mxml/testmxml.c

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//
// Test program for Mini-XML, a small XML file parsing library.
//
// Usage:
//
// ./testmxml input.xml [string-output.xml] >stdio-output.xml
// ./testmxml "<?xml ..." [string-output.xml] >stdio-output.xml
//
// https://www.msweet.org/mxml
//
// Copyright © 2003-2024 by Michael R Sweet.
//
// Licensed under Apache License v2.0. See the file "LICENSE" for more
// information.
//
#include "mxml.h"
#ifndef _WIN32
# include <unistd.h>
#endif // !_WIN32
#include <fcntl.h>
#ifndef O_BINARY
# define O_BINARY 0
#endif // !O_BINARY
//
// Globals...
//
int event_counts[7];
//
// Local functions...
//
bool sax_cb(void *cbdata, mxml_node_t *node, mxml_sax_event_t event);
mxml_type_t type_cb(void *cbdata, mxml_node_t *node);
const char *whitespace_cb(void *cbdata, mxml_node_t *node, mxml_ws_t where);
//
// 'main()' - Main entry for test program.
//
int // O - Exit status
main(int argc, // I - Number of command-line args
char *argv[]) // I - Command-line args
{
int i; // Looping var
FILE *fp; // File to read
int fd; // File descriptor
mxml_node_t *xml, // <?xml ...?> node
*tree, // Element tree
*node; // Node which should be in test.xml
mxml_index_t *ind; // XML index
mxml_type_t type; // Node type
char buffer[16384]; // Save string
const char *text; // Text string
bool whitespace; // Whitespace before text string
static const char *types[] = // Strings for node types
{
"MXML_TYPE_CDATA",
"MXML_TYPE_COMMENT",
"MXML_TYPE_DECLARATION",
"MXML_TYPE_DIRECTIVE",
"MXML_TYPE_ELEMENT",
"MXML_TYPE_INTEGER",
"MXML_TYPE_OPAQUE",
"MXML_TYPE_REAL",
"MXML_TYPE_TEXT",
"MXML_TYPE_CUSTOM"
};
// Check arguments...
if (argc != 2 && argc != 3)
{
fputs("Usage: testmxml filename.xml [string-output.xml]\n", stderr);
return (1);
}
// Test the basic functionality...
xml = mxmlNewXML("1.0");
tree = mxmlNewElement(xml, "element");
if (!tree)
{
fputs("ERROR: No parent node in basic test.\n", stderr);
return (1);
}
if (mxmlGetType(tree) != MXML_TYPE_ELEMENT)
{
fprintf(stderr, "ERROR: Parent has type %d(%s), expected MXML_TYPE_ELEMENT.\n", mxmlGetType(tree), types[mxmlGetType(tree)]);
mxmlDelete(tree);
return (1);
}
if (strcmp(mxmlGetElement(tree), "element"))
{
fprintf(stderr, "ERROR: Parent value is \"%s\", expected \"element\".\n", mxmlGetElement(tree));
mxmlDelete(tree);
return (1);
}
mxmlNewInteger(tree, 123);
mxmlNewOpaque(tree, "opaque");
mxmlNewReal(tree, 123.4);
mxmlNewText(tree, 1, "text");
type = MXML_TYPE_TEXT;
mxmlLoadString(tree, "<group type='string'>string string string</group>", /*load_cb*/NULL, /*load_cbdata*/&type, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
type = MXML_TYPE_INTEGER;
mxmlLoadString(tree, "<group type='integer'>1 2 3</group>", /*load_cb*/NULL, /*load_cbdata*/&type, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
type = MXML_TYPE_REAL;
mxmlLoadString(tree, "<group type='real'>1.0 2.0 3.0</group>", /*load_cb*/NULL, /*load_cbdata*/&type, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
type = MXML_TYPE_OPAQUE;
mxmlLoadString(tree, "<group>opaque opaque opaque</group>", /*load_cb*/NULL, /*load_cbdata*/&type, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
mxmlLoadString(tree, "<foo><bar><one><two>value<two>value2</two></two></one></bar></foo>", /*load_cb*/NULL, /*load_cbdata*/&type, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
mxmlNewCDATA(tree, "0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n");
mxmlNewCDATA(tree,
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n");
mxmlNewCDATA(tree,
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n"
"0123456789abcdef0123456789abcdef0123456789abcdef0123456789abcdef\n");
node = mxmlGetFirstChild(tree);
if (!node)
{
fputs("ERROR: No first child node in basic test.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlGetType(node) != MXML_TYPE_INTEGER)
{
fprintf(stderr, "ERROR: First child has type %d(%s), expected MXML_TYPE_INTEGER.\n", mxmlGetType(node), types[mxmlGetType(node)]);
mxmlDelete(tree);
return (1);
}
if (mxmlGetInteger(node) != 123)
{
fprintf(stderr, "ERROR: First child value is %ld, expected 123.\n", mxmlGetInteger(node));
mxmlDelete(tree);
return (1);
}
node = mxmlGetNextSibling(node);
if (!node)
{
fputs("ERROR: No second child node in basic test.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlGetType(node) != MXML_TYPE_OPAQUE)
{
fprintf(stderr, "ERROR: Second child has type %s (%d), expected MXML_TYPE_OPAQUE.\n", mxmlGetType(node) < MXML_TYPE_ELEMENT || mxmlGetType(node) > MXML_TYPE_TEXT ? "UNKNOWN" : types[mxmlGetType(node)], mxmlGetType(node));
mxmlDelete(tree);
return (1);
}
if (!mxmlGetOpaque(node) || strcmp(mxmlGetOpaque(node), "opaque"))
{
fprintf(stderr, "ERROR: Second child value is \"%s\", expected \"opaque\".\n", mxmlGetOpaque(node) ? mxmlGetOpaque(node) : "(null)");
mxmlDelete(tree);
return (1);
}
node = mxmlGetNextSibling(node);
if (!node)
{
fputs("ERROR: No third child node in basic test.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlGetType(node) != MXML_TYPE_REAL)
{
fprintf(stderr, "ERROR: Third child has type %s (%d), expected MXML_TYPE_REAL.\n", mxmlGetType(node) < MXML_TYPE_ELEMENT || mxmlGetType(node) > MXML_TYPE_TEXT ? "UNKNOWN" : types[mxmlGetType(node)], mxmlGetType(node));
mxmlDelete(tree);
return (1);
}
if (mxmlGetReal(node) != 123.4)
{
fprintf(stderr, "ERROR: Third child value is %f, expected 123.4.\n", mxmlGetReal(node));
mxmlDelete(tree);
return (1);
}
node = mxmlGetNextSibling(node);
if (!node)
{
fputs("ERROR: No fourth child node in basic test.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlGetType(node) != MXML_TYPE_TEXT)
{
fprintf(stderr, "ERROR: Fourth child has type %s (%d), expected MXML_TYPE_TEXT.\n", mxmlGetType(node) < MXML_TYPE_ELEMENT || mxmlGetType(node) > MXML_TYPE_TEXT ? "UNKNOWN" : types[mxmlGetType(node)], mxmlGetType(node));
mxmlDelete(tree);
return (1);
}
text = mxmlGetText(node, &whitespace);
if (!whitespace || !text || strcmp(text, "text"))
{
fprintf(stderr, "ERROR: Fourth child value is %s,\"%s\", expected true,\"text\".\n", whitespace ? "true" : "false", text);
mxmlDelete(tree);
return (1);
}
for (i = 0; i < 4; i ++)
{
node = mxmlGetNextSibling(node);
if (!node)
{
fprintf(stderr, "ERROR: No group #%d child node in basic test.\n", i + 1);
mxmlDelete(tree);
return (1);
}
if (mxmlGetType(node) != MXML_TYPE_ELEMENT)
{
fprintf(stderr, "ERROR: Group child #%d has type %d(%s), expected MXML_TYPE_ELEMENT.\n", i + 1, mxmlGetType(node), types[mxmlGetType(node)]);
mxmlDelete(tree);
return (1);
}
}
// Test mxmlFindPath...
node = mxmlFindPath(tree, "*/two");
if (!node)
{
fputs("ERROR: Unable to find value for \"*/two\".\n", stderr);
mxmlDelete(tree);
return (1);
}
else if (mxmlGetType(node) != MXML_TYPE_OPAQUE || strcmp(mxmlGetOpaque(node), "value"))
{
fprintf(stderr, "ERROR: Bad value for \"*/two\" - node=%p(%s), opaque=\"%s\"\n", node, types[mxmlGetType(node)], mxmlGetOpaque(node));
mxmlDelete(tree);
return (1);
}
node = mxmlFindPath(tree, "foo/*/two");
if (!node)
{
fputs("ERROR: Unable to find value for \"foo/*/two\".\n", stderr);
mxmlDelete(tree);
return (1);
}
else if (mxmlGetType(node) != MXML_TYPE_OPAQUE || strcmp(mxmlGetOpaque(node), "value"))
{
fputs("ERROR: Bad value for \"foo/*/two\".\n", stderr);
mxmlDelete(tree);
return (1);
}
node = mxmlFindPath(tree, "foo/bar/one/two");
if (!node)
{
fputs("ERROR: Unable to find value for \"foo/bar/one/two\".\n", stderr);
mxmlDelete(tree);
return (1);
}
else if (mxmlGetType(node) != MXML_TYPE_OPAQUE || strcmp(mxmlGetOpaque(node), "value"))
{
fputs("ERROR: Bad value for \"foo/bar/one/two\".\n", stderr);
mxmlDelete(tree);
return (1);
}
// Test indices...
ind = mxmlIndexNew(tree, NULL, NULL);
if (!ind)
{
fputs("ERROR: Unable to create index of all nodes.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlIndexGetCount(ind) != 10)
{
fprintf(stderr, "ERROR: Index of all nodes contains %lu nodes; expected 10.\n", (unsigned long)mxmlIndexGetCount(ind));
mxmlIndexDelete(ind);
mxmlDelete(tree);
return (1);
}
mxmlIndexReset(ind);
if (!mxmlIndexFind(ind, "group", NULL))
{
fputs("ERROR: mxmlIndexFind for \"group\" failed.\n", stderr);
mxmlIndexDelete(ind);
mxmlDelete(tree);
return (1);
}
mxmlIndexDelete(ind);
ind = mxmlIndexNew(tree, "group", NULL);
if (!ind)
{
fputs("ERROR: Unable to create index of groups.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlIndexGetCount(ind) != 4)
{
fprintf(stderr, "ERROR: Index of groups contains %lu nodes; expected 4.\n", (unsigned long)mxmlIndexGetCount(ind));
mxmlIndexDelete(ind);
mxmlDelete(tree);
return (1);
}
mxmlIndexReset(ind);
if (!mxmlIndexEnum(ind))
{
fputs("ERROR: mxmlIndexEnum failed.\n", stderr);
mxmlIndexDelete(ind);
mxmlDelete(tree);
return (1);
}
mxmlIndexDelete(ind);
ind = mxmlIndexNew(tree, NULL, "type");
if (!ind)
{
fputs("ERROR: Unable to create index of type attributes.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlIndexGetCount(ind) != 3)
{
fprintf(stderr, "ERROR: Index of type attributes contains %lu nodes; expected 3.\n", (unsigned long)mxmlIndexGetCount(ind));
mxmlIndexDelete(ind);
mxmlDelete(tree);
return (1);
}
mxmlIndexReset(ind);
if (!mxmlIndexFind(ind, NULL, "string"))
{
fputs("ERROR: mxmlIndexFind for \"string\" failed.\n", stderr);
mxmlIndexDelete(ind);
mxmlDelete(tree);
return (1);
}
mxmlIndexDelete(ind);
ind = mxmlIndexNew(tree, "group", "type");
if (!ind)
{
fputs("ERROR: Unable to create index of elements and attributes.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlIndexGetCount(ind) != 3)
{
fprintf(stderr, "ERROR: Index of elements and attributes contains %lu nodes; expected 3.\n", (unsigned long)mxmlIndexGetCount(ind));
mxmlIndexDelete(ind);
mxmlDelete(tree);
return (1);
}
mxmlIndexReset(ind);
if (!mxmlIndexFind(ind, "group", "string"))
{
fputs("ERROR: mxmlIndexFind for \"string\" failed.\n", stderr);
mxmlIndexDelete(ind);
mxmlDelete(tree);
return (1);
}
mxmlIndexDelete(ind);
// Check the mxmlDelete() works properly...
for (i = 0; i < 12; i ++)
{
if (mxmlGetFirstChild(tree))
{
mxmlDelete(mxmlGetFirstChild(tree));
}
else
{
fprintf(stderr, "ERROR: Child pointer prematurely NULL on child #%d\n", i + 1);
mxmlDelete(tree);
return (1);
}
}
if (mxmlGetFirstChild(tree))
{
fputs("ERROR: Child pointer not NULL after deleting all children.\n", stderr);
return (1);
}
if (mxmlGetLastChild(tree))
{
fputs("ERROR: Last child pointer not NULL after deleting all children.\n", stderr);
return (1);
}
mxmlDelete(xml);
// Open the file/string using the default (MXML_NO_CALLBACK) callback...
if (argv[1][0] == '<')
xml = mxmlLoadString(/*top*/NULL, argv[1], /*load_cb*/NULL, /*load_cbdata*/NULL, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
else
xml = mxmlLoadFilename(/*top*/NULL, argv[1], /*load_cb*/NULL, /*load_cbdata*/NULL, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
if (!xml)
{
fputs("Unable to read XML file with default callback.\n", stderr);
return (1);
}
if (!strcmp(argv[1], "test.xml"))
{
// Verify that mxmlFindElement() and indirectly mxmlWalkNext() work properly...
if ((node = mxmlFindPath(xml, "group/option/keyword")) == NULL)
{
fputs("Unable to find group/option/keyword element in XML tree.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (mxmlGetType(node) != MXML_TYPE_TEXT)
{
fputs("No child node of group/option/keyword.\n", stderr);
mxmlSaveFile(xml, stderr, /*save_cb*/NULL, /*save_cbdata*/NULL);
mxmlDelete(xml);
return (1);
}
if ((text = mxmlGetText(node, NULL)) == NULL || strcmp(text, "InputSlot"))
{
fprintf(stderr, "Child node of group/option/value has value \"%s\" instead of \"InputSlot\".\n", text ? text : "(null)");
mxmlDelete(xml);
return (1);
}
}
mxmlDelete(xml);
// Open the file...
if (argv[1][0] == '<')
xml = mxmlLoadString(/*top*/NULL, argv[1], /*load_cb*/type_cb, /*load_cbdata*/NULL, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
else
xml = mxmlLoadFilename(/*top*/NULL, argv[1], /*load_cb*/type_cb, /*load_cbdata*/NULL, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
if (!xml)
{
fputs("Unable to read XML file.\n", stderr);
return (1);
}
if (!strcmp(argv[1], "test.xml"))
{
// Verify that mxmlFindElement() and indirectly mxmlWalkNext() work properly...
if ((node = mxmlFindElement(xml, xml, "choice", NULL, NULL, MXML_DESCEND)) == NULL)
{
fputs("Unable to find first <choice> element in XML tree.\n", stderr);
mxmlDelete(tree);
return (1);
}
if (!mxmlFindElement(node, xml, "choice", NULL, NULL, MXML_NO_DESCEND))
{
fputs("Unable to find second <choice> element in XML tree.\n", stderr);
mxmlDelete(tree);
return (1);
}
}
// Print the XML tree...
mxmlSaveFile(xml, stdout, whitespace_cb, /*save_cbdata*/NULL);
// Save the XML tree to a string and print it...
if (mxmlSaveString(xml, buffer, sizeof(buffer), whitespace_cb, /*save_cbdata*/NULL) > 0)
{
if (argc == 3)
{
fp = fopen(argv[2], "w");
fputs(buffer, fp);
fclose(fp);
}
}
// Delete the tree...
mxmlDelete(xml);
// Read from/write to file descriptors...
if (argv[1][0] != '<')
{
// Open the file again...
if ((fd = open(argv[1], O_RDONLY | O_BINARY)) < 0)
{
perror(argv[1]);
return (1);
}
// Read the file...
xml = mxmlLoadFd(/*top*/NULL, fd, type_cb, /*load_cbdata*/NULL, /*sax_cb*/NULL, /*sax_cbdata*/NULL);
close(fd);
// Create filename.xmlfd...
snprintf(buffer, sizeof(buffer), "%sfd", argv[1]);
if ((fd = open(buffer, O_WRONLY | O_CREAT | O_TRUNC | O_BINARY, 0666)) < 0)
{
perror(buffer);
mxmlDelete(tree);
return (1);
}
// Write the file...
mxmlSaveFd(xml, fd, whitespace_cb, /*save_cbdata*/NULL);
close(fd);
// Delete the tree...
mxmlDelete(xml);
}
// Test SAX methods...
memset(event_counts, 0, sizeof(event_counts));
if (argv[1][0] == '<')
mxmlRelease(mxmlLoadString(/*top*/NULL, argv[1], type_cb, /*load_cbdata*/NULL, sax_cb, /*sax_cbdata*/NULL));
else
mxmlRelease(mxmlLoadFilename(/*top*/NULL, argv[1], type_cb, /*load_cbdata*/NULL, sax_cb, /*sax_cbdata*/NULL));
if (!strcmp(argv[1], "test.xml"))
{
if (event_counts[MXML_SAX_EVENT_CDATA] != 1)
{
fprintf(stderr, "MXML_SAX_EVENT_CDATA seen %d times, expected 1 times.\n", event_counts[MXML_SAX_EVENT_CDATA]);
return (1);
}
if (event_counts[MXML_SAX_EVENT_COMMENT] != 1)
{
fprintf(stderr, "MXML_SAX_EVENT_COMMENT seen %d times, expected 1 times.\n", event_counts[MXML_SAX_EVENT_COMMENT]);
return (1);
}
if (event_counts[MXML_SAX_EVENT_DATA] != 61)
{
fprintf(stderr, "MXML_SAX_EVENT_DATA seen %d times, expected 61 times.\n", event_counts[MXML_SAX_EVENT_DATA]);
return (1);
}
if (event_counts[MXML_SAX_EVENT_DECLARATION] != 0)
{
fprintf(stderr, "MXML_SAX_EVENT_DECLARATION seen %d times, expected 0 times.\n", event_counts[MXML_SAX_EVENT_DECLARATION]);
return (1);
}
if (event_counts[MXML_SAX_EVENT_DIRECTIVE] != 1)
{
fprintf(stderr, "MXML_SAX_EVENT_DIRECTIVE seen %d times, expected 1 times.\n", event_counts[MXML_SAX_EVENT_DIRECTIVE]);
return (1);
}
if (event_counts[MXML_SAX_EVENT_ELEMENT_CLOSE] != 20)
{
fprintf(stderr, "MXML_SAX_EVENT_ELEMENT_CLOSE seen %d times, expected 20 times.\n", event_counts[MXML_SAX_EVENT_ELEMENT_CLOSE]);
return (1);
}
if (event_counts[MXML_SAX_EVENT_ELEMENT_OPEN] != 20)
{
fprintf(stderr, "MXML_SAX_EVENT_ELEMENT_OPEN seen %d times, expected 20 times.\n", event_counts[MXML_SAX_EVENT_ELEMENT_OPEN]);
return (1);
}
}
#ifndef _WIN32
// Debug hooks...
if (getenv("TEST_DELAY") != NULL)
sleep(atoi(getenv("TEST_DELAY")));
# ifdef __APPLE__
if (getenv("TEST_LEAKS") != NULL)
{
char command[1024];
snprintf(command, sizeof(command), "leaks %d", (int)getpid());
if (system(command))
puts("Unable to check for leaks.");
}
# endif // __APPLE__
#endif // !_WIN32
// Return...
return (0);
}
//
// 'sax_cb()' - Process nodes via SAX.
//
bool // O - `true` to continue, `false` to stop
sax_cb(void *cbdata, // I - SAX callback data (not used)
mxml_node_t *node, // I - Current node
mxml_sax_event_t event) // I - SAX event
{
static const char * const events[] = // Events
{
"MXML_SAX_EVENT_CDATA", // CDATA node
"MXML_SAX_EVENT_COMMENT", // Comment node
"MXML_SAX_EVENT_DATA", // Data node
"MXML_SAX_EVENT_DECLARATION", // Declaration node
"MXML_SAX_EVENT_DIRECTIVE", // Processing directive node
"MXML_SAX_EVENT_ELEMENT_CLOSE", // Element closed
"MXML_SAX_EVENT_ELEMENT_OPEN" // Element opened
};
(void)cbdata;
// This SAX callback just counts the different events.
if (!node)
fprintf(stderr, "ERROR: SAX callback for event %s has NULL node.\n", events[event]);
event_counts[event] ++;
return (true);
}
//
// 'type_cb()' - XML data type callback for mxmlLoadFile()...
//
mxml_type_t // O - Data type
type_cb(void *cbdata, // I - Callback data
mxml_node_t *node) // I - Element node
{
const char *type; // Type string
(void)cbdata;
// You can lookup attributes and/or use the element name, hierarchy, etc...
if ((type = mxmlElementGetAttr(node, "type")) == NULL)
{
if ((type = mxmlGetElement(node)) == NULL)
type = "";
}
if (!strcmp(type, "integer"))
return (MXML_TYPE_INTEGER);
else if (!strcmp(type, "opaque") || !strcmp(type, "pre"))
return (MXML_TYPE_OPAQUE);
else if (!strcmp(type, "real"))
return (MXML_TYPE_REAL);
else
return (MXML_TYPE_TEXT);
}
//
// 'whitespace_cb()' - Let the mxmlSaveFile() function know when to insert
// newlines and tabs...
//
const char * // O - Whitespace string or NULL
whitespace_cb(void *cbdata, // I - Callback data
mxml_node_t *node, // I - Element node
mxml_ws_t where) // I - Open or close tag?
{
mxml_node_t *parent; // Parent node
int level; // Indentation level
const char *name; // Name of element
static const char *tabs = "\t\t\t\t\t\t\t\t";
// Tabs for indentation
(void)cbdata;
// We can conditionally break to a new line before or after any element.
// These are just common HTML elements...
if ((name = mxmlGetElement(node)) == NULL)
name = "";
if (!strcmp(name, "html") || !strcmp(name, "head") || !strcmp(name, "body") || !strcmp(name, "pre") || !strcmp(name, "p") || !strcmp(name, "h1") || !strcmp(name, "h2") || !strcmp(name, "h3") || !strcmp(name, "h4") || !strcmp(name, "h5") || !strcmp(name, "h6"))
{
// Newlines before open and after close...
if (where == MXML_WS_BEFORE_OPEN || where == MXML_WS_AFTER_CLOSE)
return ("\n");
}
else if (!strcmp(name, "dl") || !strcmp(name, "ol") || !strcmp(name, "ul"))
{
// Put a newline before and after list elements...
return ("\n");
}
else if (!strcmp(name, "dd") || !strcmp(name, "dt") || !strcmp(name, "li"))
{
// Put a tab before <li>'s, <dd>'s, and <dt>'s, and a newline after them...
if (where == MXML_WS_BEFORE_OPEN)
return ("\t");
else if (where == MXML_WS_AFTER_CLOSE)
return ("\n");
}
else if (mxmlGetType(node) == MXML_TYPE_DIRECTIVE)
{
if (where == MXML_WS_AFTER_OPEN)
return ("\n");
else
return (NULL);
}
else if (where == MXML_WS_BEFORE_OPEN || ((!strcmp(name, "choice") || !strcmp(name, "option")) && where == MXML_WS_BEFORE_CLOSE))
{
for (level = -1, parent = mxmlGetParent(node); parent; level ++, parent = mxmlGetParent(parent));
if (level > 8)
level = 8;
else if (level < 0)
level = 0;
return (tabs + 8 - level);
}
else if (where == MXML_WS_AFTER_CLOSE || ((!strcmp(name, "group") || !strcmp(name, "option") || !strcmp(name, "choice")) && where == MXML_WS_AFTER_OPEN))
return ("\n");
else if (where == MXML_WS_AFTER_OPEN && !mxmlGetFirstChild(node))
return ("\n");
// Return NULL for no added whitespace...
return (NULL);
}