Extend loop unrolling to unroll by a given factor; add builder for affine
apply op.
- add builder for AffineApplyOp (first one for an operation that has
non-zero operands)
- add support for loop unrolling by a given factor; uses the affine apply op
builder.
While on this, change 'step' of ForStmt to be 'unsigned' instead of
AffineConstantExpr *. Add setters for ForStmt lb, ub, step.
Sample Input:
// CHECK-LABEL: mlfunc @loop_nest_unroll_cleanup() {
mlfunc @loop_nest_unroll_cleanup() {
for %i = 1 to 100 {
for %j = 0 to 17 {
%x = "addi32"(%j, %j) : (affineint, affineint) -> i32
%y = "addi32"(%x, %x) : (i32, i32) -> i32
}
}
return
}
Output:
$ mlir-opt -loop-unroll -unroll-factor=4 /tmp/single2.mlir
#map0 = (d0) -> (d0 + 1)
#map1 = (d0) -> (d0 + 2)
#map2 = (d0) -> (d0 + 3)
mlfunc @loop_nest_unroll_cleanup() {
for %i0 = 1 to 100 {
for %i1 = 0 to 17 step 4 {
%0 = "addi32"(%i1, %i1) : (affineint, affineint) -> i32
%1 = "addi32"(%0, %0) : (i32, i32) -> i32
%2 = affine_apply #map0(%i1)
%3 = "addi32"(%2, %2) : (affineint, affineint) -> i32
%4 = affine_apply #map1(%i1)
%5 = "addi32"(%4, %4) : (affineint, affineint) -> i32
%6 = affine_apply #map2(%i1)
%7 = "addi32"(%6, %6) : (affineint, affineint) -> i32
}
for %i2 = 16 to 17 {
%8 = "addi32"(%i2, %i2) : (affineint, affineint) -> i32
%9 = "addi32"(%8, %8) : (i32, i32) -> i32
}
}
return
}
PiperOrigin-RevId: 209676220
13 files changed