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/**
* Copyright (c) 2017 The xterm.js authors. All rights reserved.
* @license MIT
*/
import { CircularList, IInsertEvent } from './common/CircularList';
import { ITerminal, IBuffer, BufferIndex, IBufferStringIterator, IBufferStringIteratorResult } from './Types';
import { IBufferLine, ICellData, IAttributeData } from './core/Types';
import { BufferLine, CellData, NULL_CELL_CHAR, NULL_CELL_WIDTH, NULL_CELL_CODE, WHITESPACE_CELL_CHAR, WHITESPACE_CELL_WIDTH, WHITESPACE_CELL_CODE, CHAR_DATA_WIDTH_INDEX, CHAR_DATA_CHAR_INDEX, DEFAULT_ATTR_DATA } from './core/buffer/BufferLine';
import { reflowLargerApplyNewLayout, reflowLargerCreateNewLayout, reflowLargerGetLinesToRemove, reflowSmallerGetNewLineLengths, getWrappedLineTrimmedLength } from './core/buffer/BufferReflow';
import { Marker } from './core/buffer/Marker';
export const MAX_BUFFER_SIZE = 4294967295; // 2^32 - 1
/**
* This class represents a terminal buffer (an internal state of the terminal), where the
* following information is stored (in high-level):
* - text content of this particular buffer
* - cursor position
* - scroll position
*/
export class Buffer implements IBuffer {
public lines: CircularList<IBufferLine>;
public ydisp: number;
public ybase: number;
public y: number;
public x: number;
public scrollBottom: number;
public scrollTop: number;
public tabs: any;
public savedY: number;
public savedX: number;
public savedCurAttrData = DEFAULT_ATTR_DATA.clone();
public markers: Marker[] = [];
private _nullCell: ICellData = CellData.fromCharData([0, NULL_CELL_CHAR, NULL_CELL_WIDTH, NULL_CELL_CODE]);
private _whitespaceCell: ICellData = CellData.fromCharData([0, WHITESPACE_CELL_CHAR, WHITESPACE_CELL_WIDTH, WHITESPACE_CELL_CODE]);
private _cols: number;
private _rows: number;
/**
* Create a new Buffer.
* @param _terminal The terminal the Buffer will belong to.
* @param _hasScrollback Whether the buffer should respect the scrollback of
* the terminal.
*/
constructor(
private _terminal: ITerminal,
private _hasScrollback: boolean
) {
this._cols = this._terminal.cols;
this._rows = this._terminal.rows;
this.clear();
}
public getNullCell(attr?: IAttributeData): ICellData {
if (attr) {
this._nullCell.fg = attr.fg;
this._nullCell.bg = attr.bg;
} else {
this._nullCell.fg = 0;
this._nullCell.bg = 0;
}
return this._nullCell;
}
public getWhitespaceCell(attr?: IAttributeData): ICellData {
if (attr) {
this._whitespaceCell.fg = attr.fg;
this._whitespaceCell.bg = attr.bg;
} else {
this._whitespaceCell.fg = 0;
this._whitespaceCell.bg = 0;
}
return this._whitespaceCell;
}
public getBlankLine(attr: IAttributeData, isWrapped?: boolean): IBufferLine {
return new BufferLine(this._terminal.cols, this.getNullCell(attr), isWrapped);
}
public get hasScrollback(): boolean {
return this._hasScrollback && this.lines.maxLength > this._rows;
}
public get isCursorInViewport(): boolean {
const absoluteY = this.ybase + this.y;
const relativeY = absoluteY - this.ydisp;
return (relativeY >= 0 && relativeY < this._rows);
}
/**
* Gets the correct buffer length based on the rows provided, the terminal's
* scrollback and whether this buffer is flagged to have scrollback or not.
* @param rows The terminal rows to use in the calculation.
*/
private _getCorrectBufferLength(rows: number): number {
if (!this._hasScrollback) {
return rows;
}
const correctBufferLength = rows + this._terminal.options.scrollback;
return correctBufferLength > MAX_BUFFER_SIZE ? MAX_BUFFER_SIZE : correctBufferLength;
}
/**
* Fills the buffer's viewport with blank lines.
*/
public fillViewportRows(fillAttr?: IAttributeData): void {
if (this.lines.length === 0) {
if (fillAttr === undefined) {
fillAttr = DEFAULT_ATTR_DATA;
}
let i = this._rows;
while (i--) {
this.lines.push(this.getBlankLine(fillAttr));
}
}
}
/**
* Clears the buffer to it's initial state, discarding all previous data.
*/
public clear(): void {
this.ydisp = 0;
this.ybase = 0;
this.y = 0;
this.x = 0;
this.lines = new CircularList<IBufferLine>(this._getCorrectBufferLength(this._rows));
this.scrollTop = 0;
this.scrollBottom = this._rows - 1;
this.setupTabStops();
}
/**
* Resizes the buffer, adjusting its data accordingly.
* @param newCols The new number of columns.
* @param newRows The new number of rows.
*/
public resize(newCols: number, newRows: number): void {
// store reference to null cell with default attrs
const nullCell = this.getNullCell(DEFAULT_ATTR_DATA);
// Increase max length if needed before adjustments to allow space to fill
// as required.
const newMaxLength = this._getCorrectBufferLength(newRows);
if (newMaxLength > this.lines.maxLength) {
this.lines.maxLength = newMaxLength;
}
// The following adjustments should only happen if the buffer has been
// initialized/filled.
if (this.lines.length > 0) {
// Deal with columns increasing (reducing needs to happen after reflow)
if (this._cols < newCols) {
for (let i = 0; i < this.lines.length; i++) {
this.lines.get(i).resize(newCols, nullCell);
}
}
// Resize rows in both directions as needed
let addToY = 0;
if (this._rows < newRows) {
for (let y = this._rows; y < newRows; y++) {
if (this.lines.length < newRows + this.ybase) {
if (this.ybase > 0 && this.lines.length <= this.ybase + this.y + addToY + 1) {
// There is room above the buffer and there are no empty elements below the line,
// scroll up
this.ybase--;
addToY++;
if (this.ydisp > 0) {
// Viewport is at the top of the buffer, must increase downwards
this.ydisp--;
}
} else {
// Add a blank line if there is no buffer left at the top to scroll to, or if there
// are blank lines after the cursor
this.lines.push(new BufferLine(newCols, nullCell));
}
}
}
} else { // (this._rows >= newRows)
for (let y = this._rows; y > newRows; y--) {
if (this.lines.length > newRows + this.ybase) {
if (this.lines.length > this.ybase + this.y + 1) {
// The line is a blank line below the cursor, remove it
this.lines.pop();
} else {
// The line is the cursor, scroll down
this.ybase++;
this.ydisp++;
}
}
}
}
// Reduce max length if needed after adjustments, this is done after as it
// would otherwise cut data from the bottom of the buffer.
if (newMaxLength < this.lines.maxLength) {
// Trim from the top of the buffer and adjust ybase and ydisp.
const amountToTrim = this.lines.length - newMaxLength;
if (amountToTrim > 0) {
this.lines.trimStart(amountToTrim);
this.ybase = Math.max(this.ybase - amountToTrim, 0);
this.ydisp = Math.max(this.ydisp - amountToTrim, 0);
}
this.lines.maxLength = newMaxLength;
}
// Make sure that the cursor stays on screen
this.x = Math.min(this.x, newCols - 1);
this.y = Math.min(this.y, newRows - 1);
if (addToY) {
this.y += addToY;
}
this.savedY = Math.min(this.savedY, newRows - 1);
this.savedX = Math.min(this.savedX, newCols - 1);
this.scrollTop = 0;
}
this.scrollBottom = newRows - 1;
if (this._isReflowEnabled) {
this._reflow(newCols, newRows);
// Trim the end of the line off if cols shrunk
if (this._cols > newCols) {
for (let i = 0; i < this.lines.length; i++) {
this.lines.get(i).resize(newCols, nullCell);
}
}
}
this._cols = newCols;
this._rows = newRows;
}
private get _isReflowEnabled(): boolean {
return this._hasScrollback && !this._terminal.options.windowsMode;
}
private _reflow(newCols: number, newRows: number): void {
if (this._cols === newCols) {
return;
}
// Iterate through rows, ignore the last one as it cannot be wrapped
if (newCols > this._cols) {
this._reflowLarger(newCols, newRows);
} else {
this._reflowSmaller(newCols, newRows);
}
}
private _reflowLarger(newCols: number, newRows: number): void {
const toRemove: number[] = reflowLargerGetLinesToRemove(this.lines, this._cols, newCols, this.ybase + this.y, this.getNullCell(DEFAULT_ATTR_DATA));
if (toRemove.length > 0) {
const newLayoutResult = reflowLargerCreateNewLayout(this.lines, toRemove);
reflowLargerApplyNewLayout(this.lines, newLayoutResult.layout);
this._reflowLargerAdjustViewport(newCols, newRows, newLayoutResult.countRemoved);
}
}
private _reflowLargerAdjustViewport(newCols: number, newRows: number, countRemoved: number): void {
const nullCell = this.getNullCell(DEFAULT_ATTR_DATA);
// Adjust viewport based on number of items removed
let viewportAdjustments = countRemoved;
while (viewportAdjustments-- > 0) {
if (this.ybase === 0) {
if (this.y > 0) {
this.y--;
}
if (this.lines.length < newRows) {
// Add an extra row at the bottom of the viewport
this.lines.push(new BufferLine(newCols, nullCell));
}
} else {
if (this.ydisp === this.ybase) {
this.ydisp--;
}
this.ybase--;
}
}
}
private _reflowSmaller(newCols: number, newRows: number): void {
const nullCell = this.getNullCell(DEFAULT_ATTR_DATA);
// Gather all BufferLines that need to be inserted into the Buffer here so that they can be
// batched up and only committed once
const toInsert = [];
let countToInsert = 0;
// Go backwards as many lines may be trimmed and this will avoid considering them
for (let y = this.lines.length - 1; y >= 0; y--) {
// Check whether this line is a problem
let nextLine = this.lines.get(y) as BufferLine;
if (!nextLine || !nextLine.isWrapped && nextLine.getTrimmedLength() <= newCols) {
continue;
}
// Gather wrapped lines and adjust y to be the starting line
const wrappedLines: BufferLine[] = [nextLine];
while (nextLine.isWrapped && y > 0) {
nextLine = this.lines.get(--y) as BufferLine;
wrappedLines.unshift(nextLine);
}
// If these lines contain the cursor don't touch them, the program will handle fixing up
// wrapped lines with the cursor
const absoluteY = this.ybase + this.y;
if (absoluteY >= y && absoluteY < y + wrappedLines.length) {
continue;
}
const lastLineLength = wrappedLines[wrappedLines.length - 1].getTrimmedLength();
const destLineLengths = reflowSmallerGetNewLineLengths(wrappedLines, this._cols, newCols);
const linesToAdd = destLineLengths.length - wrappedLines.length;
let trimmedLines: number;
if (this.ybase === 0 && this.y !== this.lines.length - 1) {
// If the top section of the buffer is not yet filled
trimmedLines = Math.max(0, this.y - this.lines.maxLength + linesToAdd);
} else {
trimmedLines = Math.max(0, this.lines.length - this.lines.maxLength + linesToAdd);
}
// Add the new lines
const newLines: BufferLine[] = [];
for (let i = 0; i < linesToAdd; i++) {
const newLine = this.getBlankLine(DEFAULT_ATTR_DATA, true) as BufferLine;
newLines.push(newLine);
}
if (newLines.length > 0) {
toInsert.push({
// countToInsert here gets the actual index, taking into account other inserted items.
// using this we can iterate through the list forwards
start: y + wrappedLines.length + countToInsert,
newLines
});
countToInsert += newLines.length;
}
wrappedLines.push(...newLines);
// Copy buffer data to new locations, this needs to happen backwards to do in-place
let destLineIndex = destLineLengths.length - 1; // Math.floor(cellsNeeded / newCols);
let destCol = destLineLengths[destLineIndex]; // cellsNeeded % newCols;
if (destCol === 0) {
destLineIndex--;
destCol = destLineLengths[destLineIndex];
}
let srcLineIndex = wrappedLines.length - linesToAdd - 1;
let srcCol = lastLineLength;
while (srcLineIndex >= 0) {
const cellsToCopy = Math.min(srcCol, destCol);
wrappedLines[destLineIndex].copyCellsFrom(wrappedLines[srcLineIndex], srcCol - cellsToCopy, destCol - cellsToCopy, cellsToCopy, true);
destCol -= cellsToCopy;
if (destCol === 0) {
destLineIndex--;
destCol = destLineLengths[destLineIndex];
}
srcCol -= cellsToCopy;
if (srcCol === 0) {
srcLineIndex--;
const wrappedLinesIndex = Math.max(srcLineIndex, 0);
srcCol = getWrappedLineTrimmedLength(wrappedLines, wrappedLinesIndex, this._cols);
}
}
// Null out the end of the line ends if a wide character wrapped to the following line
for (let i = 0; i < wrappedLines.length; i++) {
if (destLineLengths[i] < newCols) {
wrappedLines[i].setCell(destLineLengths[i], nullCell);
}
}
// Adjust viewport as needed
let viewportAdjustments = linesToAdd - trimmedLines;
while (viewportAdjustments-- > 0) {
if (this.ybase === 0) {
if (this.y < newRows - 1) {
this.y++;
this.lines.pop();
} else {
this.ybase++;
this.ydisp++;
}
} else {
// Ensure ybase does not exceed its maximum value
if (this.ybase < Math.min(this.lines.maxLength, this.lines.length + countToInsert) - newRows) {
if (this.ybase === this.ydisp) {
this.ydisp++;
}
this.ybase++;
}
}
}
}
// Rearrange lines in the buffer if there are any insertions, this is done at the end rather
// than earlier so that it's a single O(n) pass through the buffer, instead of O(n^2) from many
// costly calls to CircularList.splice.
if (toInsert.length > 0) {
// Record buffer insert events and then play them back backwards so that the indexes are
// correct
const insertEvents: IInsertEvent[] = [];
// Record original lines so they don't get overridden when we rearrange the list
const originalLines: BufferLine[] = [];
for (let i = 0; i < this.lines.length; i++) {
originalLines.push(this.lines.get(i) as BufferLine);
}
const originalLinesLength = this.lines.length;
let originalLineIndex = originalLinesLength - 1;
let nextToInsertIndex = 0;
let nextToInsert = toInsert[nextToInsertIndex];
this.lines.length = Math.min(this.lines.maxLength, this.lines.length + countToInsert);
let countInsertedSoFar = 0;
for (let i = Math.min(this.lines.maxLength - 1, originalLinesLength + countToInsert - 1); i >= 0; i--) {
if (nextToInsert && nextToInsert.start > originalLineIndex + countInsertedSoFar) {
// Insert extra lines here, adjusting i as needed
for (let nextI = nextToInsert.newLines.length - 1; nextI >= 0; nextI--) {
this.lines.set(i--, nextToInsert.newLines[nextI]);
}
i++;
// Create insert events for later
insertEvents.push({
index: originalLineIndex + 1,
amount: nextToInsert.newLines.length
});
countInsertedSoFar += nextToInsert.newLines.length;
nextToInsert = toInsert[++nextToInsertIndex];
} else {
this.lines.set(i, originalLines[originalLineIndex--]);
}
}
// Update markers
let insertCountEmitted = 0;
for (let i = insertEvents.length - 1; i >= 0; i--) {
insertEvents[i].index += insertCountEmitted;
this.lines.onInsertEmitter.fire(insertEvents[i]);
insertCountEmitted += insertEvents[i].amount;
}
const amountToTrim = Math.max(0, originalLinesLength + countToInsert - this.lines.maxLength);
if (amountToTrim > 0) {
this.lines.onTrimEmitter.fire(amountToTrim);
}
}
}
// private _reflowSmallerGetLinesNeeded()
/**
* Translates a string index back to a BufferIndex.
* To get the correct buffer position the string must start at `startCol` 0
* (default in translateBufferLineToString).
* The method also works on wrapped line strings given rows were not trimmed.
* The method operates on the CharData string length, there are no
* additional content or boundary checks. Therefore the string and the buffer
* should not be altered in between.
* TODO: respect trim flag after fixing #1685
* @param lineIndex line index the string was retrieved from
* @param stringIndex index within the string
* @param startCol column offset the string was retrieved from
*/
public stringIndexToBufferIndex(lineIndex: number, stringIndex: number, trimRight: boolean = false): BufferIndex {
while (stringIndex) {
const line = this.lines.get(lineIndex);
if (!line) {
return [-1, -1];
}
const length = (trimRight) ? line.getTrimmedLength() : line.length;
for (let i = 0; i < length; ++i) {
if (line.get(i)[CHAR_DATA_WIDTH_INDEX]) {
// empty cells report a string length of 0, but get replaced
// with a whitespace in translateToString, thus replace with 1
stringIndex -= line.get(i)[CHAR_DATA_CHAR_INDEX].length || 1;
}
if (stringIndex < 0) {
return [lineIndex, i];
}
}
lineIndex++;
}
return [lineIndex, 0];
}
/**
* Translates a buffer line to a string, with optional start and end columns.
* Wide characters will count as two columns in the resulting string. This
* function is useful for getting the actual text underneath the raw selection
* position.
* @param line The line being translated.
* @param trimRight Whether to trim whitespace to the right.
* @param startCol The column to start at.
* @param endCol The column to end at.
*/
public translateBufferLineToString(lineIndex: number, trimRight: boolean, startCol: number = 0, endCol?: number): string {
const line = this.lines.get(lineIndex);
if (!line) {
return '';
}
return line.translateToString(trimRight, startCol, endCol);
}
public getWrappedRangeForLine(y: number): { first: number, last: number } {
let first = y;
let last = y;
// Scan upwards for wrapped lines
while (first > 0 && this.lines.get(first).isWrapped) {
first--;
}
// Scan downwards for wrapped lines
while (last + 1 < this.lines.length && this.lines.get(last + 1).isWrapped) {
last++;
}
return { first, last };
}
/**
* Setup the tab stops.
* @param i The index to start setting up tab stops from.
*/
public setupTabStops(i?: number): void {
if (i !== null && i !== undefined) {
if (!this.tabs[i]) {
i = this.prevStop(i);
}
} else {
this.tabs = {};
i = 0;
}
for (; i < this._cols; i += this._terminal.options.tabStopWidth) {
this.tabs[i] = true;
}
}
/**
* Move the cursor to the previous tab stop from the given position (default is current).
* @param x The position to move the cursor to the previous tab stop.
*/
public prevStop(x?: number): number {
if (x === null || x === undefined) {
x = this.x;
}
while (!this.tabs[--x] && x > 0);
return x >= this._cols ? this._cols - 1 : x < 0 ? 0 : x;
}
/**
* Move the cursor one tab stop forward from the given position (default is current).
* @param x The position to move the cursor one tab stop forward.
*/
public nextStop(x?: number): number {
if (x === null || x === undefined) {
x = this.x;
}
while (!this.tabs[++x] && x < this._cols);
return x >= this._cols ? this._cols - 1 : x < 0 ? 0 : x;
}
public addMarker(y: number): Marker {
const marker = new Marker(y);
this.markers.push(marker);
marker.register(this.lines.onTrim(amount => {
marker.line -= amount;
// The marker should be disposed when the line is trimmed from the buffer
if (marker.line < 0) {
marker.dispose();
}
}));
marker.register(this.lines.onInsert(event => {
if (marker.line >= event.index) {
marker.line += event.amount;
}
}));
marker.register(this.lines.onDelete(event => {
// Delete the marker if it's within the range
if (marker.line >= event.index && marker.line < event.index + event.amount) {
marker.dispose();
}
// Shift the marker if it's after the deleted range
if (marker.line > event.index) {
marker.line -= event.amount;
}
}));
marker.register(marker.onDispose(() => this._removeMarker(marker)));
return marker;
}
private _removeMarker(marker: Marker): void {
this.markers.splice(this.markers.indexOf(marker), 1);
}
public iterator(trimRight: boolean, startIndex?: number, endIndex?: number, startOverscan?: number, endOverscan?: number): IBufferStringIterator {
return new BufferStringIterator(this, trimRight, startIndex, endIndex, startOverscan, endOverscan);
}
}
/**
* Iterator to get unwrapped content strings from the buffer.
* The iterator returns at least the string data between the borders
* `startIndex` and `endIndex` (exclusive) and will expand the lines
* by `startOverscan` to the top and by `endOverscan` to the bottom,
* if no new line was found in between.
* It will never read/return string data beyond `startIndex - startOverscan`
* or `endIndex + endOverscan`. Therefore the first and last line might be truncated.
* It is possible to always get the full string for the first and last line as well
* by setting the overscan values to the actual buffer length. This not recommended
* since it might return the whole buffer within a single string in a worst case scenario.
*/
export class BufferStringIterator implements IBufferStringIterator {
private _current: number;
constructor (
private _buffer: IBuffer,
private _trimRight: boolean,
private _startIndex: number = 0,
private _endIndex: number = _buffer.lines.length,
private _startOverscan: number = 0,
private _endOverscan: number = 0
) {
if (this._startIndex < 0) {
this._startIndex = 0;
}
if (this._endIndex > this._buffer.lines.length) {
this._endIndex = this._buffer.lines.length;
}
this._current = this._startIndex;
}
public hasNext(): boolean {
return this._current < this._endIndex;
}
public next(): IBufferStringIteratorResult {
const range = this._buffer.getWrappedRangeForLine(this._current);
// limit search window to overscan value at both borders
if (range.first < this._startIndex - this._startOverscan) {
range.first = this._startIndex - this._startOverscan;
}
if (range.last > this._endIndex + this._endOverscan) {
range.last = this._endIndex + this._endOverscan;
}
// limit to current buffer length
range.first = Math.max(range.first, 0);
range.last = Math.min(range.last, this._buffer.lines.length);
let result = '';
for (let i = range.first; i <= range.last; ++i) {
result += this._buffer.translateBufferLineToString(i, this._trimRight);
}
this._current = range.last + 1;
return {range: range, content: result};
}
}