Provision of electrical continuity and/or radial support

The invention claimed is: 1. Flexible pipe body for transporting production fluids, comprising: a first tensile armour layer; and a first supporting layer radially outside, or radially inside, and in an abutting relationship with the first tensile armour layer; wherein: the first supporting layer comprises a helically wound constraining tape element and a helically wound electrically conductive tape element; the electrically conductive tape element makes electrical contact with and thereby electrically connects multiple tensile armour wires in the first tensile armour layer; the constraining tape element comprises a high strength elongate tape; and the ratio of thickness to width of the tape is at least 1:5. 2. The flexible pipe body as claimed in claim 1 , further comprising: the first supporting layer comprises a single layer or a plurality of sub layers. 3. The flexible pipe body as claimed in claim 2 , further comprising: said single layer or at least one of the plurality of sub layers comprises windings of the electrically conductive tape element interposed with windings of the constraining tape element in the supporting layer, and optionally each winding of the electrically conductive tape element in a supporting layer wraps helically around an underlying layer and is disposed in an abutting relationship with an outer surface of a tensile armour layer, provided by a surface of each tensile armour wire of the tensile armour layer, wherein the electrically conductive layer contacts at least a plurality of tensile armour wires in the tensile armour layer thereby electrically connecting multiple tensile armour wires to provide electrical continuity therebetween. 4. The flexible pipe body as claimed in claim 2 , further comprising: said plurality of sub layers comprises a first sub layer comprising at least one helically wound constraining tape element and a further sub layer comprising at least one helically wound electrically conductive tape element. 5. The flexible pipe body as claimed in claim 4 , further comprising: the further sub layer abuts the first tensile armour layer. 6. The flexible pipe body as claimed in claim 4 , further comprising: the at least one helically wound constraining tape element comprises a single helically wound constraining tape element that includes windings that overlap by 0 to 80%, or the at least one helically wound constraining tape element comprises a plurality of constraining tape elements that include windings that overlap by 0 to 90%. 7. The flexible pipe body as claimed in claim 4 , further comprising: the at least one helically wound electrically conductive tape element comprises a single helically wound electrically conductive tape element that includes windings that overlap by 0 to 80%, or the at least one helically wound electrically conductive tape element comprises a plurality of electrically conductive tape elements that include windings that overlap by 0 to 90%. 8. The flexible pipe body as claimed in claim 4 , further comprising: the at least one helically wound electrically conductive tape element comprises one or more helically wound electrically conductive tape elements interposed between corresponding windings of a non-electrically conducting tape element, and optionally the non-electrically conductive tape element is an insulating tape element and/or a constraining tape element. 9. The flexible pipe body as claimed in claim 4 , further comprising: at least one still further sub layer between the first and further sub layers, each still further sub layer comprising a layer of interposed constraining tape element and electrically conductive tape element windings or a layer comprising a constraining tape element winding only or a layer comprising electrically conductive tape element windings only. 10. The flexible pipe body as claimed in claim 1 , further comprising: the supporting layer comprises at least one of a polymer tape and/or a fibre reinforced tape and/or a wire, or wire strand reinforced tape, wherein the fibre reinforced tape has a strength of at least 500 MPa when measured at 60° C. according to ISO527-3 or ISO6892-2 or ASTM D3039, as relevant for the material, and using a test speed of 350 mm/minute, and aptly retains a strength of at least 500 MPa when measured at 90° C. according to ISO527-3 or ISO6892-2 or ASTM D3039, as relevant for the material, and using a test speed of 350 mm/minute. 11. The flexible pipe body as claimed in claim 10 , further comprising: the fibre reinforced tape is a tape reinforced with one or more glass and/or carbon and/or basalt and/or aramid and/or polyester fibres and/or wires and/or wire strands, comprising fibre or wire diameters in the range 0.001-1 mm, and optionally the fibre reinforced tape reinforced with one or more glass and/or carbon and/or basalt and/or aramid and/or polyester fibres and/or wires and/or wire strands comprises fibres and/or wires and/or wire strands predominantly aligned in the length direction of the tape. 12. The flexible pipe body as claimed in claim 10 further comprising: the fibre reinforced tape comprises a lesser proportion of fibres in a direction substantially different from the length direction of the tape, and optionally a lesser proportion of fibres are aligned at an angle at least 30° from the length direction of the tape, optionally at an angle at 90° to the length direction of the tape. 13. The flexible pipe body as claimed in claim 1 , further comprising: the conductive tape element comprises a polymer dosed with a conductive filler material, optionally selected from: copper, aluminium, magnesium, silver, titanium, iron, carbon, graphite, or graphene, defined and differentiated from graphite by ISO/TS 80004-13:2017, or the conductive tape element comprises a metal tape or film of thickness between 0.005 mm and 2 mm, and optionally of thickness between 0.05 mm and 0.5 mm, or the conductive tape element comprises a metal woven band comprising metal wires of thickness between 0.005 mm and 1 mm, and optionally of thickness between 0.01 mm and 0.5 mm. 14. The flexible pipe body as claimed in claim 1 , further comprising: a further tensile armour layer, wherein the first tensile armour layer is a radially inner or a radially outer tensile armour layer with respect to the further tensile armour layer, wherein optionally the first tensile armour layer comprises an outer tensile armour layer; and optionally the flexible pipe body further comprises a further supporting layer, comprising a helically wound constraining tape element and a helically wound electrically conductive tape element, wound radially outside and adjacent to the further tensile armour layer; and optionally the flexible pipe body further comprises a still further supporting layer, comprising a helically wound constraining tape element and a helically wound electrically conductive tape element; wherein the first supporting layer, further supporting layer and the still further supporting layer are interdigitated with the first and further tensile armour layers. 15. The flexible pipe body as claimed in claim 1 , further comprising: a fluid retaining polymer layer radially inside the first tensile armour layer; and an outer sheath radially outside of the first tensile armour layer. 16. A flexible pipe for transporting production fluids, comprising: the flexible pipe body as claimed in claim 1 ; and at least one end fitting terminating a respective end of the flexible pipe body, and optionally a corrosion protection system, wherein optionally the flexible pipe body com