TheAaronSheet

A facade for Sheet Worker Tasks and Utility Functions

Usage

To use TheAaronSheet, just copy the contents of TheAaronSheet.js into the top of your <script type="text/worker"> section. This will make the TAS variable available within that tag. As confirmation that it is working, you should see the following log entry in the javascript console for your game:

Once it is active, you can reference the included functions off of the TAS object.

Reference

TAS.repeating( SectionName )

This function provides an powerful interface to repeating sections. After calling it with the name of the repeating section you want to use, you will configure it with the attributes you need access to, the fields inside the repeating group you want provided, and one or more operations you want to perform, then run all those operations. Note that SectionName should not have the repeating_ preface.

The term Attribute is used to refer to an attribute outside of a repeating group.

The term Field is used to refer to those attributes that are part of the repeating group.

Specifying Data

.attrs( AttributeName [, AttributeName ...] ) (Alias: .attr() )

This function specifies the names of attributes outside the repeating group that should be loaded for the operations. You can provide the names of attributes as individual arguments, as arrays of names, or as seperate invocations of this function. Note that AttributeName should not have the attr_ prefix. All of the following are equivolent:

TAS.repeating('inventory')
    .attrs('total_weight','total_cost')
    .execute();

TAS.repeating('inventory')
    .attrs(['total_weight','total_cost'])
    .execute();

TAS.repeating('inventory')
    .attr('total_weight')
    .attr('total_cost')
    .execute();

All of the attributes provided will be accessible inside each operation as part of an object provided as a parameter to the operation's function(s).

.fields( FieldName [, FieldName ...] ) (Aliases: .field(), .columns(), .column())

This function specifies the names of fields in the repeating group that should be loaded for the operations. You can provide the names of fields as individual arguments, as arrays of names, or as seperate invocations of this function. Note that you should not provide the repeating_<section>_ prefix or the attr_ prefix. All of the following are equivolent:

TAS.repeating('inventory')
    .fields('weight','cost','quantity')
    .execute();

TAS.repeating('inventory')
    .fields(['weight','cost'], 'quantity')
    .execute();

TAS.repeating('inventory')
    .field('weight')
    .columns(['cost','quantity'])
    .execute();

All of the fields provided will be accessible inside each operation as part of an object provided as a parameter to the operation's function(s).

Operations

Operations are the heart of the .repeating() interface. Each operation specifies one or more functions that will be called with the data from attributes and fields. Operations are executed in the order they are defined and each operation completes fully before the next one is called. Changes made to attributes and fields will be passed on to later operations.

Common Arguments to Operations

The following are arguments that are passed to the Operation functions. You may omit any arguments you don't need or skip them by using undefined.

Argument	Description
Func	This is a function which is called for each row of the repeating group.
Initial	This is the initial value to be used as the memo for the .reduce() operation.
Final	This is a function which is called once, usually with the results of calling func, and with the rowSet and attrSet objects.
Context	The context argument will be the this object when any of the operation's functions are executed.

Common Arguments to Operation Functions

The following arguments are passed to various of the operations' functions.

Argument	Description
Row	This represents the row of the repeating group. Each of the fields requested will be a property on this object. Additionally, it has the special .id property which will contain the repeating row's id. .id does not show up in iteration.
RowSet	This object is a collection of all the row objects for the whole repeating group. It has properties for each row id which contain the row.
AttrSet	This object contains each of the attributes requested as a property.
ID	Some functions will be passed the id of the row currently being operated on.
Memo	The reduce operation receives the result of the execution of the function on the previous row.
Results	An array of each of the values returned from calling the Func function.

.tap( Final [, Context] ) (Alias: .do())

This is the simplist operation on the .repeating() interface. The Final function will be called once with the parameters RowSet, AttrSet.

TAS.repeating('inventory')
    .attrs('total_weight','total_cost')
    .fields('weight','cost','quantity')
    .tap(function(rowSet,attrSet){
        console.log('RowSet has keys: '+_.keys(rowSet).join(', '));
        console.log('AttrSet has keys: '+_.keys(attrSet).join(', '));
    })
    .execute();

.each(Func [, Final [, Context] ] ) (Alias: .forEach())

This operation will execute Func for each row of the repeating group with the arguments Row,AttrSet,ID,RowSet. Afterwards, it will execute Final once with the arguments RowSet,AttrSet.

TAS.repeating('inventory')
    .attrs('total_weight','total_cost')
    .fields('weight','cost','quantity')
    .each(function(row,attrSet,id,rowSet){
        console.log('Row ID: '+id);
    },function(rowSet,attrSet){
        console.log('all Row IDs: '+_.keys(rowSet).join(', '));
    })
    .execute();

.map(Func [, Final [, Context] ] ) (Alias: .collect())

This operation will execute Func for each row of the repeating group with the arguments Row,AttrSet,ID,RowSet, collecting the return value each time into an array. Afterwards, it will execute Final once with the arguments Results, RowSet,AttrSet.

TAS.repeating('inventory')
    .attrs('total_weight','total_cost')
    .fields('weight','cost','quantity')
    .each(function(row,attrSet,id,rowSet){
        console.log('Row ID: '+id);
        return row.weight;
    },function(results,rowSet,attrSet){
        console.log('all weights: '+results.join(', '));
    })
    .execute();

.reduce(Func [, Initial [, Final [, Context] ] ] ) (Aliases: .inject(), .foldl())

This operation will execute Func for each row of the repeating group with the arguments Memo, Row,AttrSet,ID,RowSet. Memo will start with the value of Initial, but will then have the value of whatever is returned from Func. Afterwards, it will execute Final once with the arguments Memo, RowSet,AttrSet.

TAS.repeating('inventory')
    .attrs('total_weight','total_cost')
    .fields('weight','cost','quantity')
    .reduce(function(memo,row,attrSet,id,rowSet){
        memo.push('weight: '+row.weight);
        return memo;
    },[], function(memo,rowSet,attrSet){
        console.log('all weights: '+memo.join(','));
    })
    .execute();

.after(Final [, Context] ) (Aliases: .last(), .done())

Add a function to be called after the setAttrs() operation is called in .execute(). If multiple .after() operations are called for, they will be executed in the order they were specified.

.execute([Final [, Context] ] ) (Aliases: .go(), .run())

When you have configured all of your Attributes, Fields, and Operations, you call .execute() to do all of the work. It must be the last function called on a TAS.repeating() chain. Nothing will be done until this function is called. It returns nothing, but is responsible for doing all the work of getting and setting attributes and fields, and calling each of the operations' functions. All of the sets will be batched and executed as a single setAttrs() at the end of execute(), which should provide a preformance increase.

You can optionally provide a Final function and Context as arguments. These work identically to .after() and will be the last function called in the .after() execution order.

Using AttrSet and Row

Asside from Row's readonly .id property representing which repeating group row it corresponds to, AttrSet and Row are the same.

Reading Values

Reading values is as simple as referencing the property. You don't use the attr_ prefix or the repeating_<section name>_ prefix:

console.log(row.weight);
console.log(attrSet.total_weight);

Most of the time, you need the value in a specific format, such as a String, Integer, or Floating-Point Number. You can control the format by adding a format specifier between the Row/AttrSet and the property:

console.log( 'Weight (String): '+ row.S.weight );
console.log( 'Weight (Integer): '+ row.I.weight );
console.log( 'Weight (Float): '+ row.F.weight );

You can also get a Fixed-Point Number representation:

console.log( 'Weight (3 decimal places): '+ row.D[3].weight );
console.log( 'Weight (9 decimal places): '+ row.D[9].weight );
console.log( 'Weight (0 decimal places): '+ row.D[0].weight );

You can use 0-9 to specify how many decimal places you want. Note: this returns a string representation and is intended for presentation. You should use the .F specifier if you want to perform mathematical calculations.

Format Specifier	Description
.S	String format. Whatever value is stored in the property is converted to a string.
.I	Integer format. The equivolent of parseInt( value, 10 ). For numbers like 1.53, this will truncation the .53, use a Floating-Point format.
.F	Floating-Point format. The equivolent of parseFloat( value ). Good for math, but see the Decimal format for presentation.
.D[#]	Decimal format. The result will be a number with the given amount of decimal places from 0-9. The type will be a string, so use Floating-Point format if you need to do math.

Writing Values

Writing values is exactly like you would expect, you simply set the property.

attrSet.total_weight = row.I.quantity * row.F.weight;

You can use the format specifiers when setting a property to cause it to be stored in that format:

attrSet.D[3].total_weight += row.I.quantity * row.F.weight;

Because of the way the .repeating() interface works, all the setAttrs() operations are saved until the last and handled as a single operation. This prevents redundant writing and saves bandwidth gaining speed and performance.

TAS.repeatingSimpleSum( RepeatingName, ValueField, SumAttribute )

This function will find all the attributes with the name ValueField in the repeating section with RepeatingName and add them together, storing their sum in the SumAttribute.

Argument	Description
RepeatingName	This is the name of the repeating group. Leave off the repeating_ preface. If your repeating section is <fieldset class="repeating_weapons">, you would simply use 'weapons'.
ValueField	This is the name of the attribute you are adding up for each row. Leave off the attr_ preface. If your attribute is name="attr_cost", you would simply use 'cost'.
SumAttribute	This is the attribute to fill with the sum of all the ValueFields. Leave off the attr_ preface. If your attribute is name="attr_spentbudget", you would simply use 'spentbudget'.

Example

Assuming you were creating a list of weapons and totaling the amount spent on them, you might have this:

on('change:repeating_weapons',function(){
    TAS.repeatingSimpleSum('weapons','cost','spentbudget');
});

Logging Functions

TheAaronSheet exports a selection of color-coded logging functions with type detection:

Each function is colored as above, with individual on-off settings. Be default, all but Debug are turned on. You can turn them on and off with:

TAS.config({
  logging:{
    log: false,
    notice: false,
    info: false,
    warn: true,
    error: true,
    debug: true
  }
});

Additionally, debug statements can be turned on by calling TAS.debugMode().

All the logging statements will do type detection on their arguments and display them in different ways:

You can pass as many arguments to each one as you like and they will be individually logged. This was all generated from one call to TAS.notice():

All of the logging functions are demonstrated in Example 5

Function Wrapping

TheAaronSheet provides a function called callback() which you can use to wrap your callback functions to get notices about entering and exiting the function.

Note: Requires TAS.debugMode(); to be called.

TAS.debugMode();
on('sheet:opened',TAS.callback(function(){
	TAS.debug('inside anonymous function');
}));

If you give your functions names, you'll get better information:

TAS.debugMode();
on('sheet:opened',TAS.callback(function MySheetOpenedFunc(){
	TAS.debug('inside named function');
}));

It may be nicer to define your functions separately and pass them to the event registrations:

TAS.debugMode();

var myfunc = function MySheetOpenedFunc(){
	TAS.debug('inside named function');
};

on('sheet:opened',TAS.callback(myfunc));

Note: The function name will still be MySheetOpenedFunc.

You can also use the shorthand TAS._fn() instead of TAS.callback() if you prefer.

Function Wrapping is demonstrated in Example 6

Callstacks

One of the hardest things with Sheet Workers is Asynchronous function calls. Generally, call stacks aren't helpful in figuring out what happened. However, I've created some that are by setting up a system to log the logical call stack across Asynchronous calls.

Start by wrapping your functions with TAS.callback() (or TAS._fn()), then call TAS.callstack() at any point to log the current call stack, including Asynchronous calls, that caused the current function to be called. When calling TAS.callback() or TAS._fn(), you can pass a string describing where you are calling it as the first parameter. This string will then show up in the callstack as the label for the Asynchronous call. Here's an example:

TAS.debugMode();

var callback1 = function StandAloneFunction(){
	TAS.debug('inside StandAloneFunction()');
	TAS.callstack();
	getAttrs(['total_weight'],TAS._fn('getAttrs( total_weight )',function InlineFunction(values){ 
		TAS.callstack();
		TAS.debug('InlineFunction(): got values',values); 
	}));
};

on('sheet:opened',TAS._fn('sheet:opened',callback1));
on('change:repeating_inventory',TAS._fn('change:repeating_inventory - test',callback1));

In the first call stack, you can see that 'sheet:opened' caused a call to StandAloneFunction. In the second call stack, you can see the first call stack reassembled for before the async call to getAttrs(), and the call to InlineFunction by getAttrs( total_weight ).

Callstack tracing is demonstrated in Example 6

Utility Functions

Currently, no utility functions are needed as we now have access to underscore.js.

Examples

Example 1: TAS.repeatingSimpleSum()

This is a simple total operation for a named field in a repeating group. For the full working source, see Example1: repeatingSimpleSum().

<script type="text/worker">

// [ Contents of TheAaronSheet.js ] //


on('change:repeating_inventory', function(){
    TAS.repeatingSimpleSum('inventory','weight','total_weight_carried');
});

</script>

Example 2: TAS.repeating() -- a Trivial Example

This is a trivial example showing just the setting up of attributes and fields. It will write the IDs and attrbute names to the console using the .tap() operation. See Example2: TAS.repeating() -- a Trivial Example.

<script type="text/worker">

// [ Contents of TheAaronSheet.js ] //


on('change:repeating_inventory', function(){
    TAS.repeating('inventory')  //< set the repeating group we are using
        .attrs('total_weight')  //< specify we want access to the total_weight attribute
        .fields('item','weight') //< specify we want the item and weight repeating fields 
        .tap(function(rows,attrs){  //< tap just calls a function with the attributes and fields
            console.log(_.keys(rows));  //< log the ids for the rows
            console.log(_.keys(attrs)); //< log the names of the attributes
        })
        .execute();  //< tell TAS it has been configured and can run now.
});

</script>

Example 3: TAS.repeating() -- a Complex Example

This is a complex example that is using each of the 4 possible operations. See Example 3: TAS.repeating() -- a Complex Example.

<script type="text/worker">

// [ Contents of TheAaronSheet.js ] //


on('change:repeating_inventory', function(){

// all of these operations could likely have been done in a single reduce operation, but
// doing them in multiple operations shows that this is something that can be done.

    TAS.repeating('inventory')
        .attrs('total_weight','total_cost','summary')  //< getting the attributes for the totals
        .fields('item','quantity','weight','totalweight','cost','runningtotal') //< specifying the fields we care about
        .tap(function(rows,attrs){
			attrs.summary=_.pluck(_.values(rows),'item').join(', ');  //< grabing all the names of items and setting summary
        })
		.each(function(r){
			r.D[3].totalweight=(r.I.quantity*r.F.weight);  //< for each row, set the total weight with 3 decimal places (use integer quantity and floating weight)
		})
		.map(function(r){
			return r.F.weight*r.I.quantity; //< calculate the weight for the row (could have used the totalweight)
		},function(m,r,a){
            a.D[3].total_weight=_.reduce(m,function(m,v){ //<sum the array of total weights and set it on the total weight attribute
				return m+v;
			},0);
		})
		.reduce(function(m,r){
			m+=(r.I.quantity*r.F.cost); //< Generate a running cost
			r.D[2].runningtotal=m; //< set it for the current row (the running part)
			return m;
		},0,function(m,r,a){
			a.D[2].total_cost=m;  //< take the final sum and set it on the total cost attribute
		})
        .execute();  //< begin executing the above operations

});

</script>

Example 4: TAS.repeating() -- a Complex Example Rewritten

This is Example 3 rewritten to use only a single operation, .reduce(). See Example 4: TAS.repeating() -- a Complex Example Rewritten.

<script type="text/worker">

// [ Contents of TheAaronSheet.js ] //


on('change:repeating_inventory', function(){

    TAS.repeating('inventory')
        .attrs('total_weight','total_cost','summary')  
        .fields('item','quantity','weight','totalweight','cost','runningtotal') 
        .reduce(function(m,r){
            m.weight+=(r.F.weight*r.I.quantity);
            r.D[3].totalweight=(r.F.weight*r.I.quantity);
            m.cost+=(r.F.cost*r.I.quantity);
            r.D[2].runningtotal=m.cost;
            m.desc.push(r.item+(r.I.quantity>1 ? ' (x'+r.S.quantity+')' : ''));
            return m;
            
        },{weight:0,cost:0, desc: []},function(m,r,a){
            a.summary=m.desc.join(', ');
            a.D[3].total_weight=m.weight;
            a.D[2].total_cost=m.cost;
        })
        .execute(); 

});

</script>

Example 5: Logging Functions

This shows examples of calling each of the logging functions. See Example 5: Logging Functions.

<script type="text/worker">

// [ Contents of TheAaronSheet.js ] //

// enable debug logging
TAS.config({logging:{debug: true}});

(function(){
	'use strict';

	var string ='This is a string!',
		integer = 8675309,
		decimal = 3.14159265359,
		bool = true,
		namedFunction = function DoStuffWithThings(things){return things+'stuff';},
		anonymousFunction = function(test){return test+test;},
		array = [ 1, 2, 3, 'orange', 'apple', 'avacado', function thing(a){ return a+a; }],
		object = { fruit: 'tomato', number: 42 };

	
	console.log('==> Logging Types <====================================');
	TAS.log('TAS.log() for general messages');
	TAS.notice('TAS.notice() for messages you want to notice that are not errors.');
	TAS.info('TAS.info() for documenting things like status changes.');
	TAS.warn('TAS.warn() for things that might be problems or indicate potential issues.');
	TAS.error('TAS.error() for errors you need to be sure to notice.');
	TAS.debug('TAS.debug() other things you want to keep track of while editing.');

	console.log('==> Type Logging <=====================================');
	TAS.debug(string);
	TAS.debug(integer);
	TAS.debug(decimal);
	TAS.debug(bool);
	TAS.debug(NaN);
	TAS.debug(null);
	TAS.debug(undefined);
	TAS.debug(namedFunction);
	TAS.debug(anonymousFunction);
	TAS.debug(array);
	TAS.debug(arguments);
	TAS.debug(object);

	console.log('==> Multiple Argument Support <=====================================');
	TAS.notice(string,integer,NaN,anonymousFunction,arguments);

}(1,2,'taco',['water','wine']));

</script>

Example 6: Callstack Tracing

This example shows how Callstack tracing works. See Example 6: Callstack Tracing.

<script type="text/worker">

// [ Contents of TheAaronSheet.js ] //

TAS.debugMode();

var callback1 = function StandAloneFunction(){
	TAS.debug('inside StandAloneFunction()');
	TAS.callstack();
	getAttrs(['total_weight'],TAS._fn('getAttrs( total_weight )',function InlineFunction(values){ 
		TAS.callstack();
		TAS.debug('InlineFunction(): got values',values); 
	}));
};

on('sheet:opened',TAS._fn('sheet:opened',callback1));
on('change:repeating_inventory',TAS._fn('change:repeating_inventory - test',callback1));

</script>