* this removes the flag controlling whether the interpreter works on variables.
* now the interpreter _always_ works on variables
* constants in the IR are still _always_ non-variables, and an assert was added to ensure this.
* as_tensor was split into as_variable and as_tensor since it is sometimes used
to construct constants in the IR
* I tried changing the IR to also always use variables but that change was much more
cross cutting and fragile and I never got it working
When tracing we record expand nodes. This is useful in some cases because
it makes it clear a broadcast happened. However, in future runs
the broadcast may be different or not needed. This change adds an
attribute to expand to track if it was implicitly added. This
takes the form of an unused input to expand with a default value.
The execution engine then removes implicit expands before execution.
Note that shape_analysis will re-add expands when it can prove by
shape analysis that they will exist and this is useful for the fuser,
so this change should not affect fusion passes.
* Enable WERROR in tests
* Also set WERROR=1 for cpp_build in CI
* Enable Werror after the compiler checks
* Remove -DWERROR because its picked up from the env var
* Had to fix some errors in aten/contrib/data
* Allow an uninitialized variable in ReduceOpsKernel.cpp
* Use CUDNN_DATA_UINT8 in cuDNN type string conversion
* Fixes and use target_compile_options
* Fix uninitialized variables in THNN
* Include Python.h earlier in tensor_types.cpp
* Use CUDNN_VERSION 7100 instead of 7000?
* More Python.h includes
* Make switch case in common_subexpression_elimination.cpp exhaustive
* Build with WERROR=0 just to see all the warnings
* Remove some Python includes
* Enable WERROR=1 again
* Bring back switch case default
* Workaround in onnx to get transposes into init_nets
This adds a pass to ONNX so that it can speculate Transpose
operators so that ONNX's split pass can put them into an init_net
Also fixes a potential bug in onnx peephole where an optimization
across blocks might move a Value and violate scoping.
* Perform shape propagation when embedding a program into a trace.
This ensures the trace still has type information specific to that trace, which will help onnx export succeed in more cases.
This adds the ability to trace script functions while preserving their
control flow. When the trace encounters a script function it inlines
the graph of the function into the trace rather than tracing the
function itself.
* Fixes to the way script handles multiple values, and other minor fixes.
This commit improves our handling of operators that return multiple values.
Builtins are now checked so that they return the right number of values,
and support for TupleValue is extended to all things that can return
multiple values.
This resolves issues where the compiler accepted things like:
a, b = c + c
This would cause the interpreter to crash. Now each operator knows
how many results it will produce and can check it against the number
of requested inputs.
Notes:
* Allow True/False literals in constant expressions
* make handling of keyword constants more consistent to support True/False
* make parsing constants match the way we construct constants from python
* improve the error messages when accessing bad graph attributes.
* switch findTensorOp to return an optional.
* check that attribute types are correct in findTensorOp
* Check the correct number of outputs for builtins
This also changes emitExpr to return a single SugaredValue
Rather than possibly returning multiple values, emitExpr now
always returns a single value, which _might_ be a tuple. This approach
more closely follows python making the code easier to follow.
Checks for returning the right number of values are now located in
the assignment operator, and occur when unpacking the tuple.
We still pass `n_binders` to function calls so that calls into python
know how many values they should return.
Like `__slots__` the `__constants__` property changes the set/getattr behavior of a script module for the keys listed so they behave as constants.
This enables script methods to use them in way that are otherwise not allowed.
* Python numbers/bools can be inlined as constants in script code.
* List of numbers can be iterated over using for loops
* nn.ModuleLists can be used in for loops as well, unrolling their content.
* Namespaced symbols
- Our interned strings now have structure, "ns::symname" rather than just
"symname" before. We support efficient namespace testing for uniques
by encoding the namespace in one byte in the Symbol internal representation.
See torch/csrc/jit/interned_strings.h for a more in-depth implementation
discussion.
- All uses of ksymbol are now attr::symbol (or some appropriate namespace).
The valid namespaces are prim, attr, onnx and aten.
- Symbol is bound in Python as a qualified string "attr::symbol", EXCEPT for the
attribute setting/getting API, whose symbols must always be attr
symbols; they get special cased to assume strings are passed.
There's a little bit of naughtiness in the implementation, maybe you know
how to solve it.
- However, the g.op() convenience function assumes that you're generating
ONNX operators, unless you explicitly qualify.
- All ATen operators and nodes have built-in interned strings generated
for them, so you should never have to write a string literal ever again.
The tracing code is adjusted to use it.
- ONNX exporter now properly tests to see that all operators are in
onnx namespace before accepting the export. This is way more
robust than the previous exporter, which would be willing to
export capitalized operators which were not actually ONNX operators.
- A slight organizational change for symbolic.py; this module now ONLY
contains aten operators. In particular, the exporter for Constant
has moved into utils.py (along with Undefined, from the C++ side),
since primitive ops get "special treatment."
- The un-inplacing logic in recording is more robust, so that we don't
delete a trailing underscore from __and__. This never affected us
before because we didn't have any tests for it.
Signed-off-by: Edward Z. Yang <ezyang@fb.com>
This PR adds the possibility to build the C++ parts of autograd and jit, with no dependency on Python.
The goal is to allow taking a PyTorch IR representation (a tree s-expr) and running it with provided inputs.
Prerequisite: build PyTorch so that codegen runs once.
Instructions:
cd tools/cpp_build
bash build_all.sh
This will build libtorchjit and torchjit_test in tools/cpp_build/build/torchjit-build. The latter basically runs the code in test_jit.cpp for now.
While writing the PR, it turned out that a few of Python.h includes were redundant. They were removed here (PyTorch tests still pass on my machine, we'll see CI).
* Introduce Python-free builds of autograd and jit
* Remove NO_PYTHON ifdef in functions/special
* Add Python function calls to script
* Script compiler gains a `Resolver` object that runs when it does not understand a function call. This decouples the python resolution from the conversion to IR.
* Use stacks in the interpreter/aten_dispatch
Rather than have separate input/output lists,
the interpreter now works using a single stack.
Operators in the interpreter push/pop from the stack.
This allows ownership of tensors to transfer directly to an operator,
and an operator can drop the reference to a tensors as soon as it is
no longer needed. This is important for the GraphExecutor op,
which recursively runs the interpreter.
Once autograd is updated to pass variables to Function by value,
we will be able to ensure that we release ownership as soon as possible.
This commit also switches the interpreter to use a fake
tensor 'ContainerTensor' rather than at::Retainable to hold non-tensor
data in the interpreter. This allows us to use std::vector<at::Tensor>
for all registers, which is significantly less confusing than the
OwnedRetainables struct it was replacing.
* Add If and Loop to interpreter
* Preprocess loop to calculate where references to tensor should be dropped
* Add control instructions JumpZ/JumpNZ/Jump
* Switch from explicitly having stage structs to having a single list
of instructions with Store/Load instructions to take values off the
initial stack
* Make the interpreter tests executable rather than use expect files
* add a flag to interpreter code so that constants are variables
if the interpreter is running on variables.
* Add tensor_as to its own file
* Improve Function interface
* Undo tracer changes
* Fix bug in VariableType.set_history
* Rename function_counter and sequence_number to sequence_nr
* Clarify Function documentation
* Replace swap_next_edges with next_edges() getter
* Bring back set_gradient_edge
* Simplify special.cpp
* add_gradient_edge -> create_gradient_edge
* Add mutable getters for pre/post hooks
* Use make_variable with Edge
* Remove remove_gradient_edge in favor of detach_
* Fix documentation and remove create_gradient_edge friend method
* Canonicalize some includes
* Improve Variable interface
* Address comments from @apaszke and @colesbury
* string ::operator= is not noexcept
* Remove ir.h from tracer_state.h to improve build times
* Make Variable a struct and pack SavedVariable fields
* Implement as_variable_ref
* grad_fn_ptr() -> grad_fn_unsafe()
* Reduce hackiness of set_type hack
* Include variable.h and edge.h in tracer_state.h because it uses them
* class Variable -> struct Variable because Windows cant even
* Make Variable::output_nr uint32_t instead of int
* Add comment about tracing state
* Replaced more static_cast<Variable&> and improve docs
* Remove SavedVariable destructor and construct members in init list
* Clarify docs for Variable
* Variable::set_version -> set_version_counter
* Remove addValues and use WithInsertPoint
* Use blocks to simplify differentiate
Using @ezyang's suggestion, this change uses a block rather than
staging annotations to represent the reverse pass. This allows us
to reuse the machinery to copy graphs/blocks to extract the
reverse pass concisely.
This also change the input order of Gradients df to:
[output vjps][temporary vjps][captures]
In addition to being simpler to generate in this order, it also
will allow ExecutionPlan to append the captures onto the already-
existing input list of vjps that are given by the autograd,
rather than have to prepend them, which should be slightly cheaper.
* Enforce that input capture are before outputs
This changes the Gradient struct to enforce that input
captures appear before output captures in the capture list,
which makes it easier to use in ExecutionPlan.
This adds the initial implementation of graph executor for the new JIT design. It includes a few python tests ensuring that nograd, backward, and double-backward cases work for simple examples and some corner cases. More work needs to be done to performance optimize as there are many extra copies and places where we hold onto variables longer than we should. These are noted in the comments.
