import React, { Component } from 'react'; import PropTypes from 'prop-types'; import PollService from '/imports/ui/components/poll/service'; import { defineMessages, injectIntl, intlShape } from 'react-intl'; import styles from './styles'; const intlMessages = defineMessages({ pollResultAria: { id: 'app.whiteboard.annotations.pollResult', description: 'aria label used in poll result string', }, }); class PollDrawComponent extends Component { constructor(props) { super(props); this.state = { // flag indicating whether we need to continue calculating the sizes or display the annotation prepareToDisplay: true, // outer (white) rectangle's coordinates and sizes (calculated in componentWillMount) outerRect: { x: 0, y: 0, width: 0, height: 0, }, // inner rectangle's coordinates and sizes innerRect: { x: 0, y: 0, width: 0, height: 0, }, thickness: 0, backgroundColor: '#ffffff', // max line sizes maxLineWidth: 0, maxLineHeight: 0, // max widths of the keys (left) and percent (right) strings maxLeftWidth: 0, maxRightWidth: 0, // these parameters are used in calculations before and while displaying the final result maxNumVotes: 0, textArray: [], maxDigitWidth: 0, maxDigitHeight: 0, // start value used for font-size calculations calcFontSize: 50, currentLine: 0, lineToMeasure: [], fontSizeDirection: 1, }; } componentWillMount() { // in this part we retrieve the props and perform initial calculations for the state // calculating only the parts which have to be done just once and don't require // rendering / rerendering the text objects const { annotation } = this.props; const { points, result } = annotation; const { slideWidth, slideHeight, intl } = this.props; // x1 and y1 - coordinates of the top left corner of the annotation // initial width and height are the width and height of the annotation // all the points are given as percentages of the slide const x1 = points[0]; const y1 = points[1]; const initialWidth = points[2]; const initialHeight = points[3]; // calculating the data for the outer rectangle // 0.001 is needed to accomodate bottom and right borders of the annotation const x = (x1 / 100) * slideWidth; const y = (y1 / 100) * slideHeight; const width = ((initialWidth - 0.001) / 100) * slideWidth; const height = ((initialHeight - 0.001) / 100) * slideHeight; let votesTotal = 0; let maxNumVotes = 0; const textArray = []; // counting the total number of votes, finding the biggest number of votes result.reduce((previousValue, currentValue) => { votesTotal = previousValue + currentValue.numVotes; if (maxNumVotes < currentValue.numVotes) { maxNumVotes = currentValue.numVotes; } return votesTotal; }, 0); // filling the textArray with data to display // adding value of the iterator to each line needed to create unique // keys while rendering at the end const arrayLength = result.length; for (let i = 0; i < arrayLength; i += 1) { const _tempArray = []; const _result = result[i]; let isDefaultPoll; switch (_result.key.toLowerCase()) { case 'true': case 'false': case 'yes': case 'no': case 'abstention': case 'a': case 'b': case 'c': case 'd': case 'e': isDefaultPoll = true; break; default: isDefaultPoll = false; break; } if (isDefaultPoll) { _result.key = intl.formatMessage({ id: `app.poll.answer.${_result.key.toLowerCase()}` }); } _tempArray.push(_result.key, `${_result.numVotes}`); if (votesTotal === 0) { _tempArray.push('0%'); _tempArray.push(i); } else { const percResult = (_result.numVotes / votesTotal) * 100; _tempArray.push(`${Math.round(percResult)}%`); _tempArray.push(i); } textArray.push(_tempArray); } // calculating the data for the inner rectangle const innerWidth = width * 0.95; const innerHeight = height - (width * 0.05); const innerX = x + (width * 0.025); const innerY = y + (width * 0.025); const thickness = (width - innerWidth) / 10; // calculating the maximum possible width and height of the each line // 25% of the height goes to the padding const maxLineWidth = innerWidth / 3; const maxLineHeight = (innerHeight * 0.75) / textArray.length; const lineToMeasure = textArray[0]; const { pollAnswerIds } = PollService; const messageIndex = lineToMeasure[0].toLowerCase(); if (pollAnswerIds[messageIndex]) { lineToMeasure[0] = intl.formatMessage(pollAnswerIds[messageIndex]); } // saving all the initial calculations in the state this.setState({ outerRect: { x, y, width, height, }, innerRect: { x: innerX, y: innerY, width: innerWidth, height: innerHeight, }, thickness, maxNumVotes, textArray, maxLineWidth, maxLineHeight, lineToMeasure, }); } componentDidMount() { this.checkSizes(); } // this might have to be changed if we want to reuse it for a presenter's poll popup shouldComponentUpdate() { const { prepareToDisplay } = this.state; return prepareToDisplay === true; } componentDidUpdate() { const { prepareToDisplay } = this.state; if (prepareToDisplay) { this.checkSizes(); } } checkSizes() { let { maxLineHeight } = this.state; const { currentLine, maxLineWidth, fontSizeDirection, calcFontSize, textArray, } = this.state; const { annotation } = this.props; // increment the font size by 2 to prevent Maximum update depth exceeded const fontSizeIncrement = 2; // calculating the font size in this if / else block if (fontSizeDirection !== 0) { const key = `${annotation.id}_key_${currentLine}`; const votes = `${annotation.id}_votes_${currentLine}`; const percent = `${annotation.id}_percent_${currentLine}`; const keySizes = this[key].getBBox(); const voteSizes = this[votes].getBBox(); const percSizes = this[percent].getBBox(); // first check if we can still increase the font-size if (fontSizeDirection === 1) { if ((keySizes.width < maxLineWidth && keySizes.height < maxLineHeight && voteSizes.width < maxLineWidth && voteSizes.height < maxLineHeight && percSizes.width < maxLineWidth && percSizes.height < maxLineHeight) && calcFontSize < 100) { return this.setState({ calcFontSize: calcFontSize + fontSizeIncrement, }); // we can't increase font-size anymore, start decreasing } return this.setState({ fontSizeDirection: -1, calcFontSize: calcFontSize - fontSizeIncrement, }); } if (fontSizeDirection === -1) { // check if the font-size is still bigger than allowed if ((keySizes.width > maxLineWidth || keySizes.height > maxLineHeight || voteSizes.width > maxLineWidth || voteSizes.height > maxLineHeight || percSizes.width > maxLineWidth || percSizes.height > maxLineHeight) && calcFontSize > 0) { return this.setState({ calcFontSize: calcFontSize - fontSizeIncrement, }); // font size is fine for the current line, switch to the next line // or finish with the font-size calculations if this we are at the end of the array } if (currentLine < textArray.length - 1) { return this.setState({ currentLine: currentLine + 1, lineToMeasure: textArray[currentLine + 1], }); } return this.setState({ fontSizeDirection: 0, currentLine: 0, lineToMeasure: textArray[0], }); } } // next block is executed when we finally found a proper font size // finding the biggest width and height of the left and right strings, // max real line height and max width value for 1 digit let maxLeftWidth = 0; let maxRightWidth = 0; maxLineHeight = 0; for (let i = 0; i < textArray.length; i += 1) { const key = `${annotation.id}_key_${i}`; const percent = `${annotation.id}_percent_${i}`; const keySizes = this[key].getBBox(); const percSizes = this[percent].getBBox(); if (keySizes.width > maxLeftWidth) { maxLeftWidth = keySizes.width; } if (percSizes.width > maxRightWidth) { maxRightWidth = percSizes.width; } if (keySizes.height > maxLineHeight) { maxLineHeight = keySizes.height; } if (percSizes.height > maxLineHeight) { maxLineHeight = percSizes.height; } } const digitRef = `${annotation.id}_digit`; const maxDigitWidth = this[digitRef].getBBox().width; const maxDigitHeight = this[digitRef].getBBox().height; return this.setState({ maxLeftWidth, maxRightWidth, maxLineHeight, maxDigitWidth, maxDigitHeight, prepareToDisplay: false, }); } renderPoll() { const { backgroundColor, calcFontSize, innerRect, maxDigitHeight, maxDigitWidth, maxLeftWidth, maxLineHeight, maxNumVotes, maxRightWidth, outerRect, textArray, thickness, } = this.state; const { annotation, intl } = this.props; const { pollAnswerIds } = PollService; const isRTL = document.documentElement.getAttribute('dir') === 'rtl'; //* ******************************************************************************************** //* *****************************************MAGIC NUMBER*************************************** // There is no automatic vertical centering in SVG. // To center the text element we have to move it down by the half of its height. // But every text element has its own padding by default. The height we receive // by calling getBBox() includes padding, but the anchor point doesn't consider it. // This way the text element is moved down a little bit and we have to move it up a bit. // 1/6 of the maximum height of the digit seems to work fine. // Oleksandr Zhurbenko. June 22, 2016 const magicNumber = maxDigitHeight / 6; // maximum height and width of the line bar const maxBarWidth = ((innerRect.width * 0.9) - maxLeftWidth) - maxRightWidth; const barHeight = (innerRect.height * 0.75) / textArray.length; // Horizontal padding const horizontalPadding = (innerRect.width * 0.1) / 4; // Vertical padding const verticalPadding = (innerRect.height * 0.25) / (textArray.length + 1); // Initial coordinates of the key column let yLeft = ((innerRect.y + verticalPadding) + (barHeight / 2)) - magicNumber; const xLeft = (innerRect.x + horizontalPadding) + 1; // Initial coordinates of the line bar column const xBar = (innerRect.x + maxLeftWidth) + (horizontalPadding * 2); let yBar = innerRect.y + verticalPadding; // Initial coordinates of the percentage column let yRight = ((innerRect.y + verticalPadding) + (barHeight / 2)) - magicNumber; const xRight = ((((innerRect.x + (horizontalPadding * 3)) + maxLeftWidth) + maxRightWidth) + maxBarWidth + 1); let yNumVotes = (innerRect.y + verticalPadding) - magicNumber; const extendedTextArray = []; for (let i = 0; i < textArray.length; i += 1) { let barWidth; if (maxNumVotes === 0 || annotation.result[i].numVotes === 0) { barWidth = 1; } else { barWidth = (annotation.result[i].numVotes / maxNumVotes) * maxBarWidth; } let label = textArray[i][0]; const formattedMessageIndex = label.toLowerCase(); if (pollAnswerIds[formattedMessageIndex]) { label = intl.formatMessage(pollAnswerIds[formattedMessageIndex]); } // coordinates and color of the text inside the line bar // xNumVotesDefault and xNumVotesMovedRight are 2 different x coordinates for the text // since if the line bar is too small then we place the number to the right of the bar const xNumVotesDefault = (innerRect.x + maxLeftWidth) + (horizontalPadding * 2); const xNumVotesMovedRight = (xNumVotesDefault + (barWidth / 2)) + (maxDigitWidth / 2); let xNumVotes; let color; if (barWidth < maxDigitWidth + 8) { xNumVotes = xNumVotesMovedRight; color = '#333333'; } else { xNumVotes = xNumVotesDefault; color = 'white'; } extendedTextArray[i] = { key: `${annotation.id}_${textArray[i][3]}`, keyColumn: { keyString: label, xLeft, yLeft, }, barColumn: { votesString: textArray[i][1], xBar, yBar, barWidth, barHeight, yNumVotes, xNumVotes, color, numVotes: annotation.result[i].numVotes, }, percentColumn: { xRight, yRight, percentString: textArray[i][2], }, }; // changing the Y coordinate for all the objects yBar = yBar + barHeight + verticalPadding; yLeft = yLeft + barHeight + verticalPadding; yRight = yRight + barHeight + verticalPadding; yNumVotes = yNumVotes + barHeight + verticalPadding; } return ( {extendedTextArray.map(line => ( {line.keyColumn.keyString} ))} {extendedTextArray.map(line => ( ))} {extendedTextArray.map(line => ( {line.percentColumn.percentString} ))} {extendedTextArray.map(line => ( {line.barColumn.numVotes} ))} ); } renderLine(line) { // this func just renders the strings for one line const { calcFontSize } = this.state; const { annotation } = this.props; return ( { this[`${annotation.id}_key_${line[3]}`] = ref; }} > {line[0]} { this[`${annotation.id}_votes_${line[3]}`] = ref; }} > {line[1]} { this[`${annotation.id}_percent_${line[3]}`] = ref; }} > {line[2]} ); } renderTestStrings() { const { annotation } = this.props; const { calcFontSize, fontSizeDirection, lineToMeasure, textArray, } = this.state; // check whether we need to render just one line, which means that // we are still calculating the font-size // or if we finished with the font-size and we need to render all the strings in order to // determine the maxHeight, maxWidth and maxDigitWidth if (fontSizeDirection !== 0) { return this.renderLine(lineToMeasure); } return ( {textArray.map(line => this.renderLine(line))} { this[`${annotation.id}_digit`] = ref; }} > 0 ); } render() { const { intl } = this.props; const { prepareToDisplay, textArray } = this.state; let ariaResultLabel = `${intl.formatMessage(intlMessages.pollResultAria)}: `; textArray.map((t, idx) => { const pollLine = t.slice(0, -1); ariaResultLabel += `${idx > 0 ? ' |' : ''} ${pollLine.join(' | ')}`; }); return ( {prepareToDisplay ? this.renderTestStrings() : this.renderPoll() } ); } } export default injectIntl(PollDrawComponent); PollDrawComponent.propTypes = { intl: intlShape.isRequired, // Defines an annotation object, which contains all the basic info we need to draw a line annotation: PropTypes.shape({ id: PropTypes.string.isRequired, points: PropTypes.arrayOf(PropTypes.number).isRequired, result: PropTypes.arrayOf( PropTypes.shape({ id: PropTypes.number.isRequired, key: PropTypes.string.isRequired, numVotes: PropTypes.number.isRequired, }), ).isRequired, }).isRequired, // Defines the width of the slide (svg coordinate system), which needed in calculations slideWidth: PropTypes.number.isRequired, // Defines the height of the slide (svg coordinate system), which needed in calculations slideHeight: PropTypes.number.isRequired, };