"use strict"; function _createForOfIteratorHelperLoose(o) { var i = 0; if (typeof Symbol === "undefined" || o[Symbol.iterator] == null) { if (Array.isArray(o) || (o = _unsupportedIterableToArray(o))) return function () { if (i >= o.length) return { done: true }; return { done: false, value: o[i++] }; }; throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } i = o[Symbol.iterator](); return i.next.bind(i); } function _unsupportedIterableToArray(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen); } function _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; } var parser = require('postcss-value-parser'); var list = require('postcss').list; var uniq = require('../utils').uniq; var escapeRegexp = require('../utils').escapeRegexp; var splitSelector = require('../utils').splitSelector; function convert(value) { if (value && value.length === 2 && value[0] === 'span' && parseInt(value[1], 10) > 0) { return [false, parseInt(value[1], 10)]; } if (value && value.length === 1 && parseInt(value[0], 10) > 0) { return [parseInt(value[0], 10), false]; } return [false, false]; } function translate(values, startIndex, endIndex) { var startValue = values[startIndex]; var endValue = values[endIndex]; if (!startValue) { return [false, false]; } var _convert = convert(startValue), start = _convert[0], spanStart = _convert[1]; var _convert2 = convert(endValue), end = _convert2[0], spanEnd = _convert2[1]; if (start && !endValue) { return [start, false]; } if (spanStart && end) { return [end - spanStart, spanStart]; } if (start && spanEnd) { return [start, spanEnd]; } if (start && end) { return [start, end - start]; } return [false, false]; } function parse(decl) { var node = parser(decl.value); var values = []; var current = 0; values[current] = []; for (var _iterator = _createForOfIteratorHelperLoose(node.nodes), _step; !(_step = _iterator()).done;) { var i = _step.value; if (i.type === 'div') { current += 1; values[current] = []; } else if (i.type === 'word') { values[current].push(i.value); } } return values; } function insertDecl(decl, prop, value) { if (value && !decl.parent.some(function (i) { return i.prop === "-ms-" + prop; })) { decl.cloneBefore({ prop: "-ms-" + prop, value: value.toString() }); } } // Track transforms function prefixTrackProp(_ref) { var prop = _ref.prop, prefix = _ref.prefix; return prefix + prop.replace('template-', ''); } function transformRepeat(_ref2, _ref3) { var nodes = _ref2.nodes; var gap = _ref3.gap; var _nodes$reduce = nodes.reduce(function (result, node) { if (node.type === 'div' && node.value === ',') { result.key = 'size'; } else { result[result.key].push(parser.stringify(node)); } return result; }, { key: 'count', size: [], count: [] }), count = _nodes$reduce.count, size = _nodes$reduce.size; // insert gap values if (gap) { var _ret = function () { size = size.filter(function (i) { return i.trim(); }); var val = []; var _loop = function _loop(i) { size.forEach(function (item, index) { if (index > 0 || i > 1) { val.push(gap); } val.push(item); }); }; for (var i = 1; i <= count; i++) { _loop(i); } return { v: val.join(' ') }; }(); if (typeof _ret === "object") return _ret.v; } return "(" + size.join('') + ")[" + count.join('') + "]"; } function prefixTrackValue(_ref4) { var value = _ref4.value, gap = _ref4.gap; var result = parser(value).nodes.reduce(function (nodes, node) { if (node.type === 'function' && node.value === 'repeat') { return nodes.concat({ type: 'word', value: transformRepeat(node, { gap: gap }) }); } if (gap && node.type === 'space') { return nodes.concat({ type: 'space', value: ' ' }, { type: 'word', value: gap }, node); } return nodes.concat(node); }, []); return parser.stringify(result); } // Parse grid-template-areas var DOTS = /^\.+$/; function track(start, end) { return { start: start, end: end, span: end - start }; } function getColumns(line) { return line.trim().split(/\s+/g); } function parseGridAreas(_ref5) { var rows = _ref5.rows, gap = _ref5.gap; return rows.reduce(function (areas, line, rowIndex) { if (gap.row) rowIndex *= 2; if (line.trim() === '') return areas; getColumns(line).forEach(function (area, columnIndex) { if (DOTS.test(area)) return; if (gap.column) columnIndex *= 2; if (typeof areas[area] === 'undefined') { areas[area] = { column: track(columnIndex + 1, columnIndex + 2), row: track(rowIndex + 1, rowIndex + 2) }; } else { var _areas$area = areas[area], column = _areas$area.column, row = _areas$area.row; column.start = Math.min(column.start, columnIndex + 1); column.end = Math.max(column.end, columnIndex + 2); column.span = column.end - column.start; row.start = Math.min(row.start, rowIndex + 1); row.end = Math.max(row.end, rowIndex + 2); row.span = row.end - row.start; } }); return areas; }, {}); } // Parse grid-template function testTrack(node) { return node.type === 'word' && /^\[.+]$/.test(node.value); } function verifyRowSize(result) { if (result.areas.length > result.rows.length) { result.rows.push('auto'); } return result; } function parseTemplate(_ref6) { var decl = _ref6.decl, gap = _ref6.gap; var gridTemplate = parser(decl.value).nodes.reduce(function (result, node) { var type = node.type, value = node.value; if (testTrack(node) || type === 'space') return result; // area if (type === 'string') { result = verifyRowSize(result); result.areas.push(value); } // values and function if (type === 'word' || type === 'function') { result[result.key].push(parser.stringify(node)); } // divider(/) if (type === 'div' && value === '/') { result.key = 'columns'; result = verifyRowSize(result); } return result; }, { key: 'rows', columns: [], rows: [], areas: [] }); return { areas: parseGridAreas({ rows: gridTemplate.areas, gap: gap }), columns: prefixTrackValue({ value: gridTemplate.columns.join(' '), gap: gap.column }), rows: prefixTrackValue({ value: gridTemplate.rows.join(' '), gap: gap.row }) }; } // Insert parsed grid areas /** * Get an array of -ms- prefixed props and values * @param {Object} [area] area object with column and row data * @param {Boolean} [addRowSpan] should we add grid-column-row value? * @param {Boolean} [addColumnSpan] should we add grid-column-span value? * @return {Array} */ function getMSDecls(area, addRowSpan, addColumnSpan) { if (addRowSpan === void 0) { addRowSpan = false; } if (addColumnSpan === void 0) { addColumnSpan = false; } return [].concat({ prop: '-ms-grid-row', value: String(area.row.start) }, area.row.span > 1 || addRowSpan ? { prop: '-ms-grid-row-span', value: String(area.row.span) } : [], { prop: '-ms-grid-column', value: String(area.column.start) }, area.column.span > 1 || addColumnSpan ? { prop: '-ms-grid-column-span', value: String(area.column.span) } : []); } function getParentMedia(parent) { if (parent.type === 'atrule' && parent.name === 'media') { return parent; } if (!parent.parent) { return false; } return getParentMedia(parent.parent); } /** * change selectors for rules with duplicate grid-areas. * @param {Array} rules * @param {Array} templateSelectors * @return {Array} rules with changed selectors */ function changeDuplicateAreaSelectors(ruleSelectors, templateSelectors) { ruleSelectors = ruleSelectors.map(function (selector) { var selectorBySpace = list.space(selector); var selectorByComma = list.comma(selector); if (selectorBySpace.length > selectorByComma.length) { selector = selectorBySpace.slice(-1).join(''); } return selector; }); return ruleSelectors.map(function (ruleSelector) { var newSelector = templateSelectors.map(function (tplSelector, index) { var space = index === 0 ? '' : ' '; return "" + space + tplSelector + " > " + ruleSelector; }); return newSelector; }); } /** * check if selector of rules are equal * @param {Rule} ruleA * @param {Rule} ruleB * @return {Boolean} */ function selectorsEqual(ruleA, ruleB) { return ruleA.selectors.some(function (sel) { return ruleB.selectors.some(function (s) { return s === sel; }); }); } /** * Parse data from all grid-template(-areas) declarations * @param {Root} css css root * @return {Object} parsed data */ function parseGridTemplatesData(css) { var parsed = []; // we walk through every grid-template(-areas) declaration and store // data with the same area names inside the item css.walkDecls(/grid-template(-areas)?$/, function (d) { var rule = d.parent; var media = getParentMedia(rule); var gap = getGridGap(d); var inheritedGap = inheritGridGap(d, gap); var _parseTemplate = parseTemplate({ decl: d, gap: inheritedGap || gap }), areas = _parseTemplate.areas; var areaNames = Object.keys(areas); // skip node if it doesn't have areas if (areaNames.length === 0) { return true; } // check parsed array for item that include the same area names // return index of that item var index = parsed.reduce(function (acc, _ref7, idx) { var allAreas = _ref7.allAreas; var hasAreas = allAreas && areaNames.some(function (area) { return allAreas.includes(area); }); return hasAreas ? idx : acc; }, null); if (index !== null) { // index is found, add the grid-template data to that item var _parsed$index = parsed[index], allAreas = _parsed$index.allAreas, rules = _parsed$index.rules; // check if rule has no duplicate area names var hasNoDuplicates = rules.some(function (r) { return r.hasDuplicates === false && selectorsEqual(r, rule); }); var duplicatesFound = false; // check need to gather all duplicate area names var duplicateAreaNames = rules.reduce(function (acc, r) { if (!r.params && selectorsEqual(r, rule)) { duplicatesFound = true; return r.duplicateAreaNames; } if (!duplicatesFound) { areaNames.forEach(function (name) { if (r.areas[name]) { acc.push(name); } }); } return uniq(acc); }, []); // update grid-row/column-span values for areas with duplicate // area names. @see #1084 and #1146 rules.forEach(function (r) { areaNames.forEach(function (name) { var area = r.areas[name]; if (area && area.row.span !== areas[name].row.span) { areas[name].row.updateSpan = true; } if (area && area.column.span !== areas[name].column.span) { areas[name].column.updateSpan = true; } }); }); parsed[index].allAreas = uniq([].concat(allAreas, areaNames)); parsed[index].rules.push({ hasDuplicates: !hasNoDuplicates, params: media.params, selectors: rule.selectors, node: rule, duplicateAreaNames: duplicateAreaNames, areas: areas }); } else { // index is NOT found, push the new item to the parsed array parsed.push({ allAreas: areaNames, areasCount: 0, rules: [{ hasDuplicates: false, duplicateRules: [], params: media.params, selectors: rule.selectors, node: rule, duplicateAreaNames: [], areas: areas }] }); } return undefined; }); return parsed; } /** * insert prefixed grid-area declarations * @param {Root} css css root * @param {Function} isDisabled check if the rule is disabled * @return {void} */ function insertAreas(css, isDisabled) { // parse grid-template declarations var gridTemplatesData = parseGridTemplatesData(css); // return undefined if no declarations found if (gridTemplatesData.length === 0) { return undefined; } // we need to store the rules that we will insert later var rulesToInsert = {}; css.walkDecls('grid-area', function (gridArea) { var gridAreaRule = gridArea.parent; var hasPrefixedRow = gridAreaRule.first.prop === '-ms-grid-row'; var gridAreaMedia = getParentMedia(gridAreaRule); if (isDisabled(gridArea)) { return undefined; } var gridAreaRuleIndex = gridAreaMedia ? css.index(gridAreaMedia) : css.index(gridAreaRule); var value = gridArea.value; // found the data that matches grid-area identifier var data = gridTemplatesData.filter(function (d) { return d.allAreas.includes(value); })[0]; if (!data) { return true; } var lastArea = data.allAreas[data.allAreas.length - 1]; var selectorBySpace = list.space(gridAreaRule.selector); var selectorByComma = list.comma(gridAreaRule.selector); var selectorIsComplex = selectorBySpace.length > 1 && selectorBySpace.length > selectorByComma.length; // prevent doubling of prefixes if (hasPrefixedRow) { return false; } // create the empty object with the key as the last area name // e.g if we have templates with "a b c" values, "c" will be the last area if (!rulesToInsert[lastArea]) { rulesToInsert[lastArea] = {}; } var lastRuleIsSet = false; // walk through every grid-template rule data for (var _iterator2 = _createForOfIteratorHelperLoose(data.rules), _step2; !(_step2 = _iterator2()).done;) { var rule = _step2.value; var area = rule.areas[value]; var hasDuplicateName = rule.duplicateAreaNames.includes(value); // if we can't find the area name, update lastRule and continue if (!area) { var lastRuleIndex = css.index(rulesToInsert[lastArea].lastRule); if (gridAreaRuleIndex > lastRuleIndex) { rulesToInsert[lastArea].lastRule = gridAreaMedia || gridAreaRule; } continue; } // for grid-templates inside media rule we need to create empty // array to push prefixed grid-area rules later if (rule.params && !rulesToInsert[lastArea][rule.params]) { rulesToInsert[lastArea][rule.params] = []; } if ((!rule.hasDuplicates || !hasDuplicateName) && !rule.params) { // grid-template has no duplicates and not inside media rule getMSDecls(area, false, false).reverse().forEach(function (i) { return gridAreaRule.prepend(Object.assign(i, { raws: { between: gridArea.raws.between } })); }); rulesToInsert[lastArea].lastRule = gridAreaRule; lastRuleIsSet = true; } else if (rule.hasDuplicates && !rule.params && !selectorIsComplex) { (function () { // grid-template has duplicates and not inside media rule var cloned = gridAreaRule.clone(); cloned.removeAll(); getMSDecls(area, area.row.updateSpan, area.column.updateSpan).reverse().forEach(function (i) { return cloned.prepend(Object.assign(i, { raws: { between: gridArea.raws.between } })); }); cloned.selectors = changeDuplicateAreaSelectors(cloned.selectors, rule.selectors); if (rulesToInsert[lastArea].lastRule) { rulesToInsert[lastArea].lastRule.after(cloned); } rulesToInsert[lastArea].lastRule = cloned; lastRuleIsSet = true; })(); } else if (rule.hasDuplicates && !rule.params && selectorIsComplex && gridAreaRule.selector.includes(rule.selectors[0])) { // grid-template has duplicates and not inside media rule // and the selector is complex gridAreaRule.walkDecls(/-ms-grid-(row|column)/, function (d) { return d.remove(); }); getMSDecls(area, area.row.updateSpan, area.column.updateSpan).reverse().forEach(function (i) { return gridAreaRule.prepend(Object.assign(i, { raws: { between: gridArea.raws.between } })); }); } else if (rule.params) { (function () { // grid-template is inside media rule // if we're inside media rule, we need to store prefixed rules // inside rulesToInsert object to be able to preserve the order of media // rules and merge them easily var cloned = gridAreaRule.clone(); cloned.removeAll(); getMSDecls(area, area.row.updateSpan, area.column.updateSpan).reverse().forEach(function (i) { return cloned.prepend(Object.assign(i, { raws: { between: gridArea.raws.between } })); }); if (rule.hasDuplicates && hasDuplicateName) { cloned.selectors = changeDuplicateAreaSelectors(cloned.selectors, rule.selectors); } cloned.raws = rule.node.raws; if (css.index(rule.node.parent) > gridAreaRuleIndex) { // append the prefixed rules right inside media rule // with grid-template rule.node.parent.append(cloned); } else { // store the rule to insert later rulesToInsert[lastArea][rule.params].push(cloned); } // set new rule as last rule ONLY if we didn't set lastRule for // this grid-area before if (!lastRuleIsSet) { rulesToInsert[lastArea].lastRule = gridAreaMedia || gridAreaRule; } })(); } } return undefined; }); // append stored rules inside the media rules Object.keys(rulesToInsert).forEach(function (area) { var data = rulesToInsert[area]; var lastRule = data.lastRule; Object.keys(data).reverse().filter(function (p) { return p !== 'lastRule'; }).forEach(function (params) { if (data[params].length > 0 && lastRule) { lastRule.after({ name: 'media', params: params }); lastRule.next().append(data[params]); } }); }); return undefined; } /** * Warn user if grid area identifiers are not found * @param {Object} areas * @param {Declaration} decl * @param {Result} result * @return {void} */ function warnMissedAreas(areas, decl, result) { var missed = Object.keys(areas); decl.root().walkDecls('grid-area', function (gridArea) { missed = missed.filter(function (e) { return e !== gridArea.value; }); }); if (missed.length > 0) { decl.warn(result, 'Can not find grid areas: ' + missed.join(', ')); } return undefined; } /** * compare selectors with grid-area rule and grid-template rule * show warning if grid-template selector is not found * (this function used for grid-area rule) * @param {Declaration} decl * @param {Result} result * @return {void} */ function warnTemplateSelectorNotFound(decl, result) { var rule = decl.parent; var root = decl.root(); var duplicatesFound = false; // slice selector array. Remove the last part (for comparison) var slicedSelectorArr = list.space(rule.selector).filter(function (str) { return str !== '>'; }).slice(0, -1); // we need to compare only if selector is complex. // e.g '.grid-cell' is simple, but '.parent > .grid-cell' is complex if (slicedSelectorArr.length > 0) { var gridTemplateFound = false; var foundAreaSelector = null; root.walkDecls(/grid-template(-areas)?$/, function (d) { var parent = d.parent; var templateSelectors = parent.selectors; var _parseTemplate2 = parseTemplate({ decl: d, gap: getGridGap(d) }), areas = _parseTemplate2.areas; var hasArea = areas[decl.value]; // find the the matching selectors for (var _iterator3 = _createForOfIteratorHelperLoose(templateSelectors), _step3; !(_step3 = _iterator3()).done;) { var tplSelector = _step3.value; if (gridTemplateFound) { break; } var tplSelectorArr = list.space(tplSelector).filter(function (str) { return str !== '>'; }); gridTemplateFound = tplSelectorArr.every(function (item, idx) { return item === slicedSelectorArr[idx]; }); } if (gridTemplateFound || !hasArea) { return true; } if (!foundAreaSelector) { foundAreaSelector = parent.selector; } // if we found the duplicate area with different selector if (foundAreaSelector && foundAreaSelector !== parent.selector) { duplicatesFound = true; } return undefined; }); // warn user if we didn't find template if (!gridTemplateFound && duplicatesFound) { decl.warn(result, 'Autoprefixer cannot find a grid-template ' + ("containing the duplicate grid-area \"" + decl.value + "\" ") + ("with full selector matching: " + slicedSelectorArr.join(' '))); } } } /** * warn user if both grid-area and grid-(row|column) * declarations are present in the same rule * @param {Declaration} decl * @param {Result} result * @return {void} */ function warnIfGridRowColumnExists(decl, result) { var rule = decl.parent; var decls = []; rule.walkDecls(/^grid-(row|column)/, function (d) { if (!d.prop.endsWith('-end') && !d.value.startsWith('span')) { decls.push(d); } }); if (decls.length > 0) { decls.forEach(function (d) { d.warn(result, 'You already have a grid-area declaration present in the rule. ' + ("You should use either grid-area or " + d.prop + ", not both")); }); } return undefined; } // Gap utils function getGridGap(decl) { var gap = {}; // try to find gap var testGap = /^(grid-)?((row|column)-)?gap$/; decl.parent.walkDecls(testGap, function (_ref8) { var prop = _ref8.prop, value = _ref8.value; if (/^(grid-)?gap$/.test(prop)) { var _parser$nodes = parser(value).nodes, row = _parser$nodes[0], column = _parser$nodes[2]; gap.row = row && parser.stringify(row); gap.column = column ? parser.stringify(column) : gap.row; } if (/^(grid-)?row-gap$/.test(prop)) gap.row = value; if (/^(grid-)?column-gap$/.test(prop)) gap.column = value; }); return gap; } /** * parse media parameters (for example 'min-width: 500px') * @param {String} params parameter to parse * @return {} */ function parseMediaParams(params) { if (!params) { return false; } var parsed = parser(params); var prop; var value; parsed.walk(function (node) { if (node.type === 'word' && /min|max/g.test(node.value)) { prop = node.value; } else if (node.value.includes('px')) { value = parseInt(node.value.replace(/\D/g, '')); } }); return [prop, value]; } /** * Compare the selectors and decide if we * need to inherit gap from compared selector or not. * @type {String} selA * @type {String} selB * @return {Boolean} */ function shouldInheritGap(selA, selB) { var result; // get arrays of selector split in 3-deep array var splitSelectorArrA = splitSelector(selA); var splitSelectorArrB = splitSelector(selB); if (splitSelectorArrA[0].length < splitSelectorArrB[0].length) { // abort if selectorA has lower descendant specificity then selectorB // (e.g '.grid' and '.hello .world .grid') return false; } else if (splitSelectorArrA[0].length > splitSelectorArrB[0].length) { // if selectorA has higher descendant specificity then selectorB // (e.g '.foo .bar .grid' and '.grid') var idx = splitSelectorArrA[0].reduce(function (res, _ref9, index) { var item = _ref9[0]; var firstSelectorPart = splitSelectorArrB[0][0][0]; if (item === firstSelectorPart) { return index; } return false; }, false); if (idx) { result = splitSelectorArrB[0].every(function (arr, index) { return arr.every(function (part, innerIndex) { return (// because selectorA has more space elements, we need to slice // selectorA array by 'idx' number to compare them splitSelectorArrA[0].slice(idx)[index][innerIndex] === part ); }); }); } } else { // if selectorA has the same descendant specificity as selectorB // this condition covers cases such as: '.grid.foo.bar' and '.grid' result = splitSelectorArrB.some(function (byCommaArr) { return byCommaArr.every(function (bySpaceArr, index) { return bySpaceArr.every(function (part, innerIndex) { return splitSelectorArrA[0][index][innerIndex] === part; }); }); }); } return result; } /** * inherit grid gap values from the closest rule above * with the same selector * @param {Declaration} decl * @param {Object} gap gap values * @return {Object | Boolean} return gap values or false (if not found) */ function inheritGridGap(decl, gap) { var rule = decl.parent; var mediaRule = getParentMedia(rule); var root = rule.root(); // get an array of selector split in 3-deep array var splitSelectorArr = splitSelector(rule.selector); // abort if the rule already has gaps if (Object.keys(gap).length > 0) { return false; } // e.g ['min-width'] var _parseMediaParams = parseMediaParams(mediaRule.params), prop = _parseMediaParams[0]; var lastBySpace = splitSelectorArr[0]; // get escaped value from the selector // if we have '.grid-2.foo.bar' selector, will be '\.grid\-2' var escaped = escapeRegexp(lastBySpace[lastBySpace.length - 1][0]); var regexp = new RegExp("(" + escaped + "$)|(" + escaped + "[,.])"); // find the closest rule with the same selector var closestRuleGap; root.walkRules(regexp, function (r) { var gridGap; // abort if are checking the same rule if (rule.toString() === r.toString()) { return false; } // find grid-gap values r.walkDecls('grid-gap', function (d) { return gridGap = getGridGap(d); }); // skip rule without gaps if (!gridGap || Object.keys(gridGap).length === 0) { return true; } // skip rules that should not be inherited from if (!shouldInheritGap(rule.selector, r.selector)) { return true; } var media = getParentMedia(r); if (media) { // if we are inside media, we need to check that media props match // e.g ('min-width' === 'min-width') var propToCompare = parseMediaParams(media.params)[0]; if (propToCompare === prop) { closestRuleGap = gridGap; return true; } } else { closestRuleGap = gridGap; return true; } return undefined; }); // if we find the closest gap object if (closestRuleGap && Object.keys(closestRuleGap).length > 0) { return closestRuleGap; } return false; } function warnGridGap(_ref10) { var gap = _ref10.gap, hasColumns = _ref10.hasColumns, decl = _ref10.decl, result = _ref10.result; var hasBothGaps = gap.row && gap.column; if (!hasColumns && (hasBothGaps || gap.column && !gap.row)) { delete gap.column; decl.warn(result, 'Can not implement grid-gap without grid-template-columns'); } } /** * normalize the grid-template-rows/columns values * @param {String} str grid-template-rows/columns value * @return {Array} normalized array with values * @example * let normalized = normalizeRowColumn('1fr repeat(2, 20px 50px) 1fr') * normalized // <= ['1fr', '20px', '50px', '20px', '50px', '1fr'] */ function normalizeRowColumn(str) { var normalized = parser(str).nodes.reduce(function (result, node) { if (node.type === 'function' && node.value === 'repeat') { var key = 'count'; var _node$nodes$reduce = node.nodes.reduce(function (acc, n) { if (n.type === 'word' && key === 'count') { acc[0] = Math.abs(parseInt(n.value)); return acc; } if (n.type === 'div' && n.value === ',') { key = 'value'; return acc; } if (key === 'value') { acc[1] += parser.stringify(n); } return acc; }, [0, '']), count = _node$nodes$reduce[0], value = _node$nodes$reduce[1]; if (count) { for (var i = 0; i < count; i++) { result.push(value); } } return result; } if (node.type === 'space') { return result; } return result.concat(parser.stringify(node)); }, []); return normalized; } /** * Autoplace grid items * @param {Declaration} decl * @param {Result} result * @param {Object} gap gap values * @param {String} autoflowValue grid-auto-flow value * @return {void} * @see https://github.com/postcss/autoprefixer/issues/1148 */ function autoplaceGridItems(decl, result, gap, autoflowValue) { if (autoflowValue === void 0) { autoflowValue = 'row'; } var parent = decl.parent; var rowDecl = parent.nodes.find(function (i) { return i.prop === 'grid-template-rows'; }); var rows = normalizeRowColumn(rowDecl.value); var columns = normalizeRowColumn(decl.value); // Build array of area names with dummy values. If we have 3 columns and // 2 rows, filledRows will be equal to ['1 2 3', '4 5 6'] var filledRows = rows.map(function (_, rowIndex) { return Array.from({ length: columns.length }, function (v, k) { return k + rowIndex * columns.length + 1; }).join(' '); }); var areas = parseGridAreas({ rows: filledRows, gap: gap }); var keys = Object.keys(areas); var items = keys.map(function (i) { return areas[i]; }); // Change the order of cells if grid-auto-flow value is 'column' if (autoflowValue.includes('column')) { items = items.sort(function (a, b) { return a.column.start - b.column.start; }); } // Insert new rules items.reverse().forEach(function (item, index) { var column = item.column, row = item.row; var nodeSelector = parent.selectors.map(function (sel) { return sel + (" > *:nth-child(" + (keys.length - index) + ")"); }).join(', '); // create new rule var node = parent.clone().removeAll(); // change rule selector node.selector = nodeSelector; // insert prefixed row/column values node.append({ prop: '-ms-grid-row', value: row.start }); node.append({ prop: '-ms-grid-column', value: column.start }); // insert rule parent.after(node); }); return undefined; } module.exports = { parse: parse, translate: translate, parseTemplate: parseTemplate, parseGridAreas: parseGridAreas, warnMissedAreas: warnMissedAreas, insertAreas: insertAreas, insertDecl: insertDecl, prefixTrackProp: prefixTrackProp, prefixTrackValue: prefixTrackValue, getGridGap: getGridGap, warnGridGap: warnGridGap, warnTemplateSelectorNotFound: warnTemplateSelectorNotFound, warnIfGridRowColumnExists: warnIfGridRowColumnExists, inheritGridGap: inheritGridGap, autoplaceGridItems: autoplaceGridItems };