Also
- Add type_id to spv_id_info_t.
- Use spv_id_info_t::type_id instead of words[1].
Triggered some asserts on tests, where the code incorrectly assumed
words[1] had a type. Remove the asserts and handle gracefully.
- Add tests for OpStore of a label, a void, and a function.
Remove redundant validations of OpConstant and OpConstantComposite.
Binary parser already performs these checks, so the validations can
never be triggered.
Enable bad-constant tests.
If we later add a source/ as an -I include directory,
then avoid confusing other headers that want to include the
standard "endian.h" from /usr/include.
Also rename source/endian.cpp to source/spirv_endian.cpp
This is a grammar fix. The Decoration operand of OpDecorate (and
OpMemberDecorate) determines the remaining operands. Don't just
allow any number of literal numbers as operands.
(The OperandVariableLiterals operand class as the last member
of the OpDecorate and OpMemberDecorate entries in in opcode.inc is
an artifact of how the spec generates the opcode descriptions. It's
not suitable for parsing those instructions.)
Fixes https://github.com/KhronosGroup/SPIRV-Tools/issues/34
The high 16-bits are a registered generator tool.
These are registered at
https://www.khronos.org/registry/spir-v/api/spir-v.xml
The low 16-bits are tool-specific. It might be a version number,
for example, but is not constrained by the spec or by the registration
process.
The disassembler prints the tool name when we know it.
If we don't, print "Unknown" and then the numeric tool number
in parentheses.
In all cases, the disassembler prints lower 16-bit number on the
same line but after the tool name.
Also add newly registered generators:
6: Khronos LLVM/SPIR-V Translator
7: Khronos SPIR-V Tools Assembler
Previously the opcode table is declared as an global array and we
have spvOpcodeTableInitialize() modifying it. That can result in
race condition. Now spvOpcodeTabelGet() copies the whole underlying
array.
- Concrete operand types are never optional.
Split them to make this so, e.g. add SPV_OPERAND_TYPE_IMAGE
since there was SPV_OPERAND_TYPE_OPTIONAL_IMAGE.
Similarly for SPV_OPERAND_TYPE_MEMORY_ACCESS.
This entails duplicating two operand table entries.
- The above, plus some rearranging of enums, allows us to define
first and last optional operand types, and first and last
variable operand types.
This lets us simplify the code for spvOperandIsOptional, and
spvOperandIsVariable.
- Replace SPV_OPERAND_TYPE_MULTIWORD_LITERAL_NUMBER with the
more accurately named SPV_OPERAND_TYPE_TYPED_LITERAL_NUMBER.
Its special characteristic is that the type of the literal
number is determined by some previous operand in the instruction.
This is used for literals in OpSwitch, OpConstant, and OpSpecConstant.
This lets us refactor operand parsing cases in the assembler.
- Remove the special required-thing-in-optional-tuple in favour of
the corresponding concrete operand type:
SPV_OPERAND_TYPE_ID_IN_OPTIONAL_TUPLE
--> SPV_OPERAND_TYPE_ID
SPV_OPERAND_TYPE_INTEGER_LITERAL_IN_OPTIONAL_TUPLE
--> SPV_OPERAND_TYPE_INTEGER_LITERAL
- Constrain spvOpeandTypeStr to only have to work for non-variable
operand types. Add a test for this.
Note that we are more strict than Google style for one aspect:
pointer/reference indicators are adjacent to their types, not
their variables.
find . -name "*.h" -exec clang-format -i {} \;
find . -name "*.cpp" -exec clang-format -i {} \;
This is required to support extended instructions that
have literal numbers as operands. An example is OpenCL's
vloadn.
The previous code in the assembler assumed that *any* literal
number argument in any part of an OpExtInst must be the name
of the extended instruction. That's true only for the first
literal number argument.
Except for OpConstant and OpSpecConstant, all other literal number
operands are indeed unsigned integers. So,
* Rename all *LITERAL_NUMBER* operand types to *LITERAL_INTEGER*.
* Expect unsigned integers for *LITERAL_INTEGER* operands.
* Keep MULITPLE_WORD_LITERAL untouched since it is only used by
OpConstant and OpSpecConstant.
And we want to provide the capability to specify floating-point
numbers after !<integer> in the alternate parsing mode. So,
OPTIONAL_LITERAL_NUMBER is reserved for OPTIONAL_CIV.
We need to know how to generate correct SPIRV for cases like
OpConstant %int64 42 since the current parser will encode the 42 as a
32-bit value incorrectly.
This change is the first of a pair. This one tracks types, and makes
sure that OpConstant and OpSpecConstant are only ever called with
Integer or Float types, and OpSwitch is only called with integer
generating values.
Move the definition of spv_instruction_t to an internal
header file, since it now depends on C++ and is not
used by the external interface.
Use a std::vector<uint32_t> in spv_instruction_t
instead of a fixed size array.
Operand class enum values not used in the syntax table:
- Image channel order: only used to describe a return value
- Image channel type: only used to describe a return value
- "Image operands": used to make a section in the spec
to describe values used to construct an optional image id,
but does not itself appear in the syntax table.
Removes some TODOs from opcode.cpp.
All uses of OptionalLiteral by the SPIR-V spec are used
for literal numbers.
Also rename:
- SPV_OPERAND_TYPE_OPTIONAL_LITERAL to
SPV_OPERAND_TYPE_OPTIONAL_LITERAL_NUMBER.
- SPV_OPERAND_TYPE_VARIABLE_LITERAL to
SPV_OPERAND_TYPE_VARIABLE_LITERAL_NUMBER.
- SPV_OPERAND_TYPE_VARIABLE_LITERAL_ID to
SPV_OPERAND_TYPE_VARIABLE_LITERAL_NUMBER_ID.
- SPV_OPERAND_TYPE_VARIABLE_ID_LITERAL to
SPV_OPERAND_TYPE_VARIABLE_ID_LITERAL_NUMBER.
- SPV_OPERAND_TYPE_LITERAL_IN_OPTIONAL_TUPLE to
SPV_OPERAND_TYPE_LITERAL_NUMBER_IN_OPTIONAL_TUPLE.
Many instructions added and a few changed structure.
Workarounds:
- Some operands can be enabled by either one of two
capabilities. The spv_operand_desc_t does not handle that
now. For now just select the first one.
Fixes to tests:
- OpLoopMerge now takes a mandatory continue target.
- OpTypePipe drops the type argument. Pipes are opaque.
- OpLine no longer takes a target ID argument.
The ID validator was fixed the OpLine and OpTypePipe
changes. Those were the only ID validator tests affected.
The patch to the spec doc generator was updated so it handles
the two-capability case, even if in an hacky way.
If a memory mask operand is present, it is a mask. The mask appears
only once, so just use SPV_OPERAND_TYPE_OPTIONAL_MEMORY_MASK.
The "variable literals" aspect comes into play as follows: if the
Aligned bit is set in the mask, then the parser will be made to
expect the alignment value as a literal number operand that follows
the mask. That is done through mask operand expansion.
Add a new operand type SPV_OPERAND_TYPE_MULTIWORD_LITERAL_NUMBER
to represent those operands that can expand into multiple words.
Now only OpConstant and OpSpecConstant have such kind of operand.
The assembler and disassembler now use a dynamically adjusted
sequence of expected operand types. (Internally, it is a deque,
for readability.) Both parsers repeatedly pull an expected operand
type from the left of this pattern list, and try to match the next
input token against it.
The expected pattern is adjusted during the parse to accommodate:
- an extended instruction's expected operands, depending on the
extended instruction's index.
- when an operand itself has operands
- to handle sequences of zero or more operands, or pairs of
operands. These are expanded lazily during the parse.
Adds spv::OperandClass from the SPIR-V specification generator.
Modifies spv_operand_desc_t:
- adds hasResult, hasType, and operandClass array to the opcode
description type.
- "wordCount" is replaced with "numTypes", which counts the number
of entries in operandTypes. And each of those describes a
*logical* operand, including the type id for the instruction,
and the result id for the instruction. A logical operand could be
variable-width, such as a literal string.
Adds opcode.inc, an automatically-generated table of operation
descriptions, with one line to describe each core instruction.
Externally, we have modified the SPIR-V spec doc generator to
emit this file.
(We have hacked this copy to use the old semantics for OpLine.)
Inside the assembler, parsing an operand may fail with new
error code SPV_FAIL_MATCH. For an optional operand, this is not
fatal, but should trigger backtracking at a higher level.
The spvTextIsStartOfNewInst checks the case of the third letter
of what might be an opcode. So now, "OpenCL" does not look like
an opcode name.
In assembly, the EntryPoint name field is mandatory, but can be
an empty string.
Adjust tests for changes to:
- OpSampedImage
- OpTypeSampler
For enum Capability and enum Op, not all newly added enumerants are
registered into capabilityInfoEntries and opcodeTableEntries yet.
That will come in following commits.