// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // Package tabwriter implements a write filter (tabwriter.Writer) that // translates tabbed columns in input into properly aligned text. // // The package is using the Elastic Tabstops algorithm described at // http://nickgravgaard.com/elastictabstops/index.html. // // The text/tabwriter package is frozen and is not accepting new features. package tabwriter import ( "bytes" "io" "unicode/utf8" ) // ---------------------------------------------------------------------------- // Filter implementation // A cell represents a segment of text terminated by tabs or line breaks. // The text itself is stored in a separate buffer; cell only describes the // segment's size in bytes, its width in runes, and whether it's an htab // ('\t') terminated cell. // type cell struct { size int // cell size in bytes width int // cell width in runes htab bool // true if the cell is terminated by an htab ('\t') } // A Writer is a filter that inserts padding around tab-delimited // columns in its input to align them in the output. // // The Writer treats incoming bytes as UTF-8-encoded text consisting // of cells terminated by horizontal ('\t') or vertical ('\v') tabs, // and newline ('\n') or formfeed ('\f') characters; both newline and // formfeed act as line breaks. // // Tab-terminated cells in contiguous lines constitute a column. The // Writer inserts padding as needed to make all cells in a column have // the same width, effectively aligning the columns. It assumes that // all characters have the same width, except for tabs for which a // tabwidth must be specified. Column cells must be tab-terminated, not // tab-separated: non-tab terminated trailing text at the end of a line // forms a cell but that cell is not part of an aligned column. // For instance, in this example (where | stands for a horizontal tab): // // aaaa|bbb|d // aa |b |dd // a | // aa |cccc|eee // // the b and c are in distinct columns (the b column is not contiguous // all the way). The d and e are not in a column at all (there's no // terminating tab, nor would the column be contiguous). // // The Writer assumes that all Unicode code points have the same width; // this may not be true in some fonts or if the string contains combining // characters. // // If DiscardEmptyColumns is set, empty columns that are terminated // entirely by vertical (or "soft") tabs are discarded. Columns // terminated by horizontal (or "hard") tabs are not affected by // this flag. // // If a Writer is configured to filter HTML, HTML tags and entities // are passed through. The widths of tags and entities are // assumed to be zero (tags) and one (entities) for formatting purposes. // // A segment of text may be escaped by bracketing it with Escape // characters. The tabwriter passes escaped text segments through // unchanged. In particular, it does not interpret any tabs or line // breaks within the segment. If the StripEscape flag is set, the // Escape characters are stripped from the output; otherwise they // are passed through as well. For the purpose of formatting, the // width of the escaped text is always computed excluding the Escape // characters. // // The formfeed character acts like a newline but it also terminates // all columns in the current line (effectively calling Flush). Tab- // terminated cells in the next line start new columns. Unless found // inside an HTML tag or inside an escaped text segment, formfeed // characters appear as newlines in the output. // // The Writer must buffer input internally, because proper spacing // of one line may depend on the cells in future lines. Clients must // call Flush when done calling Write. // type Writer struct { // configuration output io.Writer minwidth int tabwidth int padding int padbytes [8]byte flags uint // current state buf bytes.Buffer // collected text excluding tabs or line breaks pos int // buffer position up to which cell.width of incomplete cell has been computed cell cell // current incomplete cell; cell.width is up to buf[pos] excluding ignored sections endChar byte // terminating char of escaped sequence (Escape for escapes, '>', ';' for HTML tags/entities, or 0) lines [][]cell // list of lines; each line is a list of cells widths []int // list of column widths in runes - re-used during formatting } func (b *Writer) addLine() { b.lines = append(b.lines, []cell{}) } // Reset the current state. func (b *Writer) reset() { b.buf.Reset() b.pos = 0 b.cell = cell{} b.endChar = 0 b.lines = b.lines[0:0] b.widths = b.widths[0:0] b.addLine() } // Internal representation (current state): // // - all text written is appended to buf; tabs and line breaks are stripped away // - at any given time there is a (possibly empty) incomplete cell at the end // (the cell starts after a tab or line break) // - cell.size is the number of bytes belonging to the cell so far // - cell.width is text width in runes of that cell from the start of the cell to // position pos; html tags and entities are excluded from this width if html // filtering is enabled // - the sizes and widths of processed text are kept in the lines list // which contains a list of cells for each line // - the widths list is a temporary list with current widths used during // formatting; it is kept in Writer because it's re-used // // |<---------- size ---------->| // | | // |<- width ->|<- ignored ->| | // | | | | // [---processed---tab------------......] // ^ ^ ^ // | | | // buf start of incomplete cell pos // Formatting can be controlled with these flags. const ( // Ignore html tags and treat entities (starting with '&' // and ending in ';') as single characters (width = 1). FilterHTML uint = 1 << iota // Strip Escape characters bracketing escaped text segments // instead of passing them through unchanged with the text. StripEscape // Force right-alignment of cell content. // Default is left-alignment. AlignRight // Handle empty columns as if they were not present in // the input in the first place. DiscardEmptyColumns // Always use tabs for indentation columns (i.e., padding of // leading empty cells on the left) independent of padchar. TabIndent // Print a vertical bar ('|') between columns (after formatting). // Discarded columns appear as zero-width columns ("||"). Debug ) // A Writer must be initialized with a call to Init. The first parameter (output) // specifies the filter output. The remaining parameters control the formatting: // // minwidth minimal cell width including any padding // tabwidth width of tab characters (equivalent number of spaces) // padding padding added to a cell before computing its width // padchar ASCII char used for padding // if padchar == '\t', the Writer will assume that the // width of a '\t' in the formatted output is tabwidth, // and cells are left-aligned independent of align_left // (for correct-looking results, tabwidth must correspond // to the tab width in the viewer displaying the result) // flags formatting control // func (b *Writer) Init(output io.Writer, minwidth, tabwidth, padding int, padchar byte, flags uint) *Writer { if minwidth < 0 || tabwidth < 0 || padding < 0 { panic("negative minwidth, tabwidth, or padding") } b.output = output b.minwidth = minwidth b.tabwidth = tabwidth b.padding = padding for i := range b.padbytes { b.padbytes[i] = padchar } if padchar == '\t' { // tab padding enforces left-alignment flags &^= AlignRight } b.flags = flags b.reset() return b } // debugging support (keep code around) func (b *Writer) dump() { pos := 0 for i, line := range b.lines { print("(", i, ") ") for _, c := range line { print("[", string(b.buf.Bytes()[pos:pos+c.size]), "]") pos += c.size } print("\n") } print("\n") } // local error wrapper so we can distinguish errors we want to return // as errors from genuine panics (which we don't want to return as errors) type osError struct { err error } func (b *Writer) write0(buf []byte) { n, err := b.output.Write(buf) if n != len(buf) && err == nil { err = io.ErrShortWrite } if err != nil { panic(osError{err}) } } func (b *Writer) writeN(src []byte, n int) { for n > len(src) { b.write0(src) n -= len(src) } b.write0(src[0:n]) } var ( newline = []byte{'\n'} tabs = []byte("\t\t\t\t\t\t\t\t") ) func (b *Writer) writePadding(textw, cellw int, useTabs bool) { if b.padbytes[0] == '\t' || useTabs { // padding is done with tabs if b.tabwidth == 0 { return // tabs have no width - can't do any padding } // make cellw the smallest multiple of b.tabwidth cellw = (cellw + b.tabwidth - 1) / b.tabwidth * b.tabwidth n := cellw - textw // amount of padding if n < 0 { panic("internal error") } b.writeN(tabs, (n+b.tabwidth-1)/b.tabwidth) return } // padding is done with non-tab characters b.writeN(b.padbytes[0:], cellw-textw) } var vbar = []byte{'|'} func (b *Writer) writeLines(pos0 int, line0, line1 int) (pos int) { pos = pos0 for i := line0; i < line1; i++ { line := b.lines[i] // if TabIndent is set, use tabs to pad leading empty cells useTabs := b.flags&TabIndent != 0 for j, c := range line { if j > 0 && b.flags&Debug != 0 { // indicate column break b.write0(vbar) } if c.size == 0 { // empty cell if j < len(b.widths) { b.writePadding(c.width, b.widths[j], useTabs) } } else { // non-empty cell useTabs = false if b.flags&AlignRight == 0 { // align left b.write0(b.buf.Bytes()[pos : pos+c.size]) pos += c.size if j < len(b.widths) { b.writePadding(c.width, b.widths[j], false) } } else { // align right if j < len(b.widths) { b.writePadding(c.width, b.widths[j], false) } b.write0(b.buf.Bytes()[pos : pos+c.size]) pos += c.size } } } if i+1 == len(b.lines) { // last buffered line - we don't have a newline, so just write // any outstanding buffered data b.write0(b.buf.Bytes()[pos : pos+b.cell.size]) pos += b.cell.size } else { // not the last line - write newline b.write0(newline) } } return } // Format the text between line0 and line1 (excluding line1); pos // is the buffer position corresponding to the beginning of line0. // Returns the buffer position corresponding to the beginning of // line1 and an error, if any. // func (b *Writer) format(pos0 int, line0, line1 int) (pos int) { pos = pos0 column := len(b.widths) for this := line0; this < line1; this++ { line := b.lines[this] if column < len(line)-1 { // cell exists in this column => this line // has more cells than the previous line // (the last cell per line is ignored because cells are // tab-terminated; the last cell per line describes the // text before the newline/formfeed and does not belong // to a column) // print unprinted lines until beginning of block pos = b.writeLines(pos, line0, this) line0 = this // column block begin width := b.minwidth // minimal column width discardable := true // true if all cells in this column are empty and "soft" for ; this < line1; this++ { line = b.lines[this] if column < len(line)-1 { // cell exists in this column c := line[column] // update width if w := c.width + b.padding; w > width { width = w } // update discardable if c.width > 0 || c.htab { discardable = false } } else { break } } // column block end // discard empty columns if necessary if discardable && b.flags&DiscardEmptyColumns != 0 { width = 0 } // format and print all columns to the right of this column // (we know the widths of this column and all columns to the left) b.widths = append(b.widths, width) // push width pos = b.format(pos, line0, this) b.widths = b.widths[0 : len(b.widths)-1] // pop width line0 = this } } // print unprinted lines until end return b.writeLines(pos, line0, line1) } // Append text to current cell. func (b *Writer) append(text []byte) { b.buf.Write(text) b.cell.size += len(text) } // Update the cell width. func (b *Writer) updateWidth() { b.cell.width += utf8.RuneCount(b.buf.Bytes()[b.pos:b.buf.Len()]) b.pos = b.buf.Len() } // To escape a text segment, bracket it with Escape characters. // For instance, the tab in this string "Ignore this tab: \xff\t\xff" // does not terminate a cell and constitutes a single character of // width one for formatting purposes. // // The value 0xff was chosen because it cannot appear in a valid UTF-8 sequence. // const Escape = '\xff' // Start escaped mode. func (b *Writer) startEscape(ch byte) { switch ch { case Escape: b.endChar = Escape case '<': b.endChar = '>' case '&': b.endChar = ';' } } // Terminate escaped mode. If the escaped text was an HTML tag, its width // is assumed to be zero for formatting purposes; if it was an HTML entity, // its width is assumed to be one. In all other cases, the width is the // unicode width of the text. // func (b *Writer) endEscape() { switch b.endChar { case Escape: b.updateWidth() if b.flags&StripEscape == 0 { b.cell.width -= 2 // don't count the Escape chars } case '>': // tag of zero width case ';': b.cell.width++ // entity, count as one rune } b.pos = b.buf.Len() b.endChar = 0 } // Terminate the current cell by adding it to the list of cells of the // current line. Returns the number of cells in that line. // func (b *Writer) terminateCell(htab bool) int { b.cell.htab = htab line := &b.lines[len(b.lines)-1] *line = append(*line, b.cell) b.cell = cell{} return len(*line) } func handlePanic(err *error, op string) { if e := recover(); e != nil { if nerr, ok := e.(osError); ok { *err = nerr.err return } panic("tabwriter: panic during " + op) } } // Flush should be called after the last call to Write to ensure // that any data buffered in the Writer is written to output. Any // incomplete escape sequence at the end is considered // complete for formatting purposes. func (b *Writer) Flush() error { return b.flush() } func (b *Writer) flush() (err error) { defer b.reset() // even in the presence of errors defer handlePanic(&err, "Flush") // add current cell if not empty if b.cell.size > 0 { if b.endChar != 0 { // inside escape - terminate it even if incomplete b.endEscape() } b.terminateCell(false) } // format contents of buffer b.format(0, 0, len(b.lines)) return nil } var hbar = []byte("---\n") // Write writes buf to the writer b. // The only errors returned are ones encountered // while writing to the underlying output stream. // func (b *Writer) Write(buf []byte) (n int, err error) { defer handlePanic(&err, "Write") // split text into cells n = 0 for i, ch := range buf { if b.endChar == 0 { // outside escape switch ch { case '\t', '\v', '\n', '\f': // end of cell b.append(buf[n:i]) b.updateWidth() n = i + 1 // ch consumed ncells := b.terminateCell(ch == '\t') if ch == '\n' || ch == '\f' { // terminate line b.addLine() if ch == '\f' || ncells == 1 { // A '\f' always forces a flush. Otherwise, if the previous // line has only one cell which does not have an impact on // the formatting of the following lines (the last cell per // line is ignored by format()), thus we can flush the // Writer contents. if err = b.Flush(); err != nil { return } if ch == '\f' && b.flags&Debug != 0 { // indicate section break b.write0(hbar) } } } case Escape: // start of escaped sequence b.append(buf[n:i]) b.updateWidth() n = i if b.flags&StripEscape != 0 { n++ // strip Escape } b.startEscape(Escape) case '<', '&': // possibly an html tag/entity if b.flags&FilterHTML != 0 { // begin of tag/entity b.append(buf[n:i]) b.updateWidth() n = i b.startEscape(ch) } } } else { // inside escape if ch == b.endChar { // end of tag/entity j := i + 1 if ch == Escape && b.flags&StripEscape != 0 { j = i // strip Escape } b.append(buf[n:j]) n = i + 1 // ch consumed b.endEscape() } } } // append leftover text b.append(buf[n:]) n = len(buf) return } // NewWriter allocates and initializes a new tabwriter.Writer. // The parameters are the same as for the Init function. // func NewWriter(output io.Writer, minwidth, tabwidth, padding int, padchar byte, flags uint) *Writer { return new(Writer).Init(output, minwidth, tabwidth, padding, padchar, flags) }