Just loop through the rows, starting with the bottom row, and keep track of the current pixelshift along the x-axis (as a floating- or fixed-point number). After every row you increase the shift by the desired constant slope. For drawing purposes you take the nearest integer of the corresponding pixelshift at every row.

In pseudocode this would be:

```
slope = 0.2; // one pixel shift every five rows
shift = 0.0; // current pixelshift along x-axis
for (row = rows-1; row>=0; row--) {
integershift = round(shift) // round to nearest integer
for (column = columns-1; column>=0; column--) {
sourcecolumn = column + integershift; // get the pixel from this column
if (sourcecolumn < columns)
outputImage[row][column] = inputImage[row][sourcecolumn];
else // draw black if we're outside the inputImage
outputImage[row][column] = 0;
}
shift += slope;
}
```

This is basically the Bresenham line drawing algorithm, so you should find plenty of implementation details for that.

andneeding implementation details? – Mr E May 24 '11 at 16:03