "opaque")) return (MXML_TYPE_OPAQUE); else if (!strcmp(type, "real")) return (MXML_TYPE_REAL); else return (MXML_TYPE_TEXT); } \fB`\fR .SS mxmlOptionsSetTypeValue Set the type to use for all child/value nodes. .PP .nf void mxmlOptionsSetTypeValue ( mxml_options_t *options, mxml_type_t type ); .fi .PP This functions sets a constant node type to use for all child/value nodes. .SS mxmlOptionsSetWhitespaceCallback Set the whitespace callback. .PP .nf void mxmlOptionsSetWhitespaceCallback ( mxml_options_t *options, mxml_ws_cb_t cb, void *cbdata ); .fi .PP This function sets the whitespace callback that is used when saving XML data. The callback function \fBcb\fR specifies a function that returns a whitespace string or \fBNULL\fR before and after each element. The function receives the callback data pointer \fBcbdata\fR, the \fBmxml_node_t\fR pointer, and a "when" value indicating where the whitespace is being added, for example: .PP \fB`\fRc const char \fImy_whitespace_cb(void \fRcbdata, mxml_node_t *node, mxml_ws_t when) { if (when == MXML_WS_BEFORE_OPEN || when == MXML_WS_AFTER_CLOSE) return ("n"); else return (NULL); } \fB`\fR .SS mxmlOptionsSetWrapMargin Set the wrap margin when saving XML data. .PP .nf void mxmlOptionsSetWrapMargin ( mxml_options_t *options, int column ); .fi .PP This function sets the wrap margin used when saving XML data. Wrapping is disabled when \fBcolumn\fR is \fB0\fR. .SS mxmlRelease Release a node. .PP .nf int mxmlRelease ( mxml_node_t *node ); .fi .PP When the reference count reaches zero, the node (and any children) is deleted via \fImxmlDelete\fR. .SS mxmlRemove Remove a node from its parent. .PP .nf void mxmlRemove ( mxml_node_t *node ); .fi .PP This function does not free memory used by the node - use \fImxmlDelete\fR for that. This function does nothing if the node has no parent. .SS mxmlRetain Retain a node. .PP .nf int mxmlRetain ( mxml_node_t *node ); .fi .SS mxmlSaveAllocString Save an XML tree to an allocated string. .PP .nf char * mxmlSaveAllocString ( mxml_node_t *node, mxml_options_t *options ); .fi .PP This function saves the XML tree \fBnode\fR to an allocated string. The string should be freed using \fBfree\fR (or the string free callback set using \fImxmlSetStringCallbacks\fR) when you are done with it. .PP \fBNULL\fR is returned if the node would produce an empty string or if the string cannot be allocated. .PP Save options are provides via the \fBoptions\fR argument. If \fBNULL\fR, the XML output will be wrapped at column 72 with no additional whitespace. Use the \fImxmlOptionsNew\fR function to create options for saving XML data. .SS mxmlSaveFd Save an XML tree to a file descriptor. .PP .nf bool mxmlSaveFd ( mxml_node_t *node, mxml_options_t *options, int fd ); .fi .PP This function saves the XML tree \fBnode\fR to a file descriptor. .PP Save options are provides via the \fBoptions\fR argument. If \fBNULL\fR, the XML output will be wrapped at column 72 with no additional whitespace. Use the \fImxmlOptionsNew\fR function to create options for saving XML data. .SS mxmlSaveFile Save an XML tree to a file. .PP .nf bool mxmlSaveFile ( mxml_node_t *node, mxml_options_t *options, FILE *fp ); .fi .PP This function saves the XML tree \fBnode\fR to a stdio \fBFILE\fR. .PP Save options are provides via the \fBoptions\fR argument. If \fBNULL\fR, the XML output will be wrapped at column 72 with no additional whitespace. Use the \fImxmlOptionsNew\fR function to create options for saving XML data. .SS mxmlSaveFilename Save an XML tree to a file. .PP .nf bool mxmlSaveFilename ( mxml_node_t *node, mxml_options_t *options, const char *filename ); .fi .PP This function saves the XML tree \fBnode\fR to a named file. .PP Save options are provides via the \fBoptions\fR argument. If \fBNULL\fR, the XML output will be wrapped at column 72 with no additional whitespace. Use the \fImxmlOptionsNew\fR function to create options for saving XML data. .SS mxmlSaveIO Save an XML tree using a callback. .PP .nf bool mxmlSaveIO ( mxml_node_t *node, mxml_options_t *options, mxml_io_cb_t io_cb, void *io_cbdata ); .fi .PP This function saves the XML tree \fBnode\fR using a write callback function \fBio_cb\fR. The write callback is called with the callback data pointer \fBio_cbdata\fR, a buffer pointer, and the number of bytes to write, for example: .PP \fB`\fRc size_t my_io_cb(void \fIcbdata, const void \fRbuffer, size_t bytes) { ... write/copy bytes from buffer to the output ... ... return the number of bytes written/copied or 0 on error ... } .nf Save options are provides via the `options` argument. If `NULL`, the XML output will be wrapped at column 72 with no additional whitespace. Use the @link mxmlOptionsNew@ function to create options for saving XML data. .fi , "real")) return (MXML_TYPE_REAL); else return (MXML_TYPE_TEXT); } \fB`\fR .SS mxmlSaveString Save an XML node tree to a string. .PP .nf size_t mxmlSaveString ( mxml_node_t *node, mxml_options_t *options, char *buffer, size_t bufsize ); .fi .PP This function saves the XML tree \fBnode\fR to a fixed-size string buffer. .PP Save options are provides via the \fBoptions\fR argument. If \fBNULL\fR, the XML output will be wrapped at column 72 with no additional whitespace. Use the \fImxmlOptionsNew\fR function to create options for saving XML data. .SS mxmlSetCDATA Set the data for a CDATA node. .PP .nf bool mxmlSetCDATA ( mxml_node_t *node, const char *data ); .fi .PP This function sets the value string for a CDATA node. The node is not changed if it (or its first child) is not a CDATA node. .SS mxmlSetCDATAf Set the data for a CDATA to a formatted string. .PP .nf bool mxmlSetCDATAf ( mxml_node_t *node, const char *format, ... ); .fi .PP This function sets the formatted string value of a CDATA node. The node is not changed if it (or its first child) is not a CDATA node. .SS mxmlSetComment Set a comment to a literal string. .PP .nf bool mxmlSetComment ( mxml_node_t *node, const char *comment ); .fi .PP This function sets the string value of a comment node. .SS mxmlSetCommentf Set a comment to a formatted string. .PP .nf bool mxmlSetCommentf ( mxml_node_t *node, const char *format, ... ); .fi .PP This function sets the formatted string value of a comment node. .SS mxmlSetCustom Set the data and destructor of a custom data node. .PP .nf bool mxmlSetCustom ( mxml_node_t *node, void *data, mxml_custfree_cb_t free_cb, void *free_cbdata ); .fi .PP This function sets the data pointer \fBdata\fR and destructor callback \fBdestroy_cb\fR of a custom data node. The node is not changed if it (or its first child) is not a custom node. .SS mxmlSetDeclaration Set a declaration to a literal string. .PP .nf bool mxmlSetDeclaration ( mxml_node_t *node, const char *declaration ); .fi .PP This function sets the string value of a declaration node. .SS mxmlSetDeclarationf Set a declaration to a formatted string. .PP .nf bool mxmlSetDeclarationf ( mxml_node_t *node, const char *format, ... ); .fi .PP This function sets the formatted string value of a declaration node. .SS mxmlSetDirective Set a processing instruction to a literal string. .PP .nf bool mxmlSetDirective ( mxml_node_t *node, const char *directive ); .fi .PP This function sets the string value of a processing instruction node. .SS mxmlSetDirectivef Set a processing instruction to a formatted string. .PP .nf bool mxmlSetDirectivef ( mxml_node_t *node, const char *format, ... ); .fi .PP This function sets the formatted string value of a processing instruction node. .SS mxmlSetElement Set the name of an element node. .PP .nf bool mxmlSetElement ( mxml_node_t *node, const char *name ); .fi .PP This function sets the name of an element node. The node is not changed if it is not an element node. .SS mxmlSetInteger Set the value of an integer node. .PP .nf bool mxmlSetInteger ( mxml_node_t *node, long integer ); .fi .PP This function sets the value of an integer node. The node is not changed if it (or its first child) is not an integer node. .SS mxmlSetOpaque Set the value of an opaque node. .PP .nf bool mxmlSetOpaque ( mxml_node_t *node, const char *opaque ); .fi .PP This function sets the string value of an opaque node. The node is not changed if it (or its first child) is not an opaque node. .SS mxmlSetOpaquef Set the value of an opaque string node to a formatted string. .PP .nf bool mxmlSetOpaquef ( mxml_node_t *node, const char *format, ... ); .fi .PP This function sets the formatted string value of an opaque node. The node is not changed if it (or its first child) is not an opaque node. .SS mxmlSetReal Set the value of a real value node. .PP .nf bool mxmlSetReal ( mxml_node_t *node, double real ); .fi .PP This function sets the value of a real value node. The node is not changed if it (or its first child) is not a real value node. .SS mxmlSetText Set the value of a text node. .PP .nf bool mxmlSetText ( mxml_node_t *node, bool whitespace, const char *string ); .fi .PP This function sets the string and whitespace values of a text node. The node is not changed if it (or its first child) is not a text node. .SS mxmlSetTextf Set the value of a text node to a formatted string. .PP .nf bool mxmlSetTextf ( mxml_node_t *node, bool whitespace, const char *format, ... ); .fi .PP This function sets the formatted string and whitespace values of a text node. The node is not changed if it (or its first child) is not a text node. .SS mxmlSetUserData Set the user data pointer for a node. .PP .nf bool mxmlSetUserData ( mxml_node_t *node, void *data ); .fi .SS mxmlWalkNext Walk to the next logical node in the tree. .PP .nf mxml_node_t * mxmlWalkNext ( mxml_node_t *node, mxml_node_t *top, mxml_descend_t descend ); .fi .PP This function walks to the next logical node in the tree. The \fBdescend\fR argument controls whether the first child is considered to be the next node. The \fBtop\fR argument constrains the walk to that node's children. .SS mxmlWalkPrev Walk to the previous logical node in the tree. .PP .nf mxml_node_t * mxmlWalkPrev ( mxml_node_t *node, mxml_node_t *top, mxml_descend_t descend ); .fi .PP This function walks to the previous logical node in the tree. The \fBdescend\fR argument controls whether the first child is considered to be the next node. The \fBtop\fR argument constrains the walk to that node's children. .SH TYPES .SS mxml_add_t \fImxmlAdd\fR add values .PP .nf typedef enum mxml_add_e mxml_add_t; .fi .SS mxml_custfree_cb_t Custom data destructor .PP .nf typedef void(*)(void *cbdata void *custdata) mxml_custfree_cb_t; .fi .SS mxml_custload_cb_t Custom data load callback function .PP .nf typedef bool(*)(void *cbdata mxml_node_t *node const char *s) mxml_custload_cb_t; .fi .SS mxml_custsave_cb_t Custom data save callback function .PP .nf typedef char *(*)(void *cbdata mxml_node_t *node) mxml_custsave_cb_t; .fi .SS mxml_descend_t \fImxmlFindElement\fR, \fImxmlWalkNext\fR, and \fImxmlWalkPrev\fR descend values .PP .nf typedef enum mxml_descend_e mxml_descend_t; .fi .SS mxml_entity_cb_t Entity callback function .PP .nf typedef int(*)(void *cbdata const char *name) mxml_entity_cb_t; .fi .SS mxml_error_cb_t Error callback function .PP .nf typedef void(*)(void *cbdata const char *message) mxml_error_cb_t; .fi .SS mxml_index_t An XML node index .PP .nf typedef struct _mxml_index_s mxml_index_t; .fi .SS mxml_io_cb_t Read/write callback function .PP .nf typedef size_t(*)(void *cbdata void *buffer size_t bytes) mxml_io_cb_t; .fi .SS mxml_node_t An XML node .PP .nf typedef struct _mxml_node_s mxml_node_t; .fi .SS mxml_options_t XML options .PP .nf typedef struct _mxml_options_s mxml_options_t; .fi .SS mxml_sax_cb_t SAX callback function .PP .nf typedef bool(*)(void *cbdata mxml_node_t *node mxml_sax_event_t event) mxml_sax_cb_t; .fi .SS mxml_sax_event_t SAX event type. .PP .nf typedef enum mxml_sax_event_e mxml_sax_event_t; .fi .SS mxml_strcopy_cb_t String copy/allocation callback .PP .nf typedef char *(*)(void *cbdata const char *s) mxml_strcopy_cb_t; .fi .SS mxml_strfree_cb_t String free callback .PP .nf typedef void(*)(void *cbdata char *s) mxml_strfree_cb_t; .fi .SS mxml_type_cb_t Type callback function .PP .nf typedef mxml_type_t(*)(void *cbdata mxml_node_t *node) mxml_type_cb_t; .fi .SS mxml_type_t The XML node type. .PP .nf typedef enum mxml_type_e mxml_type_t; .fi .SS mxml_ws_cb_t Whitespace callback function .PP .nf typedef const char *(*)(void *cbdata mxml_node_t *node mxml_ws_t when) mxml_ws_cb_t; .fi .SS mxml_ws_t Whitespace periods .PP .nf typedef enum mxml_ws_e mxml_ws_t; .fi .SH SEE ALSO Mini-XML Programmers Manual, https://www.msweet.org/mxml .SH COPYRIGHT Copyright \[co] 2003-2021 by Michael R Sweet.