Sliding member

The invention claimed is: 1. A sliding member including a base layer and a resin coating layer provided on a slide surface of the base layer, wherein a shape line is so defined as to represent a shape of a surface of the resin coating layer disposed on a side opposite the base layer by using an X-Y coordinate system formed of an X axis representing a position between arbitrary two points on the surface and a Y axis perpendicular to the X axis and representing a thickness direction of the resin coating layer, the shape line is divided by an imaginary straight line parallel to the X axis to set recessed regions that protrude downward from the imaginary straight line and protruding regions that protrude upward from the imaginary straight line, and the imaginary straight line so positioned that a sum of areas of the recessed regions is equal to a sum of areas of the protruding regions is defined as an protrusion/recess average line, regions that protrude downward from the protrusion/recess average line are defined as recesses, and regions that protrude upward from the protrusion/recess average line are defined as protrusions, for each set of a recess out of the recesses and a protrusion out of the protrusions that are adjacent to each other with an intersection of the shape line and the protrusion/recess average line sandwiched between the recess and the protrusion, a bottom that is a lowest point of the recess and a peak that is a highest point of the protrusion are connected to each other with an imaginary straight line L, and a gradient of the straight line L is defined as a gradient R, a determined value of the gradient R is classified into Ra: R<0.02, Rb: 0.02≤R≤0.04, and Rc: 0.04<R, and assuming that a total number of the straight lines L with the gradients R thereof calculated corresponds to 100%, L ( Ra )+ L ( Rb )≥50% is satisfied. 2. The sliding member according to claim 1 , wherein L(Rb)/(L(Ra)+L(Rb))≥50% is satisfied. 3. The sliding member according to claim 2 , wherein assuming that the total number of the straight lines L with the gradients R thereof calculated corresponds to 100%, 10%≤ L ( Ra )·≤40%, 40%≤ L ( Rb )≤90%, and 0%≤ L ( Rc )≤20% are satisfied. 4. An internal combustion engine including the sliding member according to claim 3 . 5. An internal combustion engine including the sliding member according to claim 2 . 6. The sliding member according to claim 1 , wherein assuming that the total number of the straight lines L with the gradients R thereof calculated corresponds to 100%, 10%≤ L ( Ra )≤40%, 40%≤ L ( Rb )≤90%, and 0%≤ L ( Rc )≤20% are satisfied. 7. An internal combustion engine including the sliding member according to claim 6 . 8. An internal combustion engine including the sliding member according to claim 1 . 9. A resin coating layer disposable on a slide surface of a base layer of a sliding member, comprising: a first surface; and a second surface opposite to the first surface, wherein the second surface abuts the slide surface of the base layer; wherein the first surface is defined to represent a shape defining a shape line such that, by using an X-Y coordinate system formed of an X axis representing a position between two arbitrary points on the surface and a Y axis perpendicular to the X axis and representing a thickness direction of the resin coating layer, the shape line is divided by a protrusion/recess average line, parallel to the X axis, wherein the shape line defines recesses into the first surface that protrude downwardly from the protrusion/recess average line, wherein the shape line defines protrusions on the first surface that protrude upwardly from the protrusion/recess average line, wherein the protrusion/recess average line is positioned so that a sum of areas of the recesses equals a sum of areas of the protrusions, wherein, for each adjacent recess and protrusion, a bottom defines a lowest point of the recess, a peak defines a highest point of the protrusion, and a straight line L connects the bottom to the peak, and wherein the straight line L defines a gradient R with a predetermined value satisfying the following Ra: R<0.02, Rb: 0.02≤R≤0.04, Rc: 0.04<R, and assuming that a total number of the straight lines L with the gradients R corresponds to 100%, L(Ra)+L(Rb) 50%. 10. The resin coating layer according to claim 9 , wherein the resin coating layer comprises paint. 11. The resin coating layer according to claim 9 , wherein L(Rb)/(L(Ra)+L(Rb))≥50% is satisfied. 12. The resin coating layer according to claim 11 , wherein the resin coating layer comprises paint. 13. The resin coating layer according to claim 11 , wherein, assuming that a total number of the straight lines L with the gradients R corresponds to 100%, 10%≤ L ( Ra )≤40%, 40%≤ L ( Rb )≤90%, and 0%≤ L ( Rc )≤20% are satisfied. 14. The resin coating layer according to claim 13 , wherein the resin coating layer comprises paint. 15. The resin coating layer according to claim 9 , wherein, assuming that a total number of the straight lines L with the gradients R corresponds to 100%, 10%≤ L ( Ra )≤40%, 40%≤ L ( Rb )≤90%, and 0%≤ L ( Rc )≤20% are satisfied. 16. The resin coating layer according to claim 15 , wherein the resin coating layer comprises paint.