Currently, we use heuristics to determine if the conversion errors come from directly inlining the std integer types. However, if those operations are wrapped in another transparent function, we will not see the user-visible integer types anymore, so we fall back to Builtin types. Enhance the diagnostics in that case to specify if the sign-agnostic Builtin types are signed or unsigned.
This reverts r10484 and adds test cases.
Swift SVN r10512
Instead of hardcoding Builtin.Word to be an alias for Builtin.Int64, make it its own type of abstract pointer width.
- Change BuiltinIntegerType's width representation to accommodate abstract widths.
- In the AST and in SIL, store values of the types as the greatest supported size for the abstract width (64 bits for a pointer).
- Add some type safety to the ([sz]ext|trunc)(OrBitCast)? builtins that they're used appropriately given the upper and lower bounds of the abstract sizes they're working with.
- Now that Builtin.Word is a distinct type, give it its own mangling.
- In IRGen, lower pointer-sized BuiltinIntegerType appropriately for the target, and truncate lowered SIL values if necessary.
Fixes <rdar://problem/15367913>.
Swift SVN r10467
Add new builtins(by generalizing, renaming, and extending the builtins used for compile time integer literal checking). These new builtins truncate integers and check for overflow/truncation errors at runtime. Use these for FixedPoint conversion constructors.
Fix a routine in stdlib's String implementation and a test that relied on bitwise behavior of the constructors (and triggered overflows).
TODO:
- Teach CCP about these to get static checking.
- Add special builtins for same size signed <-> unsigned conversions.
Swift SVN r10432
tuple-producing results (like those produced by folding overflow builtins).
Before the pass would just RAUW the apply_inst with a tuple_inst, but this
would leave around a bunch of tuple extracts. Now we seek and destroy them.
This unblocks other transformations and allows the stdlib to shrink by another
1700 LOC.
Swift SVN r9900
There are no values other than instructions that can use other values. BBArguments are
defs, not uses. This eliminates a bunch of casts in clients that use getUser().
Swift SVN r9701
Instead of adding all the instructions into the WorkList to begin with,
add only the constants and try to fold their users. Each time a user can
be folded, add it to the WorkList. This keeps the WorkList smaller.
The inverted algorithm also allows to simplify the handling of struct_extract
and tuple_extract.
(as suggested by Chris in comments on r9545)
Swift SVN r9598
the algorithm looks great, I made a number of minor stylistic
and comment changes, used some simpler APIs, and simplified
some things. The only functionality change is a corner case
correctness bug where it looks like the struct/tuple extraction
folding logic in constantFoldInstruction could return the wrong
result in some corner case.
Swift SVN r9547
(This only fails under -DSWIFT_OPTIMIZED=NO; most likely due to an llvm bug.)
We've decided that it's best to specialize each arithmetic builtin that could overflow, instead of calling a separate generic "staticReport" builtin and passing it enough info to produce the message. The main advantage of this approach is that it would be possible for the compiler to customize the message and better link it to the builtin that overflows. For example, the constants that participated in the computation could be printed. In addition, less code will be generated and the compiler could, in the future, automatically emit the overflow diagnostics/trap at runtime.
This patch introduces new versions of op_with_overflow swift builtins. Which are lowered to llvm.op_with_overflow builtins in IRGen after the static diagnostics. If the last argument to the builtins evaluates to true, the overflow is unintentional. CCP uses the builtins to diagnose the overflow detectable at compile time. FixedPoint is changed to rely on these in implementation of primitive arithmetic operations.
Swift SVN r9328
- Added 2 new builtins strunc_with_overflow and utrunc_with_overflow
that perform truncation and produce a compile time error when truncation
overflows.
- Used these builtins instead of trunc to implement "_convertFromBuiltinIntegerLiteral".
- Currently, the builtins are converted to trunc in IRGen, but we should
not be IRGenning code that uses them, since all uses of
"_convertFromBuiltinIntegerLiteral" should be inlined and the arguments
constant folded.
- I had to change a test and the implementation of operator '~' in the standard library
because they assumed that '0xFF' is a valid signed Int8. It is questionable if we should
allow this and if we should treat signed and unsigned integers differently depending on
how they are spelled (decimal or hexadecimal).
* This patch will be further improved (Ex: will start finding overflows on Int64, better
deal with '-128' after the negative integer literal patch is committed.)
Swift SVN r9226
This was causing massive failures at run-time.
This reverts commit 80081db973ccb7100741fea19ce8e8c116fc410f.
Conflicts:
lib/SILPasses/ConstantPropagation.cpp
test/SILPasses/constant_propagation.swift
test/SILPasses/constant_propagation2.sil
Swift SVN r9050
After talking to John, Joe, and Dave Z, we've decided that it's best to
specialize each arithmetic builtin that could overflow, instead of calling
a separate generic "staticReport" builtin and passing it enough info to
produce the message. The main advantage of this approach is that it
would be possible for the compiler to customize the message and better
link it to the builtin that overflows. For example, the constants that
participated in the computation could be printed. In addition, less code
will be generated and the compiler could, in the future, automatically
emit the overflow diagnostics/trap at runtime.
This patch introduces new versions of op_with_overflow swift builtins.
Which are lowered to llvm.op_with_overflow builtins in IRGen after the
static diagnostics. If the last argument to the builtins evaluates to true,
the overflow is unintentional. CCP uses the builtins to diagnose the overflow
detectable at compile time. FixedPoint is changed to rely on these in
implementation of primitive arithmetic operations.
Swift SVN r9034
- Introduces the Builtin
- If the first parameter evaluates to '1', the dataflow diagnostics pass produces a diagnostic.
- The Builtin gets cleaned up before IRGen, but not before SIL serialization.
This patch also removes the current, overflow warning and XFAILs one of the tests. The other test is switched to use Builtin.staticReport.
TODO:
- Utilize the other parameters to the builtin - the Message and IsError flag.
- Use this Builtin within the stdlib.
Swift SVN r8939
- Adds transparent attribute to add/mult/sub on integer types.
- Fix a bug in ConstantPropagation that ensures that the propagation is triggered on StructExtract, when struct is simplified.
- Slightly improve the error message.
Swift SVN r8825
These are the terms sent out in the proposal last week and described in
StoredAndComputedVariables.rst.
variable
anything declared with 'var'
member variable
a variable inside a nominal type (may be an instance variable or not)
property
another term for "member variable"
computed variable
a variable with a custom getter or setter
stored variable
a variable with backing storage; any non-computed variable
These terms pre-exist in SIL and IRGen, so I only attempted to solidify
their definitions. Other than the use of "field" for "tuple element",
none of these should be exposed to users.
field
a tuple element, or
the underlying storage for a stored variable in a struct or class
physical
describes an entity whose value can be accessed directly
logical
describes an entity whose value must be accessed through some accessor
Swift SVN r8698
Make the functions support a wider range of builtins and store types to make
it possible.
This is an optimization - the cached ID will be used for builtin identification,
instead of retrieval of the string name and using it as the key.
Swift SVN r7390
It would be good if LLVM provided mechanism to find out which intrinsics do not have side effects.
Currently, just ensure that everything we might constant fold is in that category.
Swift SVN r7312
The cache is stored in the SILModule.
Add getIntrinsicID() as a member of BuiltinFunctionRefInst.
Test by using the new method in the CCP pass.
Swift SVN r7311
