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|
use crate::ptx;
use crate::translate;
use rspirv::{
binary::{Assemble, Disassemble},
dr::{Block, Function, Instruction, Loader, Operand},
};
use spirv_headers::Word;
use spirv_tools_sys::{
spv_binary, spv_endianness_t, spv_parsed_instruction_t, spv_result_t, spv_target_env,
};
use std::error;
use std::ffi::{c_void, CStr, CString};
use std::fmt;
use std::fmt::{Debug, Display, Formatter};
use std::hash::Hash;
use std::mem;
use std::slice;
use std::{borrow::Cow, collections::HashMap, env, fs, path::PathBuf, ptr, str};
use std::{cmp, collections::hash_map::Entry};
macro_rules! test_ptx {
($fn_name:ident, $input:expr, $output:expr) => {
paste::item! {
#[test]
fn [<$fn_name _ptx>]() -> Result<(), Box<dyn std::error::Error>> {
let ptx = include_str!(concat!(stringify!($fn_name), ".ptx"));
let input = $input;
let mut output = $output;
test_ptx_assert(stringify!($fn_name), ptx, &input, &mut output)
}
}
paste::item! {
#[test]
fn [<$fn_name _spvtxt>]() -> Result<(), Box<dyn std::error::Error>> {
let ptx_txt = include_str!(concat!(stringify!($fn_name), ".ptx"));
let spirv_file_name = concat!(stringify!($fn_name), ".spvtxt");
let spirv_txt = include_bytes!(concat!(stringify!($fn_name), ".spvtxt"));
test_spvtxt_assert(ptx_txt, spirv_txt, spirv_file_name)
}
}
};
}
test_ptx!(ld_st, [1u64], [1u64]);
test_ptx!(ld_st_implicit, [0.5f32], [0.5f32]);
test_ptx!(mov, [1u64], [1u64]);
test_ptx!(mul_lo, [1u64], [2u64]);
test_ptx!(mul_hi, [u64::max_value()], [1u64]);
test_ptx!(add, [1u64], [2u64]);
test_ptx!(setp, [10u64, 11u64], [1u64, 0u64]);
test_ptx!(setp_gt, [f32::NAN, 1f32], [1f32]);
test_ptx!(setp_leu, [1f32, f32::NAN], [1f32]);
test_ptx!(bra, [10u64], [11u64]);
test_ptx!(not, [0u64], [u64::max_value()]);
test_ptx!(shl, [11u64], [44u64]);
test_ptx!(shl_link_hack, [11u64], [44u64]);
test_ptx!(cvt_sat_s_u, [-1i32], [0i32]);
test_ptx!(cvta, [3.0f32], [3.0f32]);
test_ptx!(block, [1u64], [2u64]);
test_ptx!(local_align, [1u64], [1u64]);
test_ptx!(call, [1u64], [2u64]);
test_ptx!(vector, [1u32, 2u32], [3u32, 3u32]);
test_ptx!(ld_st_offset, [1u32, 2u32], [2u32, 1u32]);
test_ptx!(ntid, [3u32], [4u32]);
test_ptx!(reg_local, [12u64], [13u64]);
test_ptx!(mov_address, [0xDEADu64], [0u64]);
test_ptx!(b64tof64, [111u64], [111u64]);
test_ptx!(implicit_param, [34u32], [34u32]);
test_ptx!(pred_not, [10u64, 11u64], [2u64, 0u64]);
test_ptx!(mad_s32, [2i32, 3i32, 4i32], [10i32, 10i32, 10i32]);
test_ptx!(
mul_wide,
[0x01_00_00_00__01_00_00_00i64],
[0x1_00_00_00_00_00_00i64]
);
test_ptx!(vector_extract, [1u8, 2u8, 3u8, 4u8], [3u8, 4u8, 1u8, 2u8]);
test_ptx!(shr, [-2i32], [-1i32]);
test_ptx!(or, [1u64, 2u64], [3u64]);
test_ptx!(sub, [2u64], [1u64]);
test_ptx!(min, [555i32, 444i32], [444i32]);
test_ptx!(max, [555i32, 444i32], [555i32]);
test_ptx!(global_array, [0xDEADu32], [1u32]);
test_ptx!(extern_shared, [127u64], [127u64]);
test_ptx!(extern_shared_call, [121u64], [123u64]);
test_ptx!(rcp, [2f32], [0.5f32]);
// 0b1_00000000_10000000000000000000000u32 is a large denormal
// 0x3f000000 is 0.5
test_ptx!(
mul_ftz,
[0b1_00000000_10000000000000000000000u32, 0x3f000000u32],
[0b1_00000000_00000000000000000000000u32]
);
test_ptx!(
mul_non_ftz,
[0b1_00000000_10000000000000000000000u32, 0x3f000000u32],
[0b1_00000000_01000000000000000000000u32]
);
test_ptx!(constant_f32, [10f32], [5f32]);
test_ptx!(constant_negative, [-101i32], [101i32]);
test_ptx!(and, [6u32, 3u32], [2u32]);
test_ptx!(selp, [100u16, 200u16], [200u16]);
test_ptx!(selp_true, [100u16, 200u16], [100u16]);
test_ptx!(fma, [2f32, 3f32, 5f32], [11f32]);
test_ptx!(shared_variable, [513u64], [513u64]);
test_ptx!(shared_ptr_32, [513u64], [513u64]);
test_ptx!(atom_cas, [91u32, 91u32], [91u32, 100u32]);
test_ptx!(atom_inc, [100u32], [100u32, 101u32, 0u32]);
test_ptx!(atom_add, [2u32, 4u32], [2u32, 6u32]);
test_ptx!(div_approx, [1f32, 2f32], [0.5f32]);
test_ptx!(sqrt, [0.25f32], [0.5f32]);
test_ptx!(rsqrt, [0.25f64], [2f64]);
test_ptx!(neg, [181i32], [-181i32]);
test_ptx!(sin, [std::f32::consts::PI / 2f32], [1f32]);
test_ptx!(cos, [std::f32::consts::PI], [-1f32]);
test_ptx!(lg2, [512f32], [9f32]);
test_ptx!(ex2, [10f32], [1024f32]);
test_ptx!(cvt_rni, [9.5f32, 10.5f32], [10f32, 10f32]);
test_ptx!(cvt_rzi, [-13.8f32, 12.9f32], [-13f32, 12f32]);
test_ptx!(cvt_s32_f32, [-13.8f32, 12.9f32], [-13i32, 13i32]);
test_ptx!(clz, [0b00000101_00101101_00010011_10101011u32], [5u32]);
test_ptx!(popc, [0b10111100_10010010_01001001_10001010u32], [14u32]);
test_ptx!(
brev,
[0b11000111_01011100_10101110_11111011u32],
[0b11011111_01110101_00111010_11100011u32]
);
test_ptx!(
xor,
[
0b01010010_00011010_01000000_00001101u32,
0b11100110_10011011_00001100_00100011u32
],
[0b10110100100000010100110000101110u32]
);
test_ptx!(rem, [21692i32, 13i32], [8i32]);
test_ptx!(
bfe,
[0b11111000_11000001_00100010_10100000u32, 16u32, 8u32],
[0b11000001u32]
);
test_ptx!(bfi, [0b10u32, 0b101u32, 0u32, 2u32], [0b110u32]);
test_ptx!(stateful_ld_st_simple, [121u64], [121u64]);
test_ptx!(stateful_ld_st_ntid, [123u64], [123u64]);
test_ptx!(stateful_ld_st_ntid_chain, [12651u64], [12651u64]);
test_ptx!(stateful_ld_st_ntid_sub, [96311u64], [96311u64]);
test_ptx!(shared_ptr_take_address, [97815231u64], [97815231u64]);
// For now, we just make sure that it builds and links
test_ptx!(assertfail, [716523871u64], [716523872u64]);
test_ptx!(cvt_s64_s32, [-1i32], [-1i64]);
test_ptx!(add_tuning, [2u64], [3u64]);
test_ptx!(add_non_coherent, [3u64], [4u64]);
test_ptx!(sign_extend, [-1i16], [-1i32]);
test_ptx!(atom_add_float, [1.25f32, 0.5f32], [1.25f32, 1.75f32]);
test_ptx!(
setp_nan,
[
0.5f32,
f32::NAN,
f32::NAN,
0.5f32,
f32::NAN,
f32::NAN,
0.5f32,
0.5f32
],
[1u32, 1u32, 1u32, 0u32]
);
test_ptx!(
setp_num,
[
0.5f32,
f32::NAN,
f32::NAN,
0.5f32,
f32::NAN,
f32::NAN,
0.5f32,
0.5f32
],
[0u32, 0u32, 0u32, 2u32]
);
test_ptx!(non_scalar_ptr_offset, [1u32, 2u32, 3u32, 4u32], [7u32]);
struct DisplayError<T: Debug> {
err: T,
}
impl<T: Debug> Display for DisplayError<T> {
fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
Debug::fmt(&self.err, f)
}
}
impl<T: Debug> Debug for DisplayError<T> {
fn fmt(&self, f: &mut Formatter<'_>) -> fmt::Result {
Debug::fmt(&self.err, f)
}
}
impl<T: Debug> error::Error for DisplayError<T> {}
fn test_ptx_assert<
'a,
Input: From<u8> + Debug + Copy + PartialEq,
Output: From<u8> + Debug + Copy + PartialEq + Default,
>(
name: &str,
ptx_text: &'a str,
input: &[Input],
output: &mut [Output],
) -> Result<(), Box<dyn error::Error + 'a>> {
let mut errors = Vec::new();
let ast = ptx::ModuleParser::new().parse(&mut errors, ptx_text)?;
assert!(errors.len() == 0);
let zluda_module = translate::to_spirv_module(ast)?;
let name = CString::new(name)?;
let result = run_spirv(name.as_c_str(), zluda_module, input, output)
.map_err(|err| DisplayError { err })?;
assert_eq!(result.as_slice(), output);
Ok(())
}
fn run_spirv<Input: From<u8> + Copy + Debug, Output: From<u8> + Copy + Debug + Default>(
name: &CStr,
module: translate::Module,
input: &[Input],
output: &mut [Output],
) -> ze::Result<Vec<Output>> {
ze::init()?;
let spirv = module.spirv.assemble();
let byte_il = unsafe {
slice::from_raw_parts::<u8>(
spirv.as_ptr() as *const _,
spirv.len() * mem::size_of::<u32>(),
)
};
let use_shared_mem = module
.kernel_info
.get(name.to_str().unwrap())
.map(|info| info.uses_shared_mem)
.unwrap_or(false);
let result = vec![0u8.into(); output.len()];
{
let mut drivers = ze::Driver::get()?;
let drv = drivers.drain(0..1).next().unwrap();
let mut devices = drv.devices()?;
let dev = devices.drain(0..1).next().unwrap();
let ctx = ze::Context::new(drv, None)?;
let queue = ze::CommandQueue::new(&ctx, dev)?;
let (module, maybe_log) = match module.should_link_ptx_impl {
Some(ptx_impl) => ze::Module::build_link_spirv(
&ctx,
dev,
&[ptx_impl, byte_il],
Some(module.build_options.as_c_str()),
),
None => {
let (module, log) = ze::Module::build_spirv_logged(
&ctx,
dev,
byte_il,
Some(module.build_options.as_c_str()),
);
(module, Some(log))
}
};
let module = match module {
Ok(m) => m,
Err(err) => {
let raw_err_string = maybe_log
.map(|log| log.to_cstring())
.transpose()?
.unwrap_or(CString::default());
let err_string = raw_err_string.to_string_lossy();
panic!("{:?}\n{}", err, err_string);
}
};
let kernel = ze::Kernel::new_resident(&module, name)?;
kernel.set_indirect_access(
ze::sys::ze_kernel_indirect_access_flags_t::ZE_KERNEL_INDIRECT_ACCESS_FLAG_DEVICE,
)?;
let inp_b = ze::DeviceBuffer::<Input>::new(&ctx, dev, cmp::max(input.len(), 1))?;
let out_b = ze::DeviceBuffer::<Output>::new(&ctx, dev, cmp::max(output.len(), 1))?;
let event_pool = ze::EventPool::new(&ctx, 3, Some(&[dev]))?;
let ev0 = ze::Event::new(&event_pool, 0)?;
let ev1 = ze::Event::new(&event_pool, 1)?;
let ev2 = ze::Event::new(&event_pool, 2)?;
{
let init_evs = [&ev0, &ev1];
kernel.set_group_size(1, 1, 1)?;
kernel.set_arg_buffer(0, &inp_b)?;
kernel.set_arg_buffer(1, &out_b)?;
if use_shared_mem {
unsafe { kernel.set_arg_raw(2, 128, ptr::null())? };
}
ze::CommandListBuilder::new(&ctx, dev)?
.append_memory_copy(&inp_b, input, Some(&init_evs[0]), &[])?
.append_memory_fill(&out_b, &Output::default(), Some(&init_evs[1]), &[])?
.append_launch_kernel(&kernel, &[1, 1, 1], Some(&ev2), &init_evs)?
.append_memory_copy(&*result, &out_b, None, &[&ev2])?
.execute(&queue)?;
}
}
Ok(result)
}
fn test_spvtxt_assert<'a>(
ptx_txt: &'a str,
spirv_txt: &'a [u8],
spirv_file_name: &'a str,
) -> Result<(), Box<dyn error::Error + 'a>> {
let mut errors = Vec::new();
let ast = ptx::ModuleParser::new().parse(&mut errors, ptx_txt)?;
assert!(errors.len() == 0);
let spirv_module = translate::to_spirv_module(ast)?;
let spv_context =
unsafe { spirv_tools::spvContextCreate(spv_target_env::SPV_ENV_UNIVERSAL_1_3) };
assert!(spv_context != ptr::null_mut());
let mut spv_binary: spv_binary = ptr::null_mut();
let result = unsafe {
spirv_tools::spvTextToBinary(
spv_context,
spirv_txt.as_ptr() as *const _,
spirv_txt.len(),
&mut spv_binary,
ptr::null_mut(),
)
};
if result != spv_result_t::SPV_SUCCESS {
panic!("{:?}\n{}", result, unsafe {
str::from_utf8_unchecked(spirv_txt)
});
}
let mut parsed_spirv = Vec::<u32>::new();
let result = unsafe {
spirv_tools::spvBinaryParse(
spv_context,
&mut parsed_spirv as *mut _ as *mut _,
(*spv_binary).code,
(*spv_binary).wordCount,
Some(parse_header_cb),
Some(parse_instruction_cb),
ptr::null_mut(),
)
};
assert!(result == spv_result_t::SPV_SUCCESS);
let mut loader = Loader::new();
rspirv::binary::parse_words(&parsed_spirv, &mut loader)?;
let spvtxt_mod = loader.module();
unsafe { spirv_tools::spvBinaryDestroy(spv_binary) };
if !is_spirv_fns_equal(&spirv_module.spirv.functions, &spvtxt_mod.functions) {
// We could simply use ptx_mod.disassemble, but SPIRV-Tools text formattinmg is so much nicer
let spv_from_ptx_binary = spirv_module.spirv.assemble();
let mut spv_text: spirv_tools::spv_text = ptr::null_mut();
let result = unsafe {
spirv_tools::spvBinaryToText(
spv_context,
spv_from_ptx_binary.as_ptr(),
spv_from_ptx_binary.len(),
(spirv_tools::spv_binary_to_text_options_t::SPV_BINARY_TO_TEXT_OPTION_INDENT | spirv_tools::spv_binary_to_text_options_t::SPV_BINARY_TO_TEXT_OPTION_NO_HEADER | spirv_tools::spv_binary_to_text_options_t::SPV_BINARY_TO_TEXT_OPTION_FRIENDLY_NAMES).0,
&mut spv_text as *mut _,
ptr::null_mut()
)
};
unsafe { spirv_tools::spvContextDestroy(spv_context) };
let spirv_text = if result == spv_result_t::SPV_SUCCESS {
let raw_text = unsafe {
std::slice::from_raw_parts((*spv_text).str_ as *const u8, (*spv_text).length)
};
let spv_from_ptx_text = unsafe { str::from_utf8_unchecked(raw_text) };
// TODO: stop leaking kernel text
Cow::Borrowed(spv_from_ptx_text)
} else {
Cow::Owned(spirv_module.spirv.disassemble())
};
if let Ok(dump_path) = env::var("ZLUDA_TEST_SPIRV_DUMP_DIR") {
let mut path = PathBuf::from(dump_path);
if let Ok(()) = fs::create_dir_all(&path) {
path.push(spirv_file_name);
#[allow(unused_must_use)]
{
fs::write(path, spirv_text.as_bytes());
}
}
}
panic!(spirv_text.to_string());
}
unsafe { spirv_tools::spvContextDestroy(spv_context) };
Ok(())
}
struct EqMap<T>
where
T: Eq + Copy + Hash,
{
m1: HashMap<T, T>,
m2: HashMap<T, T>,
}
impl<T: Copy + Eq + Hash> EqMap<T> {
fn new() -> Self {
EqMap {
m1: HashMap::new(),
m2: HashMap::new(),
}
}
fn is_equal(&mut self, t1: T, t2: T) -> bool {
match (self.m1.entry(t1), self.m2.entry(t2)) {
(Entry::Occupied(entry1), Entry::Occupied(entry2)) => {
*entry1.get() == t2 && *entry2.get() == t1
}
(Entry::Vacant(entry1), Entry::Vacant(entry2)) => {
entry1.insert(t2);
entry2.insert(t1);
true
}
_ => false,
}
}
}
fn is_spirv_fns_equal(fns1: &[Function], fns2: &[Function]) -> bool {
if fns1.len() != fns2.len() {
return false;
}
for (fn1, fn2) in fns1.iter().zip(fns2.iter()) {
if !is_spirv_fn_equal(fn1, fn2) {
return false;
}
}
true
}
fn is_spirv_fn_equal(fn1: &Function, fn2: &Function) -> bool {
let mut map = EqMap::new();
if !is_option_equal(&fn1.def, &fn2.def, &mut map, is_instr_equal) {
return false;
}
if !is_option_equal(&fn1.end, &fn2.end, &mut map, is_instr_equal) {
return false;
}
if fn1.parameters.len() != fn2.parameters.len() {
return false;
}
for (inst1, inst2) in fn1.parameters.iter().zip(fn2.parameters.iter()) {
if !is_instr_equal(inst1, inst2, &mut map) {
return false;
}
}
if fn1.blocks.len() != fn2.blocks.len() {
return false;
}
for (b1, b2) in fn1.blocks.iter().zip(fn2.blocks.iter()) {
if !is_block_equal(b1, b2, &mut map) {
return false;
}
}
true
}
fn is_block_equal(b1: &Block, b2: &Block, map: &mut EqMap<Word>) -> bool {
if !is_option_equal(&b1.label, &b2.label, map, is_instr_equal) {
return false;
}
if b1.instructions.len() != b2.instructions.len() {
return false;
}
for (inst1, inst2) in b1.instructions.iter().zip(b2.instructions.iter()) {
if !is_instr_equal(inst1, inst2, map) {
return false;
}
}
true
}
fn is_instr_equal(instr1: &Instruction, instr2: &Instruction, map: &mut EqMap<Word>) -> bool {
if instr1.class.opcode != instr2.class.opcode {
return false;
}
if !is_option_equal(&instr1.result_type, &instr2.result_type, map, is_word_equal) {
return false;
}
if !is_option_equal(&instr1.result_id, &instr2.result_id, map, is_word_equal) {
return false;
}
if instr1.operands.len() != instr2.operands.len() {
return false;
}
for (o1, o2) in instr1.operands.iter().zip(instr2.operands.iter()) {
match (o1, o2) {
(Operand::IdMemorySemantics(w1), Operand::IdMemorySemantics(w2)) => {
if !is_word_equal(w1, w2, map) {
return false;
}
}
(Operand::IdScope(w1), Operand::IdScope(w2)) => {
if !is_word_equal(w1, w2, map) {
return false;
}
}
(Operand::IdRef(w1), Operand::IdRef(w2)) => {
if !is_word_equal(w1, w2, map) {
return false;
}
}
(o1, o2) => {
if o1 != o2 {
return false;
}
}
}
}
true
}
fn is_word_equal(t1: &Word, t2: &Word, map: &mut EqMap<Word>) -> bool {
map.is_equal(*t1, *t2)
}
fn is_option_equal<T, F: FnOnce(&T, &T, &mut EqMap<Word>) -> bool>(
o1: &Option<T>,
o2: &Option<T>,
map: &mut EqMap<Word>,
f: F,
) -> bool {
match (o1, o2) {
(Some(t1), Some(t2)) => f(t1, t2, map),
(None, None) => true,
_ => panic!(),
}
}
unsafe extern "C" fn parse_header_cb(
user_data: *mut c_void,
endian: spv_endianness_t,
magic: u32,
version: u32,
generator: u32,
id_bound: u32,
reserved: u32,
) -> spv_result_t {
if endian == spv_endianness_t::SPV_ENDIANNESS_BIG {
return spv_result_t::SPV_UNSUPPORTED;
}
let result_vec: &mut Vec<u32> = std::mem::transmute(user_data);
result_vec.push(magic);
result_vec.push(version);
result_vec.push(generator);
result_vec.push(id_bound);
result_vec.push(reserved);
spv_result_t::SPV_SUCCESS
}
unsafe extern "C" fn parse_instruction_cb(
user_data: *mut c_void,
inst: *const spv_parsed_instruction_t,
) -> spv_result_t {
let inst = &*inst;
let result_vec: &mut Vec<u32> = std::mem::transmute(user_data);
for i in 0..inst.num_words {
result_vec.push(*(inst.words.add(i as usize)));
}
spv_result_t::SPV_SUCCESS
}
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