Swiss turning insert with chip former arrangement comprising upwardly extending ridge

What is claimed is: 1. A swiss insert comprising: opposite insert first and second side surfaces; opposite insert upper and lower surfaces connecting the insert first and second side surfaces; opposite insert front and rear surfaces connecting the insert upper and lower surfaces and the insert first and second side surfaces; a first corner formed at an intersection of the first and second side surfaces and the insert upper and front surfaces; a second corner formed at an intersection of the first and second side surfaces and the insert upper and rear surfaces; a third corner formed at an intersection of the first and second side surfaces and the insert lower and front surfaces; a fourth corner formed at an intersection of the first and second side surfaces and the insert lower and rear surfaces; a screw hole opening out to the insert first and second side surfaces; an insert thickness axis (A T ) extending perpendicular to, and extending through, the insert first and second side surfaces; an insert height axis (A H ) extending perpendicular to the insert thickness axis, and extending through the insert upper and lower surfaces; an insert length axis (A L ) extending orthogonal to the insert thickness and height axes, and extending through the insert front and rear surfaces; a length plane (P L ) defined by the insert length axis (A L ) and the insert height axis (A H ); a thickness plane (P T ) defined by the insert thickness axis (A T ) and the insert length axis (A L ); a height plane (P H ) defined by the insert height axis (A H ) and the insert thickness axis (A T ); a maximum insert thickness measurable along the insert thickness axis; a maximum insert height measurable along the insert height axis and being greater than the maximum insert thickness; a maximum insert length measurable along the insert length axis and being greater than the maximum insert height; the insert height axis (A H ) defining an upward direction (D U ) from the center of the insert towards the insert upper surface, and defining a downward direction (D D ) opposite to the upward direction; the insert thickness axis (A T ) defining a first side direction (D S1 ) from the center of the insert towards the insert first side surface, and defining a second side direction (D S2 ) opposite to the first side direction; the insert length axis (A L ) defining a forward direction (D F ) from the center of the insert towards the insert front surface, and defining a rearward direction (D R ) opposite to the forward direction; the first corner comprising: a cutting edge, and a chip former arrangement formed at the upper surface; the cutting edge comprising: a first sub-edge extending along an intersection of the upper surface and the first side surface and following a straight line in a view along the second side direction (D S2 ); a second sub-edge extending along an intersection of the upper surface and the second side surface and following a straight line in a view along the first side direction (D S1 ); a third sub-edge extending along an intersection of the upper surface and the front surface; a first corner edge connecting the first sub-edge the third sub-edge; and a second corner edge connecting the second sub-edge the third sub-edge; the chip former arrangement comprising: a first chip surface adjacent to the first sub-edge and extending from the third sub-edge to a first rear chip edge, thereby defining a first cutting depth (L C1 ); a second chip surface adjacent to the first sub-edge and extending from the third sub-edge to a second rear chip edge, thereby defining a second cutting depth (L C2 ); a general cutting depth (L GC ) of the chip former arrangement being defined as (i) the smaller of the first and second cutting depths (L C1 , L C2 ), or (ii) if the first and second cutting depths are equal, the depth of both the first and second cutting depths (L C1 , L C2 ); and a ridge connected to the first and second chip surfaces, and comprising a ridge front end proximate to the third sub-edge and a ridge rear end located further than the ridge front end from the third sub-edge, the ridge extending in the upward direction from the location of the upper surface where the ridge and the first and second chip surfaces connect; wherein adjacent to the cutting edge the insert's first and second side surfaces and front surface are configured as relief surfaces by: the first side surface tapering in a combined downward and second side direction; the second side surface tapering in a combined downward and first side direction; and the front surface tapering in a combined downward and rearward direction. 2. The insert according to claim 1 , wherein in a view of the first cutting portion along the downward direction: one or both of the first and second corner edges comprises a wiper portion connected to the third sub-edge and extending in a straight line extending at a right angle with a nearer of the first and second sub-edges; and the third sub-edge is inwardly recessed relative to each wiper portion. 3. The insert according to claim 2 , wherein each of the first and second corner edges comprises: said wiper portion, and a convexly shaped portion connected at a first end thereof to a nearer of the first and second sub-edges and at a second end thereof to said wiper portion. 4. The insert according to claim 1 , wherein in a view of the first cutting portion along the downward direction, one or both of the first and second chip surfaces have a tapering shape. 5. The insert according to claim 4 , wherein each tapering shape is wider adjacent to the third sub-edge than at another position spaced further apart from the third sub-edge. 6. The insert according to claim 1 , wherein one or both the first and second chip surfaces have a planar shape. 7. The insert according to claim 1 , wherein one or both the first and second chip surfaces form a side angle α with the thickness plane (P T ), the side angle α fulfilling the following condition: −15°<α<15°. 8. The insert according to claim 1 , wherein the entire cutting edge lies in a cutting edge plane having a height of less than 150 microns. 9. The insert according to claim 1 , wherein the insert is rotationally symmetric only at an angle of 180° about an axis parallel with the thickness axis (A T ) and extending through the center of the insert. 10. The insert according to claim 1 , wherein the ridge comprises first and second side concave portions connecting the ridge to the chip surfaces, the first concave side portion opening up in the first side direction (D S1 ) and the second concave side portion opening up in the second side direction (D S2 ). 11. The insert according to claim 1 , wherein the ridge front end comprises a concave front portion opening up in the forward direction (D F ). 12. The insert according to claim 1 , wherein between the ridge front end and the third sub-edge, the chip former arrangement comprises an intermediary plateau no higher in the upward direction (D U ) than 100 microns above the first and second sub-edges. 13. The insert according to claim 12 , wherein the intermediary plateau has a planar shape. 14. The insert according to claim 1 , wherein, in view along the rearward direction (D R ), a width (L R ) of the ridge, at a height above the first and second side sub-edges, is less than half the overall thickness (L I ) between the first and second side sub-edges measured along the thickness axis (A T ). 15. The insert according to claim 1 , wherein the ridge is elongated in a directio