帮助函数
本文包含 M 扩展中常用的许多帮助程序函数。 这些函数最终可能会移到官方 M 库中,但现在可以复制到扩展文件代码中。 不应在扩展代码中将任何函数标记为 shared
。
此函数添加扩展所需的表类型元数据,以返回 Power Query 可识别为导航树的表值。 有关详细信息,请参阅导航表。
Table.ToNavigationTable = (
table as table,
keyColumns as list,
nameColumn as text,
dataColumn as text,
itemKindColumn as text,
itemNameColumn as text,
isLeafColumn as text
) as table =>
let
tableType = Value.Type(table),
newTableType = Type.AddTableKey(tableType, keyColumns, true) meta
[
NavigationTable.NameColumn = nameColumn,
NavigationTable.DataColumn = dataColumn,
NavigationTable.ItemKindColumn = itemKindColumn,
Preview.DelayColumn = itemNameColumn,
NavigationTable.IsLeafColumn = isLeafColumn
],
navigationTable = Value.ReplaceType(table, newTableType)
in
navigationTable;
参数 | 详细信息 |
---|---|
table | 导航表。 |
keyColumns | 充当导航表主键的列名的列表。 |
nameColumn | 应在导航器中用作显示名称的列的名称。 |
dataColumn | 包含要显示的表或函数的列的名称。 |
itemKindColumn | 用于确定要显示的图标类型的列的名称。 处理导航文章中列出了列的有效值。 |
itemNameColumn | 用于确定要显示的工具提示类型的列的名称。 此列的有效值为 Table 和 Function 。 |
isLeafColumn | 用于确定这是否是叶节点或者节点能否展开以包含其他导航表的列的名称。 |
示例用法:
shared MyExtension.Contents = () =>
let
objects = #table(
{"Name", "Key", "Data", "ItemKind", "ItemName", "IsLeaf"},{
{"Item1", "item1", #table({"Column1"}, {{"Item1"}}), "Table", "Table", true},
{"Item2", "item2", #table({"Column1"}, {{"Item2"}}), "Table", "Table", true},
{"Item3", "item3", FunctionCallThatReturnsATable(), "Table", "Table", true},
{"MyFunction", "myfunction", AnotherFunction.Contents(), "Function", "Function", true}
}),
NavTable = Table.ToNavigationTable(objects, {"Key"}, "Name", "Data", "ItemKind", "ItemName", "IsLeaf")
in
NavTable;
此函数根据记录中的单个字段构造完整的 URL。 它充当 Uri.Parts 的反向操作。
Uri.FromParts = (parts) =>
let
port = if (parts[Scheme] = "https" and parts[Port] = 443) or (parts[Scheme] = "http" and parts[Port] = 80) then "" else ":" & Text.From(parts[Port]),
div1 = if Record.FieldCount(parts[Query]) > 0 then "?" else "",
div2 = if Text.Length(parts[Fragment]) > 0 then "#" else "",
uri = Text.Combine({parts[Scheme], "://", parts[Host], port, parts[Path], div1, Uri.BuildQueryString(parts[Query]), div2, parts[Fragment]})
in
uri;
此函数返回给定 URL 的方案、主机和默认端口(适用于 HTTP/HTTPS)。 例如,https://bing.com/subpath/query?param=1¶m2=hello
将变为 https://bing.com:443
。
这对于生成 ResourcePath
特别有用。
Uri.GetHost = (url) =>
let
parts = Uri.Parts(url),
port = if (parts[Scheme] = "https" and parts[Port] = 443) or (parts[Scheme] = "http" and parts[Port] = 80) then "" else ":" & Text.From(parts[Port])
in
parts[Scheme] & "://" & parts[Host] & port;
此函数检查用户是否曾输入 HTTPS URL,如果未输入,则会引发错误。 用户必须为认证的连接器输入 URL。
ValidateUrlScheme = (url as text) as text => if (Uri.Parts(url)[Scheme] <> "https") then error "Url scheme must be HTTPS" else url;
若要应用它,只需在数据访问函数中包装 url
参数。
DataAccessFunction = (url as text) as table =>
let
_url = ValidateUrlScheme(url),
source = Web.Contents(_url)
in
source;
发出异步 HTTP 请求并且需要在请求完成之前轮询服务器时,此函数非常有用。
Value.WaitFor = (producer as function, interval as function, optional count as number) as any =>
let
list = List.Generate(
() => {0, null},
(state) => state{0} <> null and (count = null or state{0} < count),
(state) => if state{1} <> null then {null, state{1}} else {1 + state{0}, Function.InvokeAfter(() => producer(state{0}), interval(state{0}))},
(state) => state{1})
in
List.Last(list);
当 API 以增量/分页格式返回数据(这对于许多 REST API 很常见)时,会使用此函数。 getNextPage
参数是一个采用单参数的函数,该单参数将是上一次调用 getNextPage
的结果,并且应返回 nullable table
。
getNextPage = (lastPage) as nullable table => ...;
系统将重复调用 getNextPage
,直到返回 null
为止。 该函数会将所有页面整理到一个表中。 当首次调用 getNextPage
的结果为 null 时,将返回空表。
// The getNextPage function takes a single argument and is expected to return a nullable table
Table.GenerateByPage = (getNextPage as function) as table =>
let
listOfPages = List.Generate(
() => getNextPage(null), // get the first page of data
(lastPage) => lastPage <> null, // stop when the function returns null
(lastPage) => getNextPage(lastPage) // pass the previous page to the next function call
),
// concatenate the pages together
tableOfPages = Table.FromList(listOfPages, Splitter.SplitByNothing(), {"Column1"}),
firstRow = tableOfPages{0}?
in
// if we didn't get back any pages of data, return an empty table
// otherwise set the table type based on the columns of the first page
if (firstRow = null) then
Table.FromRows({})
// check for empty first table
else if (Table.IsEmpty(firstRow[Column1])) then
firstRow[Column1]
else
Value.ReplaceType(
Table.ExpandTableColumn(tableOfPages, "Column1", Table.ColumnNames(firstRow[Column1])),
Value.Type(firstRow[Column1])
);
补充说明:
getNextPage
函数需要检索下一页 URL(或页码,或任何用于实现分页逻辑的其他值)。 此过程通常会通过在返回页面之前向页面添加meta
值来完成。- 组合表(即所有页面)的列和表类型都派生自第一页数据。 此
getNextPage
函数应规范化每页数据。 - 首次调用
getNextPage
将接收 null 参数。 - 如果没有剩余页,则
getNextPage
必须返回 null。
有关使用此函数的示例,可参阅 Github 示例和 TripPin 分页示例。
Github.PagedTable = (url as text) => Table.GenerateByPage((previous) =>
let
// If we have a previous page, get its Next link from metadata on the page.
next = if (previous <> null) then Value.Metadata(previous)[Next] else null,
// If we have a next link, use it, otherwise use the original URL that was passed in.
urlToUse = if (next <> null) then next else url,
// If we have a previous page, but don't have a next link, then we're done paging.
// Otherwise retrieve the next page.
current = if (previous <> null and next = null) then null else Github.Contents(urlToUse),
// If we got data back from the current page, get the link for the next page
link = if (current <> null) then Value.Metadata(current)[Next] else null
in
current meta [Next=link]);
EnforceSchema.Strict = 1; // Add any missing columns, remove extra columns, set table type
EnforceSchema.IgnoreExtraColumns = 2; // Add missing columns, don't remove extra columns
EnforceSchema.IgnoreMissingColumns = 3; // Don't add or remove columns
SchemaTransformTable = (table as table, schema as table, optional enforceSchema as number) as table =>
let
// Default to EnforceSchema.Strict
_enforceSchema = if (enforceSchema <> null) then enforceSchema else EnforceSchema.Strict,
// Applies type transforms to a given table
EnforceTypes = (table as table, schema as table) as table =>
let
map = (t) => if Type.Is(t, type list) or Type.Is(t, type record) or t = type any then null else t,
mapped = Table.TransformColumns(schema, {"Type", map}),
omitted = Table.SelectRows(mapped, each [Type] <> null),
existingColumns = Table.ColumnNames(table),
removeMissing = Table.SelectRows(omitted, each List.Contains(existingColumns, [Name])),
primativeTransforms = Table.ToRows(removeMissing),
changedPrimatives = Table.TransformColumnTypes(table, primativeTransforms)
in
changedPrimatives,
// Returns the table type for a given schema
SchemaToTableType = (schema as table) as type =>
let
toList = List.Transform(schema[Type], (t) => [Type=t, Optional=false]),
toRecord = Record.FromList(toList, schema[Name]),
toType = Type.ForRecord(toRecord, false)
in
type table (toType),
// Determine if we have extra/missing columns.
// The enforceSchema parameter determines what we do about them.
schemaNames = schema[Name],
foundNames = Table.ColumnNames(table),
addNames = List.RemoveItems(schemaNames, foundNames),
extraNames = List.RemoveItems(foundNames, schemaNames),
tmp = Text.NewGuid(),
added = Table.AddColumn(table, tmp, each []),
expanded = Table.ExpandRecordColumn(added, tmp, addNames),
result = if List.IsEmpty(addNames) then table else expanded,
fullList =
if (_enforceSchema = EnforceSchema.Strict) then
schemaNames
else if (_enforceSchema = EnforceSchema.IgnoreMissingColumns) then
foundNames
else
schemaNames & extraNames,
// Select the final list of columns.
// These are ordered according to the schema table.
reordered = Table.SelectColumns(result, fullList, MissingField.Ignore),
enforcedTypes = EnforceTypes(reordered, schema),
withType = if (_enforceSchema = EnforceSchema.Strict) then Value.ReplaceType(enforcedTypes, SchemaToTableType(schema)) else enforcedTypes
in
withType;
let
// table should be an actual Table.Type, or a List.Type of Records
Table.ChangeType = (table, tableType as type) as nullable table =>
// we only operate on table types
if (not Type.Is(tableType, type table)) then error "type argument should be a table type" else
// if we have a null value, just return it
if (table = null) then table else
let
columnsForType = Type.RecordFields(Type.TableRow(tableType)),
columnsAsTable = Record.ToTable(columnsForType),
schema = Table.ExpandRecordColumn(columnsAsTable, "Value", {"Type"}, {"Type"}),
previousMeta = Value.Metadata(tableType),
// make sure we have a table
parameterType = Value.Type(table),
_table =
if (Type.Is(parameterType, type table)) then table
else if (Type.Is(parameterType, type list)) then
let
asTable = Table.FromList(table, Splitter.SplitByNothing(), {"Column1"}),
firstValueType = Value.Type(Table.FirstValue(asTable, null)),
result =
// if the member is a record (as expected), then expand it.
if (Type.Is(firstValueType, type record)) then
Table.ExpandRecordColumn(asTable, "Column1", schema[Name])
else
error Error.Record("Error.Parameter", "table argument is a list, but not a list of records", [ ValueType = firstValueType ])
in
if (List.IsEmpty(table)) then
#table({"a"}, {})
else result
else
error Error.Record("Error.Parameter", "table argument should be a table or list of records", [ValueType = parameterType]),
reordered = Table.SelectColumns(_table, schema[Name], MissingField.UseNull),
// process primitive values - this calls Table.TransformColumnTypes
map = (t) => if Type.Is(t, type table) or Type.Is(t, type list) or Type.Is(t, type record) or t = type any then null else t,
mapped = Table.TransformColumns(schema, {"Type", map}),
omitted = Table.SelectRows(mapped, each [Type] <> null),
existingColumns = Table.ColumnNames(reordered),
removeMissing = Table.SelectRows(omitted, each List.Contains(existingColumns, [Name])),
primativeTransforms = Table.ToRows(removeMissing),
changedPrimatives = Table.TransformColumnTypes(reordered, primativeTransforms),
// Get the list of transforms we use for Record types
recordColumns = Table.SelectRows(schema, each Type.Is([Type], type record)),
recordTypeTransformations = Table.AddColumn(recordColumns, "RecordTransformations", each (r) => Record.ChangeType(r, [Type]), type function),
recordChanges = Table.ToRows(Table.SelectColumns(recordTypeTransformations, {"Name", "RecordTransformations"})),
// Get the list of transforms we use for List types
listColumns = Table.SelectRows(schema, each Type.Is([Type], type list)),
listTransforms = Table.AddColumn(listColumns, "ListTransformations", each (t) => List.ChangeType(t, [Type]), Function.Type),
listChanges = Table.ToRows(Table.SelectColumns(listTransforms, {"Name", "ListTransformations"})),
// Get the list of transforms we use for Table types
tableColumns = Table.SelectRows(schema, each Type.Is([Type], type table)),
tableTransforms = Table.AddColumn(tableColumns, "TableTransformations", each (t) => @Table.ChangeType(t, [Type]), Function.Type),
tableChanges = Table.ToRows(Table.SelectColumns(tableTransforms, {"Name", "TableTransformations"})),
// Perform all of our transformations
allColumnTransforms = recordChanges & listChanges & tableChanges,
changedRecordTypes = if (List.IsEmpty(allColumnTransforms)) then changedPrimatives else Table.TransformColumns(changedPrimatives, allColumnTransforms, null, MissingField.Ignore),
// set final type
withType = Value.ReplaceType(changedRecordTypes, tableType)
in
if (List.IsEmpty(Record.FieldNames(columnsForType))) then table else withType meta previousMeta,
// If given a generic record type (no predefined fields), the original record is returned
Record.ChangeType = (record as record, recordType as type) =>
let
// record field format is [ fieldName = [ Type = type, Optional = logical], ... ]
fields = try Type.RecordFields(recordType) otherwise error "Record.ChangeType: failed to get record fields. Is this a record type?",
fieldNames = Record.FieldNames(fields),
fieldTable = Record.ToTable(fields),
optionalFields = Table.SelectRows(fieldTable, each [Value][Optional])[Name],
requiredFields = List.Difference(fieldNames, optionalFields),
// make sure all required fields exist
withRequired = Record.SelectFields(record, requiredFields, MissingField.UseNull),
// append optional fields
withOptional = withRequired & Record.SelectFields(record, optionalFields, MissingField.Ignore),
// set types
transforms = GetTransformsForType(recordType),
withTypes = Record.TransformFields(withOptional, transforms, MissingField.Ignore),
// order the same as the record type
reorder = Record.ReorderFields(withTypes, fieldNames, MissingField.Ignore)
in
if (List.IsEmpty(fieldNames)) then record else reorder,
List.ChangeType = (list as list, listType as type) =>
if (not Type.Is(listType, type list)) then error "type argument should be a list type" else
let
listItemType = Type.ListItem(listType),
transform = GetTransformByType(listItemType),
modifiedValues = List.Transform(list, transform),
typed = Value.ReplaceType(modifiedValues, listType)
in
typed,
// Returns a table type for the provided schema table
Schema.ToTableType = (schema as table) as type =>
let
toList = List.Transform(schema[Type], (t) => [Type=t, Optional=false]),
toRecord = Record.FromList(toList, schema[Name]),
toType = Type.ForRecord(toRecord, false),
previousMeta = Value.Metadata(schema)
in
type table (toType) meta previousMeta,
// Returns a list of transformations that can be passed to Table.TransformColumns, or Record.TransformFields
// Format: {"Column", (f) => ...} .... ex: {"A", Number.From}
GetTransformsForType = (_type as type) as list =>
let
fieldsOrColumns = if (Type.Is(_type, type record)) then Type.RecordFields(_type)
else if (Type.Is(_type, type table)) then Type.RecordFields(Type.TableRow(_type))
else error "GetTransformsForType: record or table type expected",
toTable = Record.ToTable(fieldsOrColumns),
transformColumn = Table.AddColumn(toTable, "Transform", each GetTransformByType([Value][Type]), Function.Type),
transformMap = Table.ToRows(Table.SelectColumns(transformColumn, {"Name", "Transform"}))
in
transformMap,
GetTransformByType = (_type as type) as function =>
if (Type.Is(_type, type number)) then Number.From
else if (Type.Is(_type, type text)) then Text.From
else if (Type.Is(_type, type date)) then Date.From
else if (Type.Is(_type, type datetime)) then DateTime.From
else if (Type.Is(_type, type duration)) then Duration.From
else if (Type.Is(_type, type datetimezone)) then DateTimeZone.From
else if (Type.Is(_type, type logical)) then Logical.From
else if (Type.Is(_type, type time)) then Time.From
else if (Type.Is(_type, type record)) then (t) => if (t <> null) then @Record.ChangeType(t, _type) else t
else if (Type.Is(_type, type table)) then (t) => if (t <> null) then @Table.ChangeType(t, _type) else t
else if (Type.Is(_type, type list)) then (t) => if (t <> null) then @List.ChangeType(t, _type) else t
else (t) => t
in
Table.ChangeType