I'm not sure if the following is anything like what you want,but nevertheless:

If I use `ListPlot`

as follows:

```
lp1 = Labeled[
ListPlot[Diagonal@Table[{x, y}, {x, 0, 5}, {y, 5}],
PlotStyle -> {Directive[Red, PointSize[Large]]}], "lp1"];
```

By double clicking on one of the red points twice to get the selection to the level of the points, I can then move the individual points, e.g., to make the points lie on a curve (rather than a straight line). I now want to extract these points (and say use them in a new `ListPlot`

) [see plots below]

If I click on the bracket of the plot graphic and use "Show Expression" (Command Shift E on a Mac), I can 'see' the coordinates of the modified points which may then be extracted. For example:

```
expr = Cell[
BoxData[GraphicsBox[{RGBColor[1, 0, 0], PointSize[Large],
PointBox[{{0., 1.}, {0.8254488458250212,
2.886651181634783}, {1.9301795383300084`,
3.925201233010209}, {3.046546974446661,
4.597525796319094}, {4., 5.}}]},
AspectRatio -> NCache[GoldenRatio^(-1), 0.6180339887498948],
Axes -> True, PlotRange -> Automatic,
PlotRangeClipping -> True]], "Input",
CellChangeTimes -> {{3.504427833788156*^9, 3.50442786823486*^9}}];
```

Modifying a very useful approach originally suggested by Yaroslav Bulatov, which may be found here

```
modpoints = Flatten[Cases[expr, PointBox[___], Infinity][[All, 1]], {{2, 1}}]
```

# EDIT

As pointed out by belisarius, it is desirable to be able to extract 'manually' added points (which may be added to the generated plot using 'point' from the Drawing Tools palette). A better way of extracting (after 'Show Expression' ...) is probably the following:

```
modpoints = Cases[Cases[expr, PointBox[___],
Infinity], {_?NumericQ, _?NumericQ}, Infinity]
```

Of course, 'Show Expression' is not the only approach.

`InputForm`

is another possibility. For example,

```
expr2 = InputForm[ListPlotGraphic]
modpoints = Cases[Cases[expr, Point[___],
Infinity], {_?NumericQ, _?NumericQ}, Infinity]
```

where "ListPlotGraphic" is the modified graphic (inserted by 'copy and paste'), will also work.

Example plots

# Addendum

The above can be automated with a little notebook programming:

```
lp1 = Labeled[
ListPlot[Diagonal@Table[{x, y}, {x, 0, 5}, {y, 5}],
PlotStyle -> {Directive[Red, PointSize[Large]]}],
Button["Print points",
With[{nb = ButtonNotebook[]},
SelectionMove[nb, All, CellContents];
Print[Cases[NotebookRead[nb],
PointBox[{{_?NumericQ, _?NumericQ} ..}] |
PointBox[{_?NumericQ, _?NumericQ}], Infinity]]]]]
```

Running the above, moving the last two original (red) points and adding a couple of extra points in blue with the drawing tools then pressing the button yields

You can see that there is a single `PointBox`

for the original data and a new `PointBox`

for each of the added points. Of course, by modifying the above code, you can do more than simply print out the raw point coordinates.

`"DisplayFunction"`

suboption of`CoordinatesToolOptions`

option of`Graphics`

which is partially documented in this Wolfram Blog post: "Get Coordinates: New in 6.0.2" (see also this MathGroups post). – Alexey Popkov Aug 28 '11 at 4:25