Add a high level version number for SPIRV-Tools, beginning
with v2016.0-dev. The README describes the format of the
version number.
The high level version number is extracted from the CHANGES
file. That works around:
- stale-bait for when we don't add tags to the repository
- our inability to add tags to the repository
Option --version causes spirv-as, spirv-dis, and spirv-val to
show the high level version number.
Add spvSoftwareVersionString to return the C-string for
the high level version number.
Add spvSoftwareVersionDetailsString() so that clients can get
more information if they want to.
Also allows us to clean up the uses in the tool executables files,
so now only one file includes build-version.inc.
Move the update-build-version logic to the only
CMakeLists file that needs it.
The update build version script takes a new argument
to name the output file.
Add test for named-barrier instructions and capability.
Add spv_target_env as an optional argument to CompileSuccessfully() and
CompileFailure(). Currently defaults to UNIVERSAL_1_0, though that
could change in the future.
Make spv_context a local variable in test methods instead of a
TextToBinaryTestBase member. Introduce ScopedContext to make temp
contexts easier.
For fulfilling this purpose, the |opcode| field in the
|spv_parsed_instruction_t| struct is changed to of type uint16_t.
Also add functions to query the information of a given SPIR-V
target environment.
Previously, the grammar allowed many execution modes for a single
OpExecutionMode instruction.
Removes the variable- and optional- execution mode operand type
enum values.
Issue found by antiagainst@
Users always want to run all the checks. The spv_validate_options_t
mechanism, which provides little benefits to users, complicates the
internal implementation and also makes the tests exercise different
paths as users do.
Right now the tests are more like integration tests instead of
unit tests, which should be our next refactoring aim.
Now we have public headers arranged as follows:
$SPIRV_TOOLS_ROOT/include/spirv-tools/libspirv.h
$SPIRV_TOOLS_ROOT/include/spirv/spirv.h
$SPIRV_TOOLS_ROOT/include/spirv/GLSL.std.450.h
$SPIRV_TOOLS_ROOT/include/spirv/OpenCL.std.h
A project should use -I$SPIRV_TOOLS_ROOT/include
and then #include "spirv-tools/libspirv.h"
The headers from the SPIR-V Registry can be accessed as "spirv/spirv."
for example.
The install target should also install the headers from the SPIR-V
Registry. The libspirv.h header is broken otherwise.
The SPIRV-Tools library depends on the headers from the SPIR-V Registry.
The util/bitutils.h and util/hex_float.h are pulled into the internal
source tree. Those are not part of the public API to SPIRV-Tools.
- The SPIR-V spec generator has changed how it represents optional
operands. Now it tracks a separate boolean flag indicating optionality.
However, SPIRV-Tools still wants to represent both operand class
and optionality in the same enums space (SPV_OPERAND_TYPE_*).
So there's extra work in the patch.
- In the spec generator, OperandImage is now OperandImageOperands.
This affects enum translation in opcode.cpp.
- In the spec generator, image operands are explicitly followed by
Id, and VariableIds. However, SPIRV-Tools uses the bits set
in the image operand bitmask to control the number and meaning
of the Ids that follow. So in writing the opcode.inc syntax
table, drop all operands after OperandImageOperands.
- Some enums are now more explicitly represented in the generated
opcode.inc:
- AccessQualifier (e.g. on OpTypeImage), in both required and
optional flavours.
- MemoryAccess (e.g. on loads and stores)
- Add SPV_OPERAND_TYPE_OPTIONAL_ACCESS_QUALIFIER
- Add tests for the optional AccessQualifier operand on OpTypeImage.
- Update the AccessQualifier test for OpTypeImage so it's a round
trip test through the disassembler as well.
- For 32- and 64-bit floats, overflow is a parse error
This works around a difference between Xcode's istringstream
and other platforms. Xcode's runtime library will happlily
"round up" overflow values to infinity. We want to make it fail.
- When parsing a float fails due to bad syntax, follow C++11
behaviour for operator>> and set the value to zero.
- When parsing a 32-bit or 64-bit float overflows, follow C++11
behaviour for operator>> and set the value to the nearest
normal value: either max or lowest finite value for the type.
- Add FloatProxy<T>::max() and ::lowest()
- Make 16-bit overflow behaviour more consistent: we always get a
16-bit infinity of the right sign, whether the original string
is a normal value for 32-bit or an overflow value for 32-bit.
That matches our earlier intent.
Added TODO's to make 16-bit overflow always an error, just like
for 32-bit and 64-bit.
- Simplify normal parsing of Float16 values by delegating to
normal parsing of 32-bit floats.
Added additional compilation flags to gcc and clang builds.
Adds -Wall -Wextra -Wno-long-long -Wshadow -Wundef -Wconversion
-WNo-sign-conversion and -Wno-missing-field-initializers
where appropriate.
Does not add -Wundef to tests, because GTEST tests undefined
macros all over the place.
This adds half-precision constants to spirv-tools.
16-bit floats are always disassembled into hex-float format,
but can be assembled from floating point or hex-float inputs.
* Validates module level instructions for logical layout
conformance
* Does not validate:
1. Function logical layout
2. Minor cases with OpVariable
3. Missing MemoryModel instruction in module
4. Order of function definition and function declaration
* 782 unit tests for logical layout
Addressed feedback
Most uses of an ID must occur after the definition
of the ID. Forward references are allowed for
things like OpName, OpDecorate, and various cases
of control-flow instructions such as OpBranch, OpPhi,
and OpFunctionCall.
TODO: Use CFG analysis for SSA checks. In particular,
an ID defined inside a function body is only usable inside
that function body. Also, use dominator info to catch
some failing cases.
Also:
* Validator test cases use (standard) assignment form.
* Update style to more closely follow the Google C++ style guide
* Remove color-diagnostics flag.
This is enabled by default on terminals with color. Prints
hidden ASCII for terminals that can't handle color(Emacs)
* Pass functors to SSAPass to check if the
operand can be forward referenced based on its index value
* Return SPV_ERROR_INVALID_ID for ID related errors
spvBinaryParse returned SPV_ERROR_INVALID_BINARY for all types of
errors. Since spvBinaryParse does some ID validation, this was
returning inappropriate error codes for some tests.
* Common fixture for validation tests.
It only runs certian validation passes.
* Add a SPV_VALIDATE_SSA_BIT for testing purposes
* Fixtures now return error codes
* Add OpName support in diag message and unit tests
* Binary parsing can fail with invalid ID or invalid binary error code
Tests include:
* OpDecorate
* OpName
* OpMemberName
* OpBranchConditional
* OpSelectionMerge
* OpMemberDecorate
* OpGroupDecorate
* OpDeviceEnqueue
* Enable several tests failing in ID validation.
Add unit tests for all diagnostics issued by spvBinaryParse.
Handle image format operands in the binary parser and the
disassembler.
Document that the callback function pointers can be null,
in which case they are ignored.
Detect exhaustion of input when parsing an operand,
to avoid buffer overruns on some invalid input cases.
Fix the description strings for some operand types.
Make the diagnostic messages for those operand types
consistent between the assembler and binary parser.
Fixes https://github.com/KhronosGroup/SPIRV-Tools/issues/29
When a callback returns something other than SPV_SUCCESS,
then no futher callbacks are issued (parsing terminates early),
and no additional diagnostics are emitted.
The unit tests already check this behaviour.
Add a non-zero spv_result_t value SPV_REQUESTED_TERMINATION
which should be used to signal an ok result, but signals
early termination for a process, such as binary parsing.
Tests include:
- correct contents sent to header and instruction callbacks
- non-zero status from a callback should terminate parsing,
but the parser should not generate its own diagnostic.
TODO: Check diagnostics generated by the parser itself.
Add members:
- words: a pointer to an array of words in the instruction,
in host native endianness.
- num_words: sizes the words member
Remove member:
- offset
This simplifies clients of spvBinaryParse, because they don't
have to handle endianness translation.
Also, it makes the binary parse API more composable, allowing
for easy chaining of binary parse clients. A binary parse client
is handed the array of words directly instead of having to reference
some external array of all the words in the SPIR-V binary. It also
allows a binary parse client to mutate the instruction stream before
handing off to a downstream consumer.
TODO(dneto): Still need to write the unit tests for spvBinaryParse
Fixes: https://github.com/KhronosGroup/SPIRV-Tools/issues/1
Fixing some C++ conversion errors.
* Implicit conversion from int to bool.
* Implicit conversion from size_t to uint32_t.
* Implicit conversion from char* to uint8_t.
Adding no-op color operators so unhandled platforms can still link.
- Removed dead configuration in CMakeLists.txt.
- Used target_compile_options() instead of CMAKE_{C|CXX}_FLAGS.
- Turned on warnings on tests.
- Fixed various warnings for comparing signed with unsigned values.
- Removed dead code exposed by compiler warnings.