# RUN: %PYTHON %s | FileCheck %s import gc import io import itertools from mlir.ir import * from mlir.dialects import builtin # Note: std dialect needed for terminators. from mlir.dialects import std def run(f): print("\nTEST:", f.__name__) f() gc.collect() assert Context._get_live_count() == 0 return f # CHECK-LABEL: TEST: testBlockCreation # CHECK: func @test(%[[ARG0:.*]]: i32, %[[ARG1:.*]]: i16) # CHECK: br ^bb1(%[[ARG1]] : i16) # CHECK: ^bb1(%[[PHI0:.*]]: i16): # CHECK: br ^bb2(%[[ARG0]] : i32) # CHECK: ^bb2(%[[PHI1:.*]]: i32): # CHECK: return @run def testBlockCreation(): with Context() as ctx, Location.unknown(): module = Module.create() with InsertionPoint(module.body): f_type = FunctionType.get( [IntegerType.get_signless(32), IntegerType.get_signless(16)], []) f_op = builtin.FuncOp("test", f_type) entry_block = f_op.add_entry_block() i32_arg, i16_arg = entry_block.arguments successor_block = entry_block.create_after(i32_arg.type) with InsertionPoint(successor_block) as successor_ip: assert successor_ip.block == successor_block std.ReturnOp([]) middle_block = successor_block.create_before(i16_arg.type) with InsertionPoint(entry_block) as entry_ip: assert entry_ip.block == entry_block std.BranchOp([i16_arg], dest=middle_block) with InsertionPoint(middle_block) as middle_ip: assert middle_ip.block == middle_block std.BranchOp([i32_arg], dest=successor_block) print(module.operation) # Ensure region back references are coherent. assert entry_block.region == middle_block.region == successor_block.region # CHECK-LABEL: TEST: testFirstBlockCreation # CHECK: func @test(%{{.*}}: f32) # CHECK: return @run def testFirstBlockCreation(): with Context() as ctx, Location.unknown(): module = Module.create() f32 = F32Type.get() with InsertionPoint(module.body): func = builtin.FuncOp("test", ([f32], [])) entry_block = Block.create_at_start(func.operation.regions[0], [f32]) with InsertionPoint(entry_block): std.ReturnOp([]) print(module) assert module.operation.verify() assert func.body.blocks[0] == entry_block