Previously, stage2 used a global decl_table for all Decl objects, keyed
by a 16-byte name hash that was hopefully unique. Now, there is a tree
of Namespace objects that own their named Decl objects.
There was missing incremental compilation logic in the MachO linker
code, causing test failures. With this logic ported over from the
corresponding ELF logic, tests pass again.
Previously the frontend incorrectly called freeDecl for structs, which
never got allocateDecl called for them. There was simply a missing check
for hasCodeGenBits().
In c8b78706b74d16ed21113096d2b47717abb53d4d I incorrectly made it be the
line offset from Decl to function lbrace; it needed to be line offset
from lbrace to rbrace.
* Advance line and PC prior to ending sequence in debug line program
for a fn_decl. This is equivalent to closing scope in the debugger
and without it, the debugger will not map source-to-address info
as a result will not print the source when breaking at a symbol.
* Fix debug aranges sentinels to be of the size as the actual tuple
descriptor (assuming segment selector to be ommitted). In summary,
the sentinels were 32bit 0s, whereas they ought to be 64bit 0s.
* Make naming of symbols in the binary more consistent by prefixing
each symbol name with an underscore '_'.
Conflicts:
* build.zig
* src/Compilation.zig
* src/codegen/spirv/spec.zig
* src/link/SpirV.zig
* test/stage2/darwin.zig
- this one might be problematic; start.zig looks for `main` in the
root source file, not `_main`. Not sure why there is an underscore
there in master branch.
As it stands, the backend is incomplete, and there is no active contributor,
making it dead weight.
However, anyone is free to resurrect this backend at any time.
Just like when new parse errors occur during an update, when new AstGen
errors occur during an update, we do not reveal compile errors for Decl
objects which are inside of a newly failed File. Once the File passes
AstGen successfully, it will be compared with the previously succeeded
ZIR and the saved Decl compile errors will be handled properly.
Previously, compile log stored full SrcLoc info, which included absolute
AST node index. This becomes invalid after an incremental compilation.
To make it survive incremental compilation, store an offset from parent
Decl instead.
* Do not report export collision errors until the very end, because it
is possible, during an update, for a new export to be added before an
old one is semantically analyzed to be deleted. In such a case there
should be no compile error.
- Likewise we defer emitting exports until the end when we know for
sure what will happen.
* Sema: Fix not adding a Decl dependency on imported files.
* Sema: Properly add Decl dependencies for all identifier and namespace
lookups.
* After semantic analysis for a Decl, if it is still marked as
`in_progress`, change it to `dependency_failure` because if the Decl
itself failed, it would have already been changed during the call to
add the compile error.
Originally, I thought that the dSYM bundle has to reside side-by-side
with the binary it carries the debugging information for. However, it
turns out macOS is clever enough that it auto-searches for matching
dSYM bundle based on the embedded UUID of the binary.
To verify this, run this on your macOS:
```
mdfind "com_apple_xcode_dsym_uuids == <UUID from LC_UUID>"
```
See [here] for more info.
[here]: https://developer.apple.com/documentation/xcode/adding-identifiable-symbol-names-to-a-crash-report
* Remove the ability for GenZir parent Scope to be null. Now there is a
Top Scope at the top.
* Introduce Scope.Namespace to contain a table of decl names in order
to emit a compile error for name conflicts.
* Fix use of invalid memory when reporting compile errors by
duplicating decl names into a temporary heap allocated buffer.
* Fix memory leak in while and for loops, not cleaning up their
labeled_breaks and store_to_block_ptr_list arrays.
* Fix stage2 test cases because now the source location of redundant
comptime keyword compile errors is improved.
* Implement compile error for local variable shadowing declaration.
commitDeclDebugInfo: stop trying to write length 0 debug info - avoids
hitting an error where zig tries to move the debug info section
unnecessarily, gets confused, and reports `error.InputOutput`.
The 2 pieces of code that looked at the source and tried to compute
source line offsets is now improved to match link/Elf - use the
line/column data stored in the Decl object to skip the costly scanning
of source bytes. No need to load Zig source code, AST, or tokens, when
we have the ZIR!
* `-lc++` now implies `-lc`.
* `-lunwind` is now pulled out into a separate `link_libunwind` flag in
the frontend driver code. This allows a project to request zig to
provide libunwind even if the default situation that causes it to be
implicitly added, is not active.
* build.zig: ask for -lunwind when building the self-hosted compiler on
Linux. Otherwise we get linker errors with unresolved symbols to
libunwind.
* for cross testing stage2 tests, we use `darling shell` command
since the path to the tested binary is relative to cwd
* for the `zig test` command, we simply use `darling` since the
path to the binary is absolute
In `Module.semaDecl`, the source location being used was double-relative
to the `Decl`, causing a crash when trying to compute byte offset for
the compile error.
Change the source location to node_offset = 0 since the scope being used
makes the source location relative to the Decl, which already has the
source node index populated.
5ac91794cce8bd53916a378815be01e4365d53d9 made Zig link against the
system libc when targeting the native C ABI. However this made it stop
putting libunwind.a on the linker line when it needed to sometimes,
causing undefined symbols when linking against C++ code.
5ac91794cce8bd53916a378815be01e4365d53d9 made Zig link against the
system libc when targeting the native C ABI. However this made it stop
putting libunwind.a on the linker line when it needed to sometimes,
causing undefined symbols when linking against C++ code.
Before this change, the attempt to save the most recent successful ZIR
code only worked in some cases; this reworks the code to be more robust,
thereby fixing a crash when running the stage2 "enums" CBE test cases.
Conflicts:
* lib/std/os/linux.zig
* lib/std/os/windows/bits.zig
* src/Module.zig
* src/Sema.zig
* test/stage2/test.zig
Mainly I wanted Jakub's new macOS code for respecting stack size, since
we now depend on it for debug builds able to pass one of the test cases
for recursive comptime function calls with `@setEvalBranchQuota`.
The conflicts were all trivial.
