Although the linq answer is interesting, it's also quite heavy-weight. My approach is somewhat different:

```
var DataGrouper = (function() {
var has = function(obj, target) {
return _.any(obj, function(value) {
return _.isEqual(value, target);
});
};
var keys = function(data, names) {
return _.reduce(data, function(memo, item) {
var key = _.pick(item, names);
if (!has(memo, key)) {
memo.push(key);
}
return memo;
}, []);
};
var group = function(data, names) {
var stems = keys(data, names);
return _.map(stems, function(stem) {
return {
key: stem,
vals:_.map(_.where(data, stem), function(item) {
return _.omit(item, names);
})
};
});
};
group.register = function(name, converter) {
return group[name] = function(data, names) {
return _.map(group(data, names), converter);
};
};
return group;
}());
DataGrouper.register("sum", function(item) {
return _.extend({}, item.key, {Value: _.reduce(item.vals, function(memo, node) {
return memo + Number(node.Value);
}, 0)});
});
```

You can see it in action on JSBin.

I didn't see anything in Underscore that does what `has`

does, although I might be missing it. It's much the same as `_.contains`

, but uses `_.isEqual`

rather than `===`

for comparisons. Other than that, the rest of this is problem-specific, although with an attempt to be generic.

Now `DataGrouper.sum(data, ["Phase"])`

returns

```
[
{Phase: "Phase 1", Value: 50},
{Phase: "Phase 2", Value: 130}
]
```

And `DataGrouper.sum(data, ["Phase", "Step"])`

returns

```
[
{Phase: "Phase 1", Step: "Step 1", Value: 15},
{Phase: "Phase 1", Step: "Step 2", Value: 35},
{Phase: "Phase 2", Step: "Step 1", Value: 55},
{Phase: "Phase 2", Step: "Step 2", Value: 75}
]
```

But `sum`

is only one potential function here. You can register others as you like:

```
DataGrouper.register("max", function(item) {
return _.extend({}, item.key, {Max: _.reduce(item.vals, function(memo, node) {
return Math.max(memo, Number(node.Value));
}, Number.NEGATIVE_INFINITY)});
});
```

and now `DataGrouper.max(data, ["Phase", "Step"])`

will return

```
[
{Phase: "Phase 1", Step: "Step 1", Max: 10},
{Phase: "Phase 1", Step: "Step 2", Max: 20},
{Phase: "Phase 2", Step: "Step 1", Max: 30},
{Phase: "Phase 2", Step: "Step 2", Max: 40}
]
```

or if you registered this:

```
DataGrouper.register("tasks", function(item) {
return _.extend({}, item.key, {Tasks: _.map(item.vals, function(item) {
return item.Task + " (" + item.Value + ")";
}).join(", ")});
});
```

then calling `DataGrouper.tasks(data, ["Phase", "Step"])`

will get you

```
[
{Phase: "Phase 1", Step: "Step 1", Tasks: "Task 1 (5), Task 2 (10)"},
{Phase: "Phase 1", Step: "Step 2", Tasks: "Task 1 (15), Task 2 (20)"},
{Phase: "Phase 2", Step: "Step 1", Tasks: "Task 1 (25), Task 2 (30)"},
{Phase: "Phase 2", Step: "Step 2", Tasks: "Task 1 (35), Task 2 (40)"}
]
```

`DataGrouper`

itself is a function. You can call it with your data and a list of the properties you want to group by. It returns an array whose elements are object with two properties: `key`

is the collection of grouped properties, `vals`

is an array of objects containing the remaining properties not in the key. For example, `DataGrouper(data, ["Phase", "Step"])`

will yield:

```
[
{
"key": {Phase: "Phase 1", Step: "Step 1"},
"vals": [
{Task: "Task 1", Value: "5"},
{Task: "Task 2", Value: "10"}
]
},
{
"key": {Phase: "Phase 1", Step: "Step 2"},
"vals": [
{Task: "Task 1", Value: "15"},
{Task: "Task 2", Value: "20"}
]
},
{
"key": {Phase: "Phase 2", Step: "Step 1"},
"vals": [
{Task: "Task 1", Value: "25"},
{Task: "Task 2", Value: "30"}
]
},
{
"key": {Phase: "Phase 2", Step: "Step 2"},
"vals": [
{Task: "Task 1", Value: "35"},
{Task: "Task 2", Value: "40"}
]
}
]
```

`DataGrouper.register`

accepts a function and creates a new function which accepts the initial data and the properties to group by. This new function then takes the output format as above and runs your function against each of them in turn, returning a new array. The function that's generated is stored as a property of `DataGrouper`

according to a name you supply and also returned if you just want a local reference.

Well that's a lot of explanation. The code is reasonably straightforward, I hope!