copy->insert
* command (swap) for when the inserted segment is exactly the same
* as the deleted one, and with only a copy operation in between.
* TODO: How often this case occurs? Is it worth it? Can only
* be done as a postprocessing method (->optimize()?)
*/
abstract class FineDiffOp {
abstract public function getFromLen();
abstract public function getToLen();
abstract public function getOpcode();
}
class FineDiffDeleteOp extends FineDiffOp {
public function __construct($len) {
$this->fromLen = $len;
}
public function getFromLen() {
return $this->fromLen;
}
public function getToLen() {
return 0;
}
public function getOpcode() {
if ( $this->fromLen === 1 ) {
return 'd';
}
return "d{$this->fromLen}";
}
}
class FineDiffInsertOp extends FineDiffOp {
public function __construct($text) {
$this->text = $text;
}
public function getFromLen() {
return 0;
}
public function getToLen() {
return strlen($this->text);
}
public function getText() {
return $this->text;
}
public function getOpcode() {
$to_len = strlen($this->text);
if ( $to_len === 1 ) {
return "i:{$this->text}";
}
return "i{$to_len}:{$this->text}";
}
}
class FineDiffReplaceOp extends FineDiffOp {
public function __construct($fromLen, $text) {
$this->fromLen = $fromLen;
$this->text = $text;
}
public function getFromLen() {
return $this->fromLen;
}
public function getToLen() {
return strlen($this->text);
}
public function getText() {
return $this->text;
}
public function getOpcode() {
if ( $this->fromLen === 1 ) {
$del_opcode = 'd';
}
else {
$del_opcode = "d{$this->fromLen}";
}
$to_len = strlen($this->text);
if ( $to_len === 1 ) {
return "{$del_opcode}i:{$this->text}";
}
return "{$del_opcode}i{$to_len}:{$this->text}";
}
}
class FineDiffCopyOp extends FineDiffOp {
public function __construct($len) {
$this->len = $len;
}
public function getFromLen() {
return $this->len;
}
public function getToLen() {
return $this->len;
}
public function getOpcode() {
if ( $this->len === 1 ) {
return 'c';
}
return "c{$this->len}";
}
public function increase($size) {
return $this->len += $size;
}
}
/**
* FineDiff ops
*
* Collection of ops
*/
class FineDiffOps {
public function appendOpcode($opcode, $from, $from_offset, $from_len) {
if ( $opcode === 'c' ) {
$edits[] = new FineDiffCopyOp($from_len);
}
else if ( $opcode === 'd' ) {
$edits[] = new FineDiffDeleteOp($from_len);
}
else /* if ( $opcode === 'i' ) */ {
$edits[] = new FineDiffInsertOp(substr($from, $from_offset, $from_len));
}
}
public $edits = array();
}
/**
* FineDiff class
*
* TODO: Document
*
*/
class FineDiff {
/**------------------------------------------------------------------------
*
* Public section
*
*/
/**
* Constructor
* ...
* The $granularityStack allows FineDiff to be configurable so that
* a particular stack tailored to the specific content of a document can
* be passed.
*/
public function __construct($from_text = '', $to_text = '', $granularityStack = null) {
// setup stack for generic text documents by default
$this->granularityStack = $granularityStack ? $granularityStack : FineDiff::$characterGranularity;
$this->edits = array();
$this->from_text = $from_text;
$this->doDiff($from_text, $to_text);
}
public function getOps() {
return $this->edits;
}
public function getOpcodes() {
$opcodes = array();
foreach ( $this->edits as $edit ) {
$opcodes[] = $edit->getOpcode();
}
return implode('', $opcodes);
}
public function renderDiffToHTML() {
$in_offset = 0;
ob_start();
foreach ( $this->edits as $edit ) {
$n = $edit->getFromLen();
if ( $edit instanceof FineDiffCopyOp ) {
FineDiff::renderDiffToHTMLFromOpcode('c', $this->from_text, $in_offset, $n);
}
else if ( $edit instanceof FineDiffDeleteOp ) {
FineDiff::renderDiffToHTMLFromOpcode('d', $this->from_text, $in_offset, $n);
}
else if ( $edit instanceof FineDiffInsertOp ) {
FineDiff::renderDiffToHTMLFromOpcode('i', $edit->getText(), 0, $edit->getToLen());
}
else /* if ( $edit instanceof FineDiffReplaceOp ) */ {
FineDiff::renderDiffToHTMLFromOpcode('d', $this->from_text, $in_offset, $n);
FineDiff::renderDiffToHTMLFromOpcode('i', $edit->getText(), 0, $edit->getToLen());
}
$in_offset += $n;
}
return ob_get_clean();
}
/**------------------------------------------------------------------------
* Return an opcodes string describing the diff between a "From" and a
* "To" string
*/
public static function getDiffOpcodes($from, $to, $granularities = null) {
$diff = new FineDiff($from, $to, $granularities);
return $diff->getOpcodes();
}
/**------------------------------------------------------------------------
* Return an iterable collection of diff ops from an opcodes string
*/
public static function getDiffOpsFromOpcodes($opcodes) {
$diffops = new FineDiffOps();
FineDiff::renderFromOpcodes(null, $opcodes, array($diffops,'appendOpcode'));
return $diffops->edits;
}
/**------------------------------------------------------------------------
* Re-create the "To" string from the "From" string and an "Opcodes" string
*/
public static function renderToTextFromOpcodes($from, $opcodes) {
ob_start();
FineDiff::renderFromOpcodes($from, $opcodes, array('FineDiff','renderToTextFromOpcode'));
return ob_get_clean();
}
/**------------------------------------------------------------------------
* Render the diff to an HTML string
*/
public static function renderDiffToHTMLFromOpcodes($from, $opcodes) {
ob_start();
FineDiff::renderFromOpcodes($from, $opcodes, array('FineDiff','renderDiffToHTMLFromOpcode'));
return ob_get_clean();
}
/**------------------------------------------------------------------------
* Generic opcodes parser, user must supply callback for handling
* single opcode
*/
public static function renderFromOpcodes($from, $opcodes, $callback) {
if ( !is_callable($callback) ) {
return;
}
$opcodes_len = strlen($opcodes);
$from_offset = $opcodes_offset = 0;
while ( $opcodes_offset < $opcodes_len ) {
$opcode = substr($opcodes, $opcodes_offset, 1);
$opcodes_offset++;
$n = intval(substr($opcodes, $opcodes_offset));
if ( $n ) {
$opcodes_offset += strlen(strval($n));
}
else {
$n = 1;
}
if ( $opcode === 'c' ) { // copy n characters from source
call_user_func($callback, 'c', $from, $from_offset, $n, '');
$from_offset += $n;
}
else if ( $opcode === 'd' ) { // delete n characters from source
call_user_func($callback, 'd', $from, $from_offset, $n, '');
$from_offset += $n;
}
else /* if ( $opcode === 'i' ) */ { // insert n characters from opcodes
call_user_func($callback, 'i', $opcodes, $opcodes_offset + 1, $n);
$opcodes_offset += 1 + $n;
}
}
}
/**
* Stock granularity stacks and delimiters
*/
const paragraphDelimiters = "\n\r";
public static $paragraphGranularity = array(
FineDiff::paragraphDelimiters
);
const sentenceDelimiters = ".\n\r";
public static $sentenceGranularity = array(
FineDiff::paragraphDelimiters,
FineDiff::sentenceDelimiters
);
const wordDelimiters = " \t.\n\r";
public static $wordGranularity = array(
FineDiff::paragraphDelimiters,
FineDiff::sentenceDelimiters,
FineDiff::wordDelimiters
);
const characterDelimiters = "";
public static $characterGranularity = array(
FineDiff::paragraphDelimiters,
FineDiff::sentenceDelimiters,
FineDiff::wordDelimiters,
FineDiff::characterDelimiters
);
public static $textStack = array(
".",
" \t.\n\r",
""
);
/**------------------------------------------------------------------------
*
* Private section
*
*/
/**
* Entry point to compute the diff.
*/
private function doDiff($from_text, $to_text) {
$this->last_edit = false;
$this->stackpointer = 0;
$this->from_text = $from_text;
$this->from_offset = 0;
// can't diff without at least one granularity specifier
if ( empty($this->granularityStack) ) {
return;
}
$this->_processGranularity($from_text, $to_text);
}
/**
* This is the recursive function which is responsible for
* handling/increasing granularity.
*
* Incrementally increasing the granularity is key to compute the
* overall diff in a very efficient way.
*/
private function _processGranularity($from_segment, $to_segment) {
$delimiters = $this->granularityStack[$this->stackpointer++];
$has_next_stage = $this->stackpointer < count($this->granularityStack);
foreach ( FineDiff::doFragmentDiff($from_segment, $to_segment, $delimiters) as $fragment_edit ) {
// increase granularity
if ( $fragment_edit instanceof FineDiffReplaceOp && $has_next_stage ) {
$this->_processGranularity(
substr($this->from_text, $this->from_offset, $fragment_edit->getFromLen()),
$fragment_edit->getText()
);
}
// fuse copy ops whenever possible
else if ( $fragment_edit instanceof FineDiffCopyOp && $this->last_edit instanceof FineDiffCopyOp ) {
$this->edits[count($this->edits)-1]->increase($fragment_edit->getFromLen());
$this->from_offset += $fragment_edit->getFromLen();
}
else {
/* $fragment_edit instanceof FineDiffCopyOp */
/* $fragment_edit instanceof FineDiffDeleteOp */
/* $fragment_edit instanceof FineDiffInsertOp */
$this->edits[] = $this->last_edit = $fragment_edit;
$this->from_offset += $fragment_edit->getFromLen();
}
}
$this->stackpointer--;
}
/**
* This is the core algorithm which actually perform the diff itself,
* fragmenting the strings as per specified delimiters.
*
* This function is naturally recursive, however for performance purpose
* a local job queue is used instead of outright recursivity.
*/
private static function doFragmentDiff($from_text, $to_text, $delimiters) {
// Empty delimiter means character-level diffing.
// In such case, use code path optimized for character-level
// diffing.
if ( empty($delimiters) ) {
return FineDiff::doCharDiff($from_text, $to_text);
}
$result = array();
// fragment-level diffing
$from_text_len = strlen($from_text);
$to_text_len = strlen($to_text);
$from_fragments = FineDiff::extractFragments($from_text, $delimiters);
$to_fragments = FineDiff::extractFragments($to_text, $delimiters);
$jobs = array(array(0, $from_text_len, 0, $to_text_len));
$cached_array_keys = array();
while ( $job = array_pop($jobs) ) {
// get the segments which must be diff'ed
list($from_segment_start, $from_segment_end, $to_segment_start, $to_segment_end) = $job;
// catch easy cases first
$from_segment_length = $from_segment_end - $from_segment_start;
$to_segment_length = $to_segment_end - $to_segment_start;
if ( !$from_segment_length || !$to_segment_length ) {
if ( $from_segment_length ) {
$result[$from_segment_start * 4] = new FineDiffDeleteOp($from_segment_length);
}
else if ( $to_segment_length ) {
$result[$from_segment_start * 4 + 1] = new FineDiffInsertOp(substr($to_text, $to_segment_start, $to_segment_length));
}
continue;
}
// find longest copy operation for the current segments
$best_copy_length = 0;
$from_base_fragment_index = $from_segment_start;
$cached_array_keys_for_current_segment = array();
while ( $from_base_fragment_index < $from_segment_end ) {
$from_base_fragment = $from_fragments[$from_base_fragment_index];
$from_base_fragment_length = strlen($from_base_fragment);
// performance boost: cache array keys
if ( !isset($cached_array_keys_for_current_segment[$from_base_fragment]) ) {
if ( !isset($cached_array_keys[$from_base_fragment]) ) {
$to_all_fragment_indices = $cached_array_keys[$from_base_fragment] = array_keys($to_fragments, $from_base_fragment, true);
}
else {
$to_all_fragment_indices = $cached_array_keys[$from_base_fragment];
}
// get only indices which falls within current segment
if ( $to_segment_start > 0 || $to_segment_end < $to_text_len ) {
$to_fragment_indices = array();
foreach ( $to_all_fragment_indices as $to_fragment_index ) {
if ( $to_fragment_index < $to_segment_start ) { continue; }
if ( $to_fragment_index >= $to_segment_end ) { break; }
$to_fragment_indices[] = $to_fragment_index;
}
$cached_array_keys_for_current_segment[$from_base_fragment] = $to_fragment_indices;
}
else {
$to_fragment_indices = $to_all_fragment_indices;
}
}
else {
$to_fragment_indices = $cached_array_keys_for_current_segment[$from_base_fragment];
}
// iterate through collected indices
foreach ( $to_fragment_indices as $to_base_fragment_index ) {
$fragment_index_offset = $from_base_fragment_length;
// iterate until no more match
for (;;) {
$fragment_from_index = $from_base_fragment_index + $fragment_index_offset;
if ( $fragment_from_index >= $from_segment_end ) {
break;
}
$fragment_to_index = $to_base_fragment_index + $fragment_index_offset;
if ( $fragment_to_index >= $to_segment_end ) {
break;
}
if ( $from_fragments[$fragment_from_index] !== $to_fragments[$fragment_to_index] ) {
break;
}
$fragment_length = strlen($from_fragments[$fragment_from_index]);
$fragment_index_offset += $fragment_length;
}
if ( $fragment_index_offset > $best_copy_length ) {
$best_copy_length = $fragment_index_offset;
$best_from_start = $from_base_fragment_index;
$best_to_start = $to_base_fragment_index;
}
}
$from_base_fragment_index += strlen($from_base_fragment);
// If match is larger than half segment size, no point trying to find better
// TODO: Really?
if ( $best_copy_length >= $from_segment_length / 2) {
break;
}
// no point to keep looking if what is left is less than
// current best match
if ( $from_base_fragment_index + $best_copy_length >= $from_segment_end ) {
break;
}
}
if ( $best_copy_length ) {
$jobs[] = array($from_segment_start, $best_from_start, $to_segment_start, $best_to_start);
$result[$best_from_start * 4 + 2] = new FineDiffCopyOp($best_copy_length);
$jobs[] = array($best_from_start + $best_copy_length, $from_segment_end, $best_to_start + $best_copy_length, $to_segment_end);
}
else {
$result[$from_segment_start * 4 ] = new FineDiffReplaceOp($from_segment_length, substr($to_text, $to_segment_start, $to_segment_length));
}
}
ksort($result, SORT_NUMERIC);
return array_values($result);
}
/**
* Perform a character-level diff.
*
* The algorithm is quite similar to doFragmentDiff(), except that
* the code path is optimized for character-level diff -- strpos() is
* used to find out the longest common subequence of characters.
*
* We try to find a match using the longest possible subsequence, which
* is at most the length of the shortest of the two strings, then incrementally
* reduce the size until a match is found.
*
* I still need to study more the performance of this function. It
* appears that for long strings, the generic doFragmentDiff() is more
* performant. For word-sized strings, doCharDiff() is somewhat more
* performant.
*/
private static function doCharDiff($from_text, $to_text) {
$result = array();
$jobs = array(array(0, strlen($from_text), 0, strlen($to_text)));
while ( $job = array_pop($jobs) ) {
// get the segments which must be diff'ed
list($from_segment_start, $from_segment_end, $to_segment_start, $to_segment_end) = $job;
$from_segment_len = $from_segment_end - $from_segment_start;
$to_segment_len = $to_segment_end - $to_segment_start;
// catch easy cases first
if ( !$from_segment_len || !$to_segment_len ) {
if ( $from_segment_len ) {
$result[$from_segment_start * 4 + 0] = new FineDiffDeleteOp($from_segment_len);
}
else if ( $to_segment_len ) {
$result[$from_segment_start * 4 + 1] = new FineDiffInsertOp(substr($to_text, $to_segment_start, $to_segment_len));
}
continue;
}
if ( $from_segment_len >= $to_segment_len ) {
$copy_len = $to_segment_len;
while ( $copy_len ) {
$to_copy_start = $to_segment_start;
$to_copy_start_max = $to_segment_end - $copy_len;
while ( $to_copy_start <= $to_copy_start_max ) {
$from_copy_start = strpos(substr($from_text, $from_segment_start, $from_segment_len), substr($to_text, $to_copy_start, $copy_len));
if ( $from_copy_start !== false ) {
$from_copy_start += $from_segment_start;
break 2;
}
$to_copy_start++;
}
$copy_len--;
}
}
else {
$copy_len = $from_segment_len;
while ( $copy_len ) {
$from_copy_start = $from_segment_start;
$from_copy_start_max = $from_segment_end - $copy_len;
while ( $from_copy_start <= $from_copy_start_max ) {
$to_copy_start = strpos(substr($to_text, $to_segment_start, $to_segment_len), substr($from_text, $from_copy_start, $copy_len));
if ( $to_copy_start !== false ) {
$to_copy_start += $to_segment_start;
break 2;
}
$from_copy_start++;
}
$copy_len--;
}
}
// match found
if ( $copy_len ) {
$jobs[] = array($from_segment_start, $from_copy_start, $to_segment_start, $to_copy_start);
$result[$from_copy_start * 4 + 2] = new FineDiffCopyOp($copy_len);
$jobs[] = array($from_copy_start + $copy_len, $from_segment_end, $to_copy_start + $copy_len, $to_segment_end);
}
// no match, so delete all, insert all
else {
$result[$from_segment_start * 4] = new FineDiffReplaceOp($from_segment_len, substr($to_text, $to_segment_start, $to_segment_len));
}
}
ksort($result, SORT_NUMERIC);
return array_values($result);
}
/**
* Efficiently fragment the text into an array according to
* specified delimiters.
* No delimiters means fragment into single character.
* The array indices are the offset of the fragments into
* the input string.
* A sentinel empty fragment is always added at the end.
* Careful: No check is performed as to the validity of the
* delimiters.
*/
private static function extractFragments($text, $delimiters) {
// special case: split into characters
if ( empty($delimiters) ) {
$chars = str_split($text, 1);
$chars[strlen($text)] = '';
return $chars;
}
$fragments = array();
$start = $end = 0;
for (;;) {
$end += strcspn($text, $delimiters, $end);
$end += strspn($text, $delimiters, $end);
if ( $end === $start ) {
break;
}
$fragments[$start] = substr($text, $start, $end - $start);
$start = $end;
}
$fragments[$start] = '';
return $fragments;
}
/**
* Stock opcode renderers
*/
private static function renderToTextFromOpcode($opcode, $from, $from_offset, $from_len) {
if ( $opcode === 'c' || $opcode === 'i' ) {
echo substr($from, $from_offset, $from_len);
}
}
private static function renderDiffToHTMLFromOpcode($opcode, $from, $from_offset, $from_len) {
if ( $opcode === 'c' ) {
echo htmlentities(htmlentities(substr($from, $from_offset, $from_len)));
}
else if ( $opcode === 'd' ) {
$deletion = substr($from, $from_offset, $from_len);
if ( strcspn($deletion, " \n\r") === 0 ) {
$deletion = str_replace(array("\n","\r"), array('\n','\r'), $deletion);
}
echo '', htmlentities(htmlentities($deletion)), '';
}
else /* if ( $opcode === 'i' ) */ {
echo '', htmlentities(htmlentities(substr($from, $from_offset, $from_len))), '';
}
}
}