/* * Copyright (C) 2019 Collabora, Ltd. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include "compiler.h" #include "midgard_ops.h" /* Lowers the invert field on instructions to a dedicated inot (inor) * instruction instead, as invert is not always supported natively by the * hardware */ void midgard_lower_invert(compiler_context *ctx, midgard_block *block) { mir_foreach_instr_in_block_safe(block, ins) { if (ins->type != TAG_ALU_4) continue; if (!ins->invert) continue; unsigned temp = make_compiler_temp(ctx); midgard_instruction not = { .type = TAG_ALU_4, .mask = ins->mask, .src = { temp, ~0, ~0 }, .dest = ins->dest, .has_inline_constant = true, .alu = { .op = midgard_alu_op_inor, /* TODO: i16 */ .reg_mode = midgard_reg_mode_32, .dest_override = midgard_dest_override_none, .outmod = midgard_outmod_int_wrap, .src1 = vector_alu_srco_unsigned(blank_alu_src), .src2 = vector_alu_srco_unsigned(zero_alu_src) }, }; ins->dest = temp; ins->invert = false; mir_insert_instruction_before(ctx, mir_next_op(ins), not); } } /* Propagate the .not up to the source */ bool midgard_opt_not_propagate(compiler_context *ctx, midgard_block *block) { bool progress = false; mir_foreach_instr_in_block_safe(block, ins) { if (ins->type != TAG_ALU_4) continue; if (ins->alu.op != midgard_alu_op_imov) continue; if (!ins->invert) continue; if (mir_nontrivial_source2_mod_simple(ins)) continue; if (ins->src[1] & IS_REG) continue; /* Is it beneficial to propagate? */ if (!mir_single_use(ctx, ins->src[1])) continue; /* We found an imov.not, propagate the invert back */ mir_foreach_instr_in_block_from_rev(block, v, mir_prev_op(ins)) { if (v->dest != ins->src[1]) continue; if (v->type != TAG_ALU_4) break; v->invert = !v->invert; ins->invert = false; progress |= true; break; } } return progress; } /* With that lowering out of the way, we can focus on more interesting * optimizations. One easy one is fusing inverts into bitwise operations: * * ~iand = inand * ~ior = inor * ~ixor = inxor */ static bool mir_is_bitwise(midgard_instruction *ins) { switch (ins->alu.op) { case midgard_alu_op_iand: case midgard_alu_op_ior: case midgard_alu_op_ixor: return true; default: return false; } } static midgard_alu_op mir_invert_op(midgard_alu_op op) { switch (op) { case midgard_alu_op_iand: return midgard_alu_op_inand; case midgard_alu_op_ior: return midgard_alu_op_inor; case midgard_alu_op_ixor: return midgard_alu_op_inxor; default: unreachable("Op not invertible"); } } static midgard_alu_op mir_demorgan_op(midgard_alu_op op) { switch (op) { case midgard_alu_op_iand: return midgard_alu_op_inor; case midgard_alu_op_ior: return midgard_alu_op_inand; default: unreachable("Op not De Morgan-able"); } } static midgard_alu_op mir_notright_op(midgard_alu_op op) { switch (op) { case midgard_alu_op_iand: return midgard_alu_op_iandnot; case midgard_alu_op_ior: return midgard_alu_op_iornot; default: unreachable("Op not right able"); } } bool midgard_opt_fuse_dest_invert(compiler_context *ctx, midgard_block *block) { bool progress = false; mir_foreach_instr_in_block_safe(block, ins) { /* Search for inverted bitwise */ if (ins->type != TAG_ALU_4) continue; if (!mir_is_bitwise(ins)) continue; if (!ins->invert) continue; ins->alu.op = mir_invert_op(ins->alu.op); ins->invert = false; progress |= true; } return progress; } /* Next up, we can fuse inverts into the sources of bitwise ops: * * ~a & b = b & ~a = iandnot(b, a) * a & ~b = iandnot(a, b) * ~a & ~b = ~(a | b) = inor(a, b) * * ~a | b = b | ~a = iornot(b, a) * a | ~b = iornot(a, b) * ~a | ~b = ~(a & b) = inand(a, b) * * ~a ^ b = ~(a ^ b) = inxor(a, b) * a ^ ~b = ~(a ^ b) + inxor(a, b) * ~a ^ ~b = a ^ b * ~(a ^ b) = inxor(a, b) */ static bool mir_strip_inverted(compiler_context *ctx, unsigned node) { if (node >= SSA_FIXED_MINIMUM) return false; /* Strips and returns the invert off a node */ mir_foreach_instr_global(ctx, ins) { if (ins->compact_branch) continue; if (ins->dest != node) continue; bool status = ins->invert; ins->invert = false; return status; } unreachable("Invalid node stripped"); } static bool is_ssa_or_constant(unsigned node) { return !(node & IS_REG) || (node == SSA_FIXED_REGISTER(26)); } bool midgard_opt_fuse_src_invert(compiler_context *ctx, midgard_block *block) { bool progress = false; mir_foreach_instr_in_block_safe(block, ins) { /* Search for inverted bitwise */ if (ins->type != TAG_ALU_4) continue; if (!mir_is_bitwise(ins)) continue; if (ins->invert) continue; if (!is_ssa_or_constant(ins->src[0])) continue; if (!is_ssa_or_constant(ins->src[1])) continue; if (!mir_single_use(ctx, ins->src[0])) continue; if (!ins->has_inline_constant && !mir_single_use(ctx, ins->src[1])) continue; bool not_a = mir_strip_inverted(ctx, ins->src[0]); bool not_b = ins->has_inline_constant ? false : mir_strip_inverted(ctx, ins->src[1]); /* Edge case: if src0 == src1, it'll've been stripped */ if ((ins->src[0] == ins->src[1]) && !ins->has_inline_constant) not_b = not_a; progress |= (not_a || not_b); /* No point */ if (!(not_a || not_b)) continue; bool both = not_a && not_b; bool left = not_a && !not_b; bool right = !not_a && not_b; /* No-op, but we got to strip the inverts */ if (both && ins->alu.op == midgard_alu_op_ixor) continue; if (both) { ins->alu.op = mir_demorgan_op(ins->alu.op); } else if (right || (left && !ins->has_inline_constant)) { if (left) { /* Commute */ unsigned temp = ins->src[0]; ins->src[0] = ins->src[1]; ins->src[1] = temp; temp = ins->alu.src1; ins->alu.src1 = ins->alu.src2; ins->alu.src2 = temp; } ins->alu.op = mir_notright_op(ins->alu.op); } else if (left && ins->has_inline_constant) { /* Some special transformations: * * ~A & c = ~(~(~A) | (~c)) = ~(A | ~c) = inor(A, ~c) * ~A | c = ~(~(~A) & (~c)) = ~(A & ~c) = inand(A, ~c) */ ins->alu.op = mir_demorgan_op(ins->alu.op); ins->inline_constant = ~ins->inline_constant; } } return progress; }