/*! @license
* Shaka Player
* Copyright 2016 Google LLC
* SPDX-License-Identifier: Apache-2.0
*/
goog.provide('shaka.cea.Cea708Service');
goog.require('shaka.cea.Cea708Window');
goog.require('shaka.cea.DtvccPacket');
goog.require('shaka.cea.ICaptionDecoder');
goog.require('shaka.util.Error');
/**
* CEA-708 closed captions service as defined by CEA-708-E. A decoder can own up
* to 63 services. Each service owns eight windows.
*/
shaka.cea.Cea708Service = class {
/**
* @param {number} serviceNumber
*/
constructor(serviceNumber) {
/**
* Number for this specific service (1 - 63).
* @private {number}
*/
this.serviceNumber_ = serviceNumber;
/**
* Eight Cea708 Windows, as defined by the spec.
* @private {!Array<?shaka.cea.Cea708Window>}
*/
this.windows_ = [
null, null, null, null, null, null, null, null,
];
/**
* The current window for which window command operate on.
* @private {?shaka.cea.Cea708Window}
*/
this.currentWindow_ = null;
}
/**
* Processes a CEA-708 control code.
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @return {?shaka.cea.ICaptionDecoder.ClosedCaption}
* @throws {!shaka.util.Error}
*/
handleCea708ControlCode(dtvccPacket) {
const blockData = dtvccPacket.readByte();
let controlCode = blockData.value;
const pts = blockData.pts;
// Read extended control code if needed.
if (controlCode === shaka.cea.Cea708Service.EXT_CEA708_CTRL_CODE_BYTE1) {
const extendedControlCodeBlock = dtvccPacket.readByte();
controlCode = (controlCode << 16) | extendedControlCodeBlock.value;
}
// Control codes are in 1 of 4 logical groups:
// CL (C0, C2), CR (C1, C3), GL (G0, G2), GR (G1, G2).
if (controlCode >= 0x00 && controlCode <= 0x1f) {
return this.handleC0_(controlCode, pts);
} else if (controlCode >= 0x80 && controlCode <= 0x9f) {
return this.handleC1_(dtvccPacket, controlCode, pts);
} else if (controlCode >= 0x1000 && controlCode <= 0x101f) {
this.handleC2_(dtvccPacket, controlCode & 0xff);
} else if (controlCode >= 0x1080 && controlCode <= 0x109f) {
this.handleC3_(dtvccPacket, controlCode & 0xff);
} else if (controlCode >= 0x20 && controlCode <= 0x7f) {
this.handleG0_(controlCode);
} else if (controlCode >= 0xa0 && controlCode <= 0xff) {
this.handleG1_(controlCode);
} else if (controlCode >= 0x1020 && controlCode <= 0x107f) {
this.handleG2_(controlCode & 0xff);
} else if (controlCode >= 0x10a0 && controlCode <= 0x10ff) {
this.handleG3_(controlCode & 0xff);
}
return null;
}
/**
* Handles G0 group data.
* @param {number} controlCode
* @private
*/
handleG0_(controlCode) {
if (!this.currentWindow_) {
return;
}
// G0 contains ASCII from 0x20 to 0x7f, with the exception that 0x7f
// is replaced by a musical note.
if (controlCode === 0x7f) {
this.currentWindow_.setCharacter('♪');
return;
}
this.currentWindow_.setCharacter(String.fromCharCode(controlCode));
}
/**
* Handles G1 group data.
* @param {number} controlCode
* @private
*/
handleG1_(controlCode) {
if (!this.currentWindow_) {
return;
}
// G1 is the Latin-1 Character Set from 0xa0 to 0xff.
this.currentWindow_.setCharacter(String.fromCharCode(controlCode));
}
/**
* Handles G2 group data.
* @param {number} controlCode
* @private
*/
handleG2_(controlCode) {
if (!this.currentWindow_) {
return;
}
if (!shaka.cea.Cea708Service.G2Charset.has(controlCode)) {
// If the character is unsupported, the spec says to put an underline.
this.currentWindow_.setCharacter('_');
return;
}
const char = shaka.cea.Cea708Service.G2Charset.get(controlCode);
this.currentWindow_.setCharacter(char);
}
/**
* Handles G3 group data.
* @param {number} controlCode
* @private
*/
handleG3_(controlCode) {
if (!this.currentWindow_) {
return;
}
// As of CEA-708-E, the G3 group only contains 1 character. It's a
// [CC] character which has no unicode value on 0xa0.
if (controlCode != 0xa0) {
// Similar to G2, the spec decrees an underline if char is unsupported.
this.currentWindow_.setCharacter('_');
return;
}
this.currentWindow_.setCharacter('[CC]');
}
/**
* Handles C0 group data.
* @param {number} controlCode
* @param {number} pts
* @return {?shaka.cea.ICaptionDecoder.ClosedCaption}
* @private
*/
handleC0_(controlCode, pts) {
// All these commands pertain to the current window, so ensure it exists.
if (!this.currentWindow_) {
return null;
}
const window = this.currentWindow_;
let parsedClosedCaption = null;
// Note: This decoder ignores the "ETX" (end of text) control code. Since
// this is JavaScript, a '\0' is not needed to terminate a string.
switch (controlCode) {
case shaka.cea.Cea708Service.ASCII_BACKSPACE:
window.backspace();
break;
case shaka.cea.Cea708Service.ASCII_CARRIAGE_RETURN:
// Force out the buffer, since the top row could be lost.
if (window.isVisible()) {
parsedClosedCaption = window.forceEmit(pts, this.serviceNumber_);
}
window.carriageReturn();
break;
case shaka.cea.Cea708Service.ASCII_HOR_CARRIAGE_RETURN:
// Force out the buffer, a row will be erased.
if (window.isVisible()) {
parsedClosedCaption = window.forceEmit(pts, this.serviceNumber_);
}
window.horizontalCarriageReturn();
break;
case shaka.cea.Cea708Service.ASCII_FORM_FEED:
// Clear window and move pen to (0,0).
// Force emit if the window is visible.
if (window.isVisible()) {
parsedClosedCaption = window.forceEmit(pts, this.serviceNumber_);
}
window.resetMemory();
window.setPenLocation(0, 0);
break;
}
return parsedClosedCaption;
}
/**
* Processes C1 group data.
* These are caption commands.
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @param {number} captionCommand
* @param {number} pts in seconds
* @return {?shaka.cea.ICaptionDecoder.ClosedCaption}
* @throws {!shaka.util.Error} a possible out-of-range buffer read.
* @private
*/
handleC1_(dtvccPacket, captionCommand, pts) {
// Note: This decoder ignores delay and delayCancel control codes in the C1.
// group. These control codes delay processing of data for a set amount of
// time, however this decoder processes that data immediately.
if (captionCommand >= 0x80 && captionCommand <= 0x87) {
const windowNum = captionCommand & 0x07;
this.setCurrentWindow_(windowNum);
} else if (captionCommand === 0x88) {
const bitmap = dtvccPacket.readByte().value;
return this.clearWindows_(bitmap, pts);
} else if (captionCommand === 0x89) {
const bitmap = dtvccPacket.readByte().value;
this.displayWindows_(bitmap, pts);
} else if (captionCommand === 0x8a) {
const bitmap = dtvccPacket.readByte().value;
return this.hideWindows_(bitmap, pts);
} else if (captionCommand === 0x8b) {
const bitmap = dtvccPacket.readByte().value;
return this.toggleWindows_(bitmap, pts);
} else if (captionCommand === 0x8c) {
const bitmap = dtvccPacket.readByte().value;
return this.deleteWindows_(bitmap, pts);
} else if (captionCommand === 0x8f) {
return this.reset_(pts);
} else if (captionCommand === 0x90) {
this.setPenAttributes_(dtvccPacket);
} else if (captionCommand === 0x91) {
this.setPenColor_(dtvccPacket);
} else if (captionCommand === 0x92) {
this.setPenLocation_(dtvccPacket);
} else if (captionCommand === 0x97) {
this.setWindowAttributes_(dtvccPacket);
} else if (captionCommand >= 0x98 && captionCommand <= 0x9f) {
const windowNum = (captionCommand & 0x0f) - 8;
this.defineWindow_(dtvccPacket, windowNum, pts);
}
return null;
}
/**
* Handles C2 group data.
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @param {number} controlCode
* @private
*/
handleC2_(dtvccPacket, controlCode) {
// As of the CEA-708-E spec there are no commands on the C2 table, but if
// seen, then the appropriate number of bytes must be skipped as per spec.
if (controlCode >= 0x08 && controlCode <= 0x0f) {
dtvccPacket.skip(1);
} else if (controlCode >= 0x10 && controlCode <= 0x17) {
dtvccPacket.skip(2);
} else if (controlCode >= 0x18 && controlCode <= 0x1f) {
dtvccPacket.skip(3);
}
}
/**
* Handles C3 group data.
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @param {number} controlCode
* @private
*/
handleC3_(dtvccPacket, controlCode) {
// As of the CEA-708-E spec there are no commands on the C3 table, but if
// seen, then the appropriate number of bytes must be skipped as per spec.
if (controlCode >= 0x80 && controlCode <= 0x87) {
dtvccPacket.skip(4);
} else if (controlCode >= 0x88 && controlCode <= 0x8f) {
dtvccPacket.skip(5);
}
}
/**
* @param {number} windowNum
* @private
*/
setCurrentWindow_(windowNum) {
// If the window isn't created, ignore the command.
if (!this.windows_[windowNum]) {
return;
}
this.currentWindow_ = this.windows_[windowNum];
}
/**
* Yields each non-null window specified in the 8-bit bitmap.
* @param {number} bitmap 8 bits corresponding to each of the 8 windows.
* @return {!Iterable.<number>}
* @private
*/
* getSpecifiedWindowIds_(bitmap) {
for (let i = 0; i < 8; i++) {
const windowSpecified = (bitmap & 0x01) === 0x01;
if (windowSpecified && this.windows_[i]) {
yield i;
}
bitmap >>= 1;
}
}
/**
* @param {number} windowsBitmap
* @param {number} pts
* @return {?shaka.cea.ICaptionDecoder.ClosedCaption}
* @private
*/
clearWindows_(windowsBitmap, pts) {
let parsedClosedCaption = null;
// Clears windows from the 8 bit bitmap.
for (const windowId of this.getSpecifiedWindowIds_(windowsBitmap)) {
// If window visible and being cleared, emit buffer and reset start time!
const window = this.windows_[windowId];
if (window.isVisible()) {
parsedClosedCaption = window.forceEmit(pts, this.serviceNumber_);
}
window.resetMemory();
}
return parsedClosedCaption;
}
/**
* @param {number} windowsBitmap
* @param {number} pts
* @private
*/
displayWindows_(windowsBitmap, pts) {
// Displays windows from the 8 bit bitmap.
for (const windowId of this.getSpecifiedWindowIds_(windowsBitmap)) {
const window = this.windows_[windowId];
if (!window.isVisible()) {
// We are turning on the visibility, set the start time.
window.setStartTime(pts);
}
window.display();
}
}
/**
* @param {number} windowsBitmap
* @param {number} pts
* @return {?shaka.cea.ICaptionDecoder.ClosedCaption}
* @private
*/
hideWindows_(windowsBitmap, pts) {
let parsedClosedCaption = null;
// Hides windows from the 8 bit bitmap.
for (const windowId of this.getSpecifiedWindowIds_(windowsBitmap)) {
const window = this.windows_[windowId];
if (window.isVisible()) {
// We are turning off the visibility, emit!
parsedClosedCaption = window.forceEmit(pts, this.serviceNumber_);
}
window.hide();
}
return parsedClosedCaption;
}
/**
* @param {number} windowsBitmap
* @param {number} pts
* @return {?shaka.cea.ICaptionDecoder.ClosedCaption}
* @private
*/
toggleWindows_(windowsBitmap, pts) {
let parsedClosedCaption = null;
// Toggles windows from the 8 bit bitmap.
for (const windowId of this.getSpecifiedWindowIds_(windowsBitmap)) {
const window = this.windows_[windowId];
if (window.isVisible()) {
// We are turning off the visibility, emit!
parsedClosedCaption = window.forceEmit(pts, this.serviceNumber_);
} else {
// We are turning on visibility, set the start time.
window.setStartTime(pts);
}
window.toggle();
}
return parsedClosedCaption;
}
/**
* @param {number} windowsBitmap
* @param {number} pts
* @return {?shaka.cea.ICaptionDecoder.ClosedCaption}
* @private
*/
deleteWindows_(windowsBitmap, pts) {
let parsedClosedCaption = null;
// Deletes windows from the 8 bit bitmap.
for (const windowId of this.getSpecifiedWindowIds_(windowsBitmap)) {
const window = this.windows_[windowId];
if (window.isVisible()) {
// We are turning off the visibility, emit!
parsedClosedCaption = window.forceEmit(pts, this.serviceNumber_);
}
// Delete the window from the list of windows
this.windows_[windowId] = null;
}
return parsedClosedCaption;
}
/**
* Emits anything currently present in any of the windows, and then
* deletes all windows, cancels all delays, reinitializes the service.
* @param {number} pts
* @return {?shaka.cea.ICaptionDecoder.ClosedCaption}
* @private
*/
reset_(pts) {
const allWindowsBitmap = 0xff; // All windows should be deleted.
const caption = this.deleteWindows_(allWindowsBitmap, pts);
this.clear();
return caption;
}
/**
* Clears the state of the service completely.
*/
clear() {
this.currentWindow_ = null;
this.windows_ = [null, null, null, null, null, null, null, null];
}
/**
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @throws {!shaka.util.Error}
* @private
*/
setPenAttributes_(dtvccPacket) {
// Two bytes follow. For the purpose of this decoder, we are only concerned
// with byte 2, which is of the form |I|U|EDTYP|FNTAG|.
// I (1 bit): Italics toggle.
// U (1 bit): Underline toggle.
// EDTYP (3 bits): Edge type (unused in this decoder).
// FNTAG (3 bits): Font tag (unused in this decoder).
// More info at https://en.wikipedia.org/wiki/CEA-708#SetPenAttributes_(0x90_+_2_bytes)
dtvccPacket.skip(1); // Skip first byte
const attrByte2 = dtvccPacket.readByte().value;
if (!this.currentWindow_) {
return;
}
const italics = (attrByte2 & 0x80) > 0;
const underline = (attrByte2 & 0x40) > 0;
this.currentWindow_.setPenItalics(italics);
this.currentWindow_.setPenUnderline(underline);
}
/**
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @throws {!shaka.util.Error}
* @private
*/
setPenColor_(dtvccPacket) {
// Read foreground and background properties.
const foregroundByte = dtvccPacket.readByte().value;
const backgroundByte = dtvccPacket.readByte().value;
dtvccPacket.skip(1); // Edge color not supported, skip it.
if (!this.currentWindow_) {
return;
}
// Byte semantics are described at the following link:
// https://en.wikipedia.org/wiki/CEA-708#SetPenColor_(0x91_+_3_bytes)
// Foreground color properties: |FOP|F_R|F_G|F_B|.
const foregroundBlue = foregroundByte & 0x03;
const foregroundGreen = (foregroundByte & 0x0c) >> 2;
const foregroundRed = (foregroundByte & 0x30) >> 4;
// Background color properties: |BOP|B_R|B_G|B_B|.
const backgroundBlue = backgroundByte & 0x03;
const backgroundGreen = (backgroundByte & 0x0c) >> 2;
const backgroundRed = (backgroundByte & 0x30) >> 4;
const foregroundColor = this.rgbColorToHex_(
foregroundRed, foregroundGreen, foregroundBlue);
const backgroundColor = this.rgbColorToHex_(
backgroundRed, backgroundGreen, backgroundBlue);
this.currentWindow_.setPenTextColor(foregroundColor);
this.currentWindow_.setPenBackgroundColor(backgroundColor);
}
/**
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @throws {!shaka.util.Error}
* @private
*/
setPenLocation_(dtvccPacket) {
// Following 2 bytes take the following form:
// b1 = |0|0|0|0|ROW| and b2 = |0|0|COLUMN|
const locationByte1 = dtvccPacket.readByte().value;
const locationByte2 = dtvccPacket.readByte().value;
if (!this.currentWindow_) {
return;
}
const row = locationByte1 & 0x0f;
const col = locationByte2 & 0x3f;
this.currentWindow_.setPenLocation(row, col);
}
/**
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @throws {!shaka.util.Error}
* @private
*/
setWindowAttributes_(dtvccPacket) {
// 4 bytes follow, with the following form:
// Byte 1 contains fill-color information. Unused in this decoder.
// Byte 2 contains border color information. Unused in this decoder.
// Byte 3 contains justification information. In this decoder, we only use
// the last 2 bits, which specifies text justification on the screen.
// Byte 4 is special effects. Unused in this decoder.
// More info at https://en.wikipedia.org/wiki/CEA-708#SetWindowAttributes_(0x97_+_4_bytes)
dtvccPacket.skip(1); // Fill color not supported, skip.
dtvccPacket.skip(1); // Border colors not supported, skip.
const b3 = dtvccPacket.readByte().value;
dtvccPacket.skip(1); // Effects not supported, skip.
if (!this.currentWindow_) {
return;
}
// Word wrap is outdated as of CEA-708-E, so we ignore those bits.
// Extract the text justification and set it on the window.
const justification =
/** @type {!shaka.cea.Cea708Window.TextJustification} */ (b3 & 0x03);
this.currentWindow_.setJustification(justification);
}
/**
* @param {!shaka.cea.DtvccPacket} dtvccPacket
* @param {number} windowNum
* @param {number} pts
* @throws {!shaka.util.Error}
* @private
*/
defineWindow_(dtvccPacket, windowNum, pts) {
// Create the window if it doesn't exist.
const windowAlreadyExists = this.windows_[windowNum] !== null;
if (!windowAlreadyExists) {
const window = new shaka.cea.Cea708Window(windowNum);
window.setStartTime(pts);
this.windows_[windowNum] = window;
}
// 6 Bytes follow, with the following form:
// b1 = |0|0|V|R|C|PRIOR| , b2 = |P|VERT_ANCHOR| , b3 = |HOR_ANCHOR|
// b4 = |ANC_ID|ROW_CNT| , b5 = |0|0|COL_COUNT| , b6 = |0|0|WNSTY|PNSTY|
// Semantics of these bytes at https://en.wikipedia.org/wiki/CEA-708#DefineWindow07_(0x98-0x9F,_+_6_bytes)
const b1 = dtvccPacket.readByte().value;
const b2 = dtvccPacket.readByte().value;
const b3 = dtvccPacket.readByte().value;
const b4 = dtvccPacket.readByte().value;
const b5 = dtvccPacket.readByte().value;
const b6 = dtvccPacket.readByte().value;
// As per 8.4.7 of CEA-708-E, row locks and column locks are to be ignored.
// So this decoder will ignore these values.
const visible = (b1 & 0x20) > 0;
const verticalAnchor = b2 & 0x7f;
const relativeToggle = (b2 & 0x80) > 0;
const horAnchor = b3;
const rowCount = (b4 & 0x0f) + 1; // Spec says to add 1.
const anchorId = (b4 & 0xf0) >> 4;
const colCount = (b5 & 0x3f) + 1; // Spec says to add 1.
// If pen style = 0 AND window previously existed, keep its pen style.
// Otherwise, change the pen style (For now, just reset to the default pen).
// TODO add support for predefined pen styles and fonts.
const penStyle = b6 & 0x07;
if (!windowAlreadyExists || penStyle !== 0) {
this.windows_[windowNum].resetPen();
}
this.windows_[windowNum].defineWindow(visible, verticalAnchor,
horAnchor, anchorId, relativeToggle, rowCount, colCount);
// Set the current window to the newly defined window.
this.currentWindow_ = this.windows_[windowNum];
}
/**
* Maps 64 possible CEA-708 colors to 8 CSS colors.
* @param {number} red value from 0-3
* @param {number} green value from 0-3
* @param {number} blue value from 0-3
* @return {string}
* @private
*/
rgbColorToHex_(red, green, blue) {
// Rather than supporting 64 colors, this decoder supports 8 colors and
// gets the closest color, as per 9.19 of CEA-708-E. This is because some
// colors on television such as white, are often sent with lower intensity
// and often appear dull/greyish on the browser, making them hard to read.
// As per CEA-708-E 9.19, these mappings will map 64 colors to 8 colors.
const colorMapping = {0: 0, 1: 0, 2: 1, 3: 1};
red = colorMapping[red];
green = colorMapping[green];
blue = colorMapping[blue];
const colorCode = (red << 2) | (green << 1) | blue;
return shaka.cea.Cea708Service.Colors[colorCode];
}
};
/**
* @private @const {number}
*/
shaka.cea.Cea708Service.ASCII_BACKSPACE = 0x08;
/**
* @private @const {number}
*/
shaka.cea.Cea708Service.ASCII_FORM_FEED = 0x0c;
/**
* @private @const {number}
*/
shaka.cea.Cea708Service.ASCII_CARRIAGE_RETURN = 0x0d;
/**
* @private @const {number}
*/
shaka.cea.Cea708Service.ASCII_HOR_CARRIAGE_RETURN = 0x0e;
/**
* For extended control codes in block_data on CEA-708, byte 1 is 0x10.
* @private @const {number}
*/
shaka.cea.Cea708Service.EXT_CEA708_CTRL_CODE_BYTE1 = 0x10;
/**
* Holds characters mapping for bytes that are G2 control codes.
* @private @const {!Map<number, string>}
*/
shaka.cea.Cea708Service.G2Charset = new Map([
[0x20, ' '], [0x21, '\xa0'], [0x25, '…'], [0x2a, 'Š'], [0x2c, 'Œ'],
[0x30, '█'], [0x31, '‘'], [0x32, '’'], [0x33, '“'], [0x34, '”'],
[0x35, '•'], [0x39, '™'], [0x3a, 'š'], [0x3c, 'œ'], [0x3d, '℠'],
[0x3f, 'Ÿ'], [0x76, '⅛'], [0x77, '⅜'], [0x78, '⅝'], [0x79, '⅞'],
[0x7a, '│'], [0x7b, '┐'], [0x7c, '└'], [0x7d, '─'], [0x7e, '┘'], [0x7f, '┌'],
]);
/**
* An array of 8 colors that 64 colors can be quantized to. Order here matters.
* @private @const {!Array<string>}
*/
shaka.cea.Cea708Service.Colors = [
'black', 'blue', 'green', 'cyan',
'red', 'magenta', 'yellow', 'white',
];
/**
* CEA-708 closed captions byte.
* @typedef {{
* pts: number,
* type: number,
* value: number,
* order: number
* }}
*
* @property {number} pts
* Presentation timestamp (in second) at which this packet was received.
* @property {number} type
* Type of the byte. Either 2 or 3, DTVCC Packet Data or a DTVCC Packet Start.
* @property {number} value The byte containing data relevant to the packet.
* @property {number} order
* A number indicating the order this packet was received in a sequence
* of packets. Used to break ties in a stable sorting algorithm
*/
shaka.cea.Cea708Service.Cea708Byte;