úÎ::8Æ     NoneC BThis is the most primitive and essential operation for building a 1. All other table-building functions (such as , , and  ) build on top of H. One common trend in the convenience functions is that they accept ÿ¢ as the table header. This is done because I have found that it is uncommon to need the full power of HTML in the header. Just know that if you need it, this function is the only way to get it. The first argument is a widget that is the content to be displayed in the table header. The second argument is the a function that consumes a value to produce the content shown in a row of the table body. This is the same as <, with the convenience of accepting the table header as . Identical to B, with the convenience of accepting the table cell content as .  Identical to B, with the convenience of accepting the table cell content as .  Identical to B, with the convenience of accepting the table cell content as . ›Convenience function for building a plaintext link where the link text and the route are determined by the row of data. If you are working with an Entity (from  persistent() and your foundation type is named App" you may want something like this: §myTable :: Table App (Entity Foo) myTable = mempty <> Table.linked "Name" (fooName . entityVal) (FooEditR . entityKey) <> Table.int "Size" (fooSize . entityVal)|This is the blueprint for a two-column table. The first column is a link for editing the Foo, and the linked text is the FooJ name. The second column is just a number representing the size of the Foo shown as plaintext.  Prevents showing values in a # if a condition is not met. Example “myTable :: Table App Person myTable = mempty <> Table.text "Name" personName <> Table.when (\p -> personAge p > 21) (Table.int "Age" personAge)ÊIn this example, the table header Age will always show up with its corresponding column, but any row for a person under 21 will have a empty value for that column. The effect can be more profound: ÿ7myTable :: Table App Person myTable = mempty <> Table.text "Name" personName <> Table.when (\p -> personAge p > 21) (mempty <> Table.text "Favorite Color" personFavoriteColor <> Table.text "Address" personAddress <> Table.linked "Profile Page" (const "Profile") (ProfileR . personUsername) )âThis second example does not show information for any of the last three columns if the person is under 21. The columns themselves though are always present regardless of whether or not any values satisfy the predicate. Promote a  to take 0 values. When the data passed in matches the b data constructor, the row is presented as it would be with the original table. When it is , the row is empty.From a © blueprint and a list of the data that it accepts, build the actual html needed to visualize this data. This particular rendering of the data applies the classes table and  table-striped to the  tableÿ element. If you are using bootstrap, this means that it will be formatted in the bootstrap way. If not, the table will still render correctly, but the classes will be renamed. I'm open to pull requests for supporting other common table formats out of the box.  Column nameText extracting functionRoute extracting function  PredicateExisting table  Contents when predicate is false PredicateExisting table         !"yesod_L9I94MV1VqC5EPAfpmcRYE Yesod.TableColumnheadercellTable singletonwidgettextstringintlinkedwhenwhenWithmaybe maybeWithbuildBootstraptext_1L7lZlUz0bO8ROU5DNNfWqData.Text.InternalTextbaseGHC.BaseStringghc-prim GHC.TypesIntMaybeJustNothing asWidgetIO textToWidget$fDivisibleTable$fContravariantTable$fContravariantColumn