from numba.cuda.cudadrv import nvvm from numba.cuda.testing import skip_on_cudasim from numba.core import utils from llvmlite import ir from llvmlite import binding as llvm import unittest original = "call void @llvm.memset.p0i8.i64(" \ "i8* align 4 %arg.x.41, i8 0, i64 %0, i1 false)" missing_align = "call void @llvm.memset.p0i8.i64(" \ "i8* %arg.x.41, i8 0, i64 %0, i1 false)" @skip_on_cudasim('libNVVM not supported in simulator') @unittest.skipIf(utils.MACHINE_BITS == 32, "CUDA not support for 32-bit") @unittest.skipIf(not nvvm.is_available(), "No libNVVM") class TestNvvmWithoutCuda(unittest.TestCase): def test_nvvm_accepts_encoding(self): # Test that NVVM will accept a constant containing all possible 8-bit # characters. Taken from the test case added in llvmlite PR #53: # # https://github.com/numba/llvmlite/pull/53 # # This test case is included in Numba to ensure that the encoding used # by llvmlite (e.g. utf-8, latin1, etc.) does not result in an input to # NVVM that it cannot parse correctly # Create a module with a constant containing all 8-bit characters c = ir.Constant(ir.ArrayType(ir.IntType(8), 256), bytearray(range(256))) m = ir.Module() m.triple = 'nvptx64-nvidia-cuda' nvvm.add_ir_version(m) gv = ir.GlobalVariable(m, c.type, "myconstant") gv.global_constant = True gv.initializer = c m.data_layout = nvvm.NVVM().data_layout # Parse with LLVM then dump the parsed module into NVVM parsed = llvm.parse_assembly(str(m)) ptx = nvvm.llvm_to_ptx(str(parsed)) # Ensure all characters appear in the generated constant array. elements = ", ".join([str(i) for i in range(256)]) myconstant = f"myconstant[256] = {{{elements}}}".encode('utf-8') self.assertIn(myconstant, ptx) if __name__ == '__main__': unittest.main()