Now that we have described the search pattern, we will build the replace pattern. ![]() We add those strings respectively at the beginning and at the end of our regular expression, which becomes: Those lines are at their turn embedded into and tags each of them on their own line, which can be expressed as: \n for the first one, and \n for the second one. The regular expression becomes (backslashes are inserted at end of line just for the purpose of not to have too long lines): Select the string, use the shortcuts Ctrl- C to copy it, move to the end of the string with the right arrow, and use Ctrl- V five times to paste it at the end of the string. The regular expression now describes a whole line: ([^\nĪs we cannot use variables to retrieve the headers of the table, we will merely repeat that string five times, so that the regular expression matches exactly the six lines of importance to us.ĭo not type it six times in the search field. We should also add the end of line character, which is expressed as: \n. That sequence can be interpreted as one or more characters which are not a and, which is expressed simply concatenating the strings: ([^ \Ĭomparing both chunks of code, we see that the variable sequence of characters to capture is the one between one tag and its closing tag. Use:To catalog your backup from all media. ![]() The definition list's source code will be the following: ![]() The table's source code is the following: Figure VI.24. The table after Transformationįor the rendering, you will use the following css style sheet:
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