1376 lines
46 KiB
ReStructuredText
1376 lines
46 KiB
ReStructuredText
.. role:: raw-html(raw)
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:format: html
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========================
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LLVM Bitcode File Format
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========================
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.. contents::
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:local:
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Abstract
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========
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This document describes the LLVM bitstream file format and the encoding of the
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LLVM IR into it.
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Overview
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========
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What is commonly known as the LLVM bitcode file format (also, sometimes
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anachronistically known as bytecode) is actually two things: a `bitstream
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container format`_ and an `encoding of LLVM IR`_ into the container format.
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The bitstream format is an abstract encoding of structured data, very similar to
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XML in some ways. Like XML, bitstream files contain tags, and nested
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structures, and you can parse the file without having to understand the tags.
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Unlike XML, the bitstream format is a binary encoding, and unlike XML it
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provides a mechanism for the file to self-describe "abbreviations", which are
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effectively size optimizations for the content.
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LLVM IR files may be optionally embedded into a `wrapper`_ structure, or in a
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`native object file`_. Both of these mechanisms make it easy to embed extra
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data along with LLVM IR files.
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This document first describes the LLVM bitstream format, describes the wrapper
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format, then describes the record structure used by LLVM IR files.
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.. _bitstream container format:
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Bitstream Format
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================
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The bitstream format is literally a stream of bits, with a very simple
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structure. This structure consists of the following concepts:
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* A "`magic number`_" that identifies the contents of the stream.
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* Encoding `primitives`_ like variable bit-rate integers.
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* `Blocks`_, which define nested content.
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* `Data Records`_, which describe entities within the file.
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* Abbreviations, which specify compression optimizations for the file.
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Note that the :doc:`llvm-bcanalyzer <CommandGuide/llvm-bcanalyzer>` tool can be
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used to dump and inspect arbitrary bitstreams, which is very useful for
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understanding the encoding.
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.. _magic number:
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Magic Numbers
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-------------
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The first four bytes of a bitstream are used as an application-specific magic
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number. Generic bitcode tools may look at the first four bytes to determine
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whether the stream is a known stream type. However, these tools should *not*
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determine whether a bitstream is valid based on its magic number alone. New
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application-specific bitstream formats are being developed all the time; tools
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should not reject them just because they have a hitherto unseen magic number.
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.. _primitives:
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Primitives
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----------
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A bitstream literally consists of a stream of bits, which are read in order
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starting with the least significant bit of each byte. The stream is made up of
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a number of primitive values that encode a stream of unsigned integer values.
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These integers are encoded in two ways: either as `Fixed Width Integers`_ or as
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`Variable Width Integers`_.
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.. _Fixed Width Integers:
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.. _fixed-width value:
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Fixed Width Integers
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^^^^^^^^^^^^^^^^^^^^
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Fixed-width integer values have their low bits emitted directly to the file.
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For example, a 3-bit integer value encodes 1 as 001. Fixed width integers are
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used when there are a well-known number of options for a field. For example,
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boolean values are usually encoded with a 1-bit wide integer.
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.. _Variable Width Integers:
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.. _Variable Width Integer:
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.. _variable-width value:
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Variable Width Integers
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^^^^^^^^^^^^^^^^^^^^^^^
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Variable-width integer (VBR) values encode values of arbitrary size, optimizing
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for the case where the values are small. Given a 4-bit VBR field, any 3-bit
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value (0 through 7) is encoded directly, with the high bit set to zero. Values
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larger than N-1 bits emit their bits in a series of N-1 bit chunks, where all
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but the last set the high bit.
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For example, the value 27 (0x1B) is encoded as 1011 0011 when emitted as a vbr4
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value. The first set of four bits indicates the value 3 (011) with a
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continuation piece (indicated by a high bit of 1). The next word indicates a
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value of 24 (011 << 3) with no continuation. The sum (3+24) yields the value
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27.
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.. _char6-encoded value:
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6-bit characters
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^^^^^^^^^^^^^^^^
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6-bit characters encode common characters into a fixed 6-bit field. They
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represent the following characters with the following 6-bit values:
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::
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'a' .. 'z' --- 0 .. 25
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'A' .. 'Z' --- 26 .. 51
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'0' .. '9' --- 52 .. 61
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'.' --- 62
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'_' --- 63
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This encoding is only suitable for encoding characters and strings that consist
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only of the above characters. It is completely incapable of encoding characters
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not in the set.
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Word Alignment
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^^^^^^^^^^^^^^
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Occasionally, it is useful to emit zero bits until the bitstream is a multiple
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of 32 bits. This ensures that the bit position in the stream can be represented
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as a multiple of 32-bit words.
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Abbreviation IDs
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----------------
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A bitstream is a sequential series of `Blocks`_ and `Data Records`_. Both of
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these start with an abbreviation ID encoded as a fixed-bitwidth field. The
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width is specified by the current block, as described below. The value of the
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abbreviation ID specifies either a builtin ID (which have special meanings,
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defined below) or one of the abbreviation IDs defined for the current block by
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the stream itself.
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The set of builtin abbrev IDs is:
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* 0 - `END_BLOCK`_ --- This abbrev ID marks the end of the current block.
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* 1 - `ENTER_SUBBLOCK`_ --- This abbrev ID marks the beginning of a new
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block.
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* 2 - `DEFINE_ABBREV`_ --- This defines a new abbreviation.
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* 3 - `UNABBREV_RECORD`_ --- This ID specifies the definition of an
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unabbreviated record.
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Abbreviation IDs 4 and above are defined by the stream itself, and specify an
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`abbreviated record encoding`_.
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.. _Blocks:
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Blocks
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------
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Blocks in a bitstream denote nested regions of the stream, and are identified by
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a content-specific id number (for example, LLVM IR uses an ID of 12 to represent
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function bodies). Block IDs 0-7 are reserved for `standard blocks`_ whose
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meaning is defined by Bitcode; block IDs 8 and greater are application
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specific. Nested blocks capture the hierarchical structure of the data encoded
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in it, and various properties are associated with blocks as the file is parsed.
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Block definitions allow the reader to efficiently skip blocks in constant time
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if the reader wants a summary of blocks, or if it wants to efficiently skip data
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it does not understand. The LLVM IR reader uses this mechanism to skip function
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bodies, lazily reading them on demand.
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When reading and encoding the stream, several properties are maintained for the
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block. In particular, each block maintains:
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#. A current abbrev id width. This value starts at 2 at the beginning of the
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stream, and is set every time a block record is entered. The block entry
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specifies the abbrev id width for the body of the block.
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#. A set of abbreviations. Abbreviations may be defined within a block, in
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which case they are only defined in that block (neither subblocks nor
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enclosing blocks see the abbreviation). Abbreviations can also be defined
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inside a `BLOCKINFO`_ block, in which case they are defined in all blocks
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that match the ID that the ``BLOCKINFO`` block is describing.
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As sub blocks are entered, these properties are saved and the new sub-block has
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its own set of abbreviations, and its own abbrev id width. When a sub-block is
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popped, the saved values are restored.
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.. _ENTER_SUBBLOCK:
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ENTER_SUBBLOCK Encoding
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^^^^^^^^^^^^^^^^^^^^^^^
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:raw-html:`<tt>`
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[ENTER_SUBBLOCK, blockid\ :sub:`vbr8`, newabbrevlen\ :sub:`vbr4`, <align32bits>, blocklen_32]
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:raw-html:`</tt>`
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The ``ENTER_SUBBLOCK`` abbreviation ID specifies the start of a new block
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record. The ``blockid`` value is encoded as an 8-bit VBR identifier, and
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indicates the type of block being entered, which can be a `standard block`_ or
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an application-specific block. The ``newabbrevlen`` value is a 4-bit VBR, which
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specifies the abbrev id width for the sub-block. The ``blocklen`` value is a
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32-bit aligned value that specifies the size of the subblock in 32-bit
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words. This value allows the reader to skip over the entire block in one jump.
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.. _END_BLOCK:
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END_BLOCK Encoding
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^^^^^^^^^^^^^^^^^^
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``[END_BLOCK, <align32bits>]``
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The ``END_BLOCK`` abbreviation ID specifies the end of the current block record.
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Its end is aligned to 32-bits to ensure that the size of the block is an even
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multiple of 32-bits.
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.. _Data Records:
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Data Records
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------------
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Data records consist of a record code and a number of (up to) 64-bit integer
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values. The interpretation of the code and values is application specific and
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may vary between different block types. Records can be encoded either using an
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unabbrev record, or with an abbreviation. In the LLVM IR format, for example,
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there is a record which encodes the target triple of a module. The code is
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``MODULE_CODE_TRIPLE``, and the values of the record are the ASCII codes for the
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characters in the string.
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.. _UNABBREV_RECORD:
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UNABBREV_RECORD Encoding
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^^^^^^^^^^^^^^^^^^^^^^^^
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:raw-html:`<tt>`
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[UNABBREV_RECORD, code\ :sub:`vbr6`, numops\ :sub:`vbr6`, op0\ :sub:`vbr6`, op1\ :sub:`vbr6`, ...]
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:raw-html:`</tt>`
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An ``UNABBREV_RECORD`` provides a default fallback encoding, which is both
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completely general and extremely inefficient. It can describe an arbitrary
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record by emitting the code and operands as VBRs.
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For example, emitting an LLVM IR target triple as an unabbreviated record
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requires emitting the ``UNABBREV_RECORD`` abbrevid, a vbr6 for the
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``MODULE_CODE_TRIPLE`` code, a vbr6 for the length of the string, which is equal
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to the number of operands, and a vbr6 for each character. Because there are no
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letters with values less than 32, each letter would need to be emitted as at
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least a two-part VBR, which means that each letter would require at least 12
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bits. This is not an efficient encoding, but it is fully general.
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.. _abbreviated record encoding:
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Abbreviated Record Encoding
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^^^^^^^^^^^^^^^^^^^^^^^^^^^
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``[<abbrevid>, fields...]``
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An abbreviated record is a abbreviation id followed by a set of fields that are
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encoded according to the `abbreviation definition`_. This allows records to be
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encoded significantly more densely than records encoded with the
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`UNABBREV_RECORD`_ type, and allows the abbreviation types to be specified in
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the stream itself, which allows the files to be completely self describing. The
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actual encoding of abbreviations is defined below.
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The record code, which is the first field of an abbreviated record, may be
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encoded in the abbreviation definition (as a literal operand) or supplied in the
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abbreviated record (as a Fixed or VBR operand value).
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.. _abbreviation definition:
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Abbreviations
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-------------
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Abbreviations are an important form of compression for bitstreams. The idea is
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to specify a dense encoding for a class of records once, then use that encoding
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to emit many records. It takes space to emit the encoding into the file, but
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the space is recouped (hopefully plus some) when the records that use it are
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emitted.
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Abbreviations can be determined dynamically per client, per file. Because the
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abbreviations are stored in the bitstream itself, different streams of the same
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format can contain different sets of abbreviations according to the needs of the
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specific stream. As a concrete example, LLVM IR files usually emit an
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abbreviation for binary operators. If a specific LLVM module contained no or
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few binary operators, the abbreviation does not need to be emitted.
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.. _DEFINE_ABBREV:
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DEFINE_ABBREV Encoding
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^^^^^^^^^^^^^^^^^^^^^^
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:raw-html:`<tt>`
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[DEFINE_ABBREV, numabbrevops\ :sub:`vbr5`, abbrevop0, abbrevop1, ...]
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:raw-html:`</tt>`
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A ``DEFINE_ABBREV`` record adds an abbreviation to the list of currently defined
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abbreviations in the scope of this block. This definition only exists inside
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this immediate block --- it is not visible in subblocks or enclosing blocks.
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Abbreviations are implicitly assigned IDs sequentially starting from 4 (the
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first application-defined abbreviation ID). Any abbreviations defined in a
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``BLOCKINFO`` record for the particular block type receive IDs first, in order,
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followed by any abbreviations defined within the block itself. Abbreviated data
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records reference this ID to indicate what abbreviation they are invoking.
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An abbreviation definition consists of the ``DEFINE_ABBREV`` abbrevid followed
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by a VBR that specifies the number of abbrev operands, then the abbrev operands
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themselves. Abbreviation operands come in three forms. They all start with a
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single bit that indicates whether the abbrev operand is a literal operand (when
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the bit is 1) or an encoding operand (when the bit is 0).
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#. Literal operands --- :raw-html:`<tt>` [1\ :sub:`1`, litvalue\
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:sub:`vbr8`] :raw-html:`</tt>` --- Literal operands specify that the value in
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the result is always a single specific value. This specific value is emitted
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as a vbr8 after the bit indicating that it is a literal operand.
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#. Encoding info without data --- :raw-html:`<tt>` [0\ :sub:`1`, encoding\
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:sub:`3`] :raw-html:`</tt>` --- Operand encodings that do not have extra data
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are just emitted as their code.
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#. Encoding info with data --- :raw-html:`<tt>` [0\ :sub:`1`, encoding\
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:sub:`3`, value\ :sub:`vbr5`] :raw-html:`</tt>` --- Operand encodings that do
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have extra data are emitted as their code, followed by the extra data.
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The possible operand encodings are:
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* Fixed (code 1): The field should be emitted as a `fixed-width value`_, whose
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width is specified by the operand's extra data.
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* VBR (code 2): The field should be emitted as a `variable-width value`_, whose
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width is specified by the operand's extra data.
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* Array (code 3): This field is an array of values. The array operand has no
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extra data, but expects another operand to follow it, indicating the element
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type of the array. When reading an array in an abbreviated record, the first
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integer is a vbr6 that indicates the array length, followed by the encoded
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elements of the array. An array may only occur as the last operand of an
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abbreviation (except for the one final operand that gives the array's
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type).
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* Char6 (code 4): This field should be emitted as a `char6-encoded value`_.
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This operand type takes no extra data. Char6 encoding is normally used as an
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array element type.
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* Blob (code 5): This field is emitted as a vbr6, followed by padding to a
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32-bit boundary (for alignment) and an array of 8-bit objects. The array of
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bytes is further followed by tail padding to ensure that its total length is a
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multiple of 4 bytes. This makes it very efficient for the reader to decode
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the data without having to make a copy of it: it can use a pointer to the data
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in the mapped in file and poke directly at it. A blob may only occur as the
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last operand of an abbreviation.
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For example, target triples in LLVM modules are encoded as a record of the form
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``[TRIPLE, 'a', 'b', 'c', 'd']``. Consider if the bitstream emitted the
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following abbrev entry:
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::
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[0, Fixed, 4]
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[0, Array]
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[0, Char6]
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When emitting a record with this abbreviation, the above entry would be emitted
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as:
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:raw-html:`<tt><blockquote>`
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[4\ :sub:`abbrevwidth`, 2\ :sub:`4`, 4\ :sub:`vbr6`, 0\ :sub:`6`, 1\ :sub:`6`, 2\ :sub:`6`, 3\ :sub:`6`]
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:raw-html:`</blockquote></tt>`
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These values are:
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#. The first value, 4, is the abbreviation ID for this abbreviation.
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#. The second value, 2, is the record code for ``TRIPLE`` records within LLVM IR
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file ``MODULE_BLOCK`` blocks.
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#. The third value, 4, is the length of the array.
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#. The rest of the values are the char6 encoded values for ``"abcd"``.
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With this abbreviation, the triple is emitted with only 37 bits (assuming a
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abbrev id width of 3). Without the abbreviation, significantly more space would
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be required to emit the target triple. Also, because the ``TRIPLE`` value is
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not emitted as a literal in the abbreviation, the abbreviation can also be used
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for any other string value.
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.. _standard blocks:
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.. _standard block:
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Standard Blocks
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---------------
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In addition to the basic block structure and record encodings, the bitstream
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also defines specific built-in block types. These block types specify how the
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stream is to be decoded or other metadata. In the future, new standard blocks
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may be added. Block IDs 0-7 are reserved for standard blocks.
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.. _BLOCKINFO:
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#0 - BLOCKINFO Block
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^^^^^^^^^^^^^^^^^^^^
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The ``BLOCKINFO`` block allows the description of metadata for other blocks.
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The currently specified records are:
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::
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[SETBID (#1), blockid]
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[DEFINE_ABBREV, ...]
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[BLOCKNAME, ...name...]
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[SETRECORDNAME, RecordID, ...name...]
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The ``SETBID`` record (code 1) indicates which block ID is being described.
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``SETBID`` records can occur multiple times throughout the block to change which
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block ID is being described. There must be a ``SETBID`` record prior to any
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other records.
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Standard ``DEFINE_ABBREV`` records can occur inside ``BLOCKINFO`` blocks, but
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unlike their occurrence in normal blocks, the abbreviation is defined for blocks
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matching the block ID we are describing, *not* the ``BLOCKINFO`` block
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itself. The abbreviations defined in ``BLOCKINFO`` blocks receive abbreviation
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IDs as described in `DEFINE_ABBREV`_.
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The ``BLOCKNAME`` record (code 2) can optionally occur in this block. The
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elements of the record are the bytes of the string name of the block.
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llvm-bcanalyzer can use this to dump out bitcode files symbolically.
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The ``SETRECORDNAME`` record (code 3) can also optionally occur in this block.
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The first operand value is a record ID number, and the rest of the elements of
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the record are the bytes for the string name of the record. llvm-bcanalyzer can
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use this to dump out bitcode files symbolically.
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Note that although the data in ``BLOCKINFO`` blocks is described as "metadata,"
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the abbreviations they contain are essential for parsing records from the
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corresponding blocks. It is not safe to skip them.
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.. _wrapper:
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Bitcode Wrapper Format
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======================
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Bitcode files for LLVM IR may optionally be wrapped in a simple wrapper
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structure. This structure contains a simple header that indicates the offset
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and size of the embedded BC file. This allows additional information to be
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stored alongside the BC file. The structure of this file header is:
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:raw-html:`<tt><blockquote>`
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[Magic\ :sub:`32`, Version\ :sub:`32`, Offset\ :sub:`32`, Size\ :sub:`32`, CPUType\ :sub:`32`]
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:raw-html:`</blockquote></tt>`
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Each of the fields are 32-bit fields stored in little endian form (as with the
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rest of the bitcode file fields). The Magic number is always ``0x0B17C0DE`` and
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the version is currently always ``0``. The Offset field is the offset in bytes
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to the start of the bitcode stream in the file, and the Size field is the size
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in bytes of the stream. CPUType is a target-specific value that can be used to
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encode the CPU of the target.
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.. _native object file:
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Native Object File Wrapper Format
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=================================
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Bitcode files for LLVM IR may also be wrapped in a native object file
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(i.e. ELF, COFF, Mach-O). The bitcode must be stored in a section of the object
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file named ``__LLVM,__bitcode`` for MachO and ``.llvmbc`` for the other object
|
|
formats. This wrapper format is useful for accommodating LTO in compilation
|
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pipelines where intermediate objects must be native object files which contain
|
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metadata in other sections.
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Not all tools support this format.
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.. _encoding of LLVM IR:
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LLVM IR Encoding
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================
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LLVM IR is encoded into a bitstream by defining blocks and records. It uses
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blocks for things like constant pools, functions, symbol tables, etc. It uses
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records for things like instructions, global variable descriptors, type
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descriptions, etc. This document does not describe the set of abbreviations
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that the writer uses, as these are fully self-described in the file, and the
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reader is not allowed to build in any knowledge of this.
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Basics
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------
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LLVM IR Magic Number
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^^^^^^^^^^^^^^^^^^^^
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The magic number for LLVM IR files is:
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:raw-html:`<tt><blockquote>`
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['B'\ :sub:`8`, 'C'\ :sub:`8`, 0x0\ :sub:`4`, 0xC\ :sub:`4`, 0xE\ :sub:`4`, 0xD\ :sub:`4`]
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:raw-html:`</blockquote></tt>`
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.. _Signed VBRs:
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Signed VBRs
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^^^^^^^^^^^
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`Variable Width Integer`_ encoding is an efficient way to encode arbitrary sized
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unsigned values, but is an extremely inefficient for encoding signed values, as
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signed values are otherwise treated as maximally large unsigned values.
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As such, signed VBR values of a specific width are emitted as follows:
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* Positive values are emitted as VBRs of the specified width, but with their
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value shifted left by one.
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* Negative values are emitted as VBRs of the specified width, but the negated
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value is shifted left by one, and the low bit is set.
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With this encoding, small positive and small negative values can both be emitted
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efficiently. Signed VBR encoding is used in ``CST_CODE_INTEGER`` and
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``CST_CODE_WIDE_INTEGER`` records within ``CONSTANTS_BLOCK`` blocks.
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It is also used for phi instruction operands in `MODULE_CODE_VERSION`_ 1.
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LLVM IR Blocks
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^^^^^^^^^^^^^^
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LLVM IR is defined with the following blocks:
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* 8 --- `MODULE_BLOCK`_ --- This is the top-level block that contains the entire
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module, and describes a variety of per-module information.
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* 9 --- `PARAMATTR_BLOCK`_ --- This enumerates the parameter attributes.
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* 10 --- `PARAMATTR_GROUP_BLOCK`_ --- This describes the attribute group table.
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* 11 --- `CONSTANTS_BLOCK`_ --- This describes constants for a module or
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function.
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* 12 --- `FUNCTION_BLOCK`_ --- This describes a function body.
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* 14 --- `VALUE_SYMTAB_BLOCK`_ --- This describes a value symbol table.
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* 15 --- `METADATA_BLOCK`_ --- This describes metadata items.
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* 16 --- `METADATA_ATTACHMENT`_ --- This contains records associating metadata
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with function instruction values.
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* 17 --- `TYPE_BLOCK`_ --- This describes all of the types in the module.
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* 23 --- `STRTAB_BLOCK`_ --- The bitcode file's string table.
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.. _MODULE_BLOCK:
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MODULE_BLOCK Contents
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---------------------
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The ``MODULE_BLOCK`` block (id 8) is the top-level block for LLVM bitcode files,
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and each bitcode file must contain exactly one. In addition to records
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(described below) containing information about the module, a ``MODULE_BLOCK``
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block may contain the following sub-blocks:
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* `BLOCKINFO`_
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* `PARAMATTR_BLOCK`_
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* `PARAMATTR_GROUP_BLOCK`_
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* `TYPE_BLOCK`_
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* `VALUE_SYMTAB_BLOCK`_
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* `CONSTANTS_BLOCK`_
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* `FUNCTION_BLOCK`_
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* `METADATA_BLOCK`_
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.. _MODULE_CODE_VERSION:
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MODULE_CODE_VERSION Record
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^^^^^^^^^^^^^^^^^^^^^^^^^^
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``[VERSION, version#]``
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The ``VERSION`` record (code 1) contains a single value indicating the format
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version. Versions 0, 1 and 2 are supported at this time. The difference between
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version 0 and 1 is in the encoding of instruction operands in
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each `FUNCTION_BLOCK`_.
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In version 0, each value defined by an instruction is assigned an ID
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unique to the function. Function-level value IDs are assigned starting from
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``NumModuleValues`` since they share the same namespace as module-level
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values. The value enumerator resets after each function. When a value is
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an operand of an instruction, the value ID is used to represent the operand.
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For large functions or large modules, these operand values can be large.
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The encoding in version 1 attempts to avoid large operand values
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in common cases. Instead of using the value ID directly, operands are
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encoded as relative to the current instruction. Thus, if an operand
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is the value defined by the previous instruction, the operand
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will be encoded as 1.
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For example, instead of
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.. code-block:: none
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#n = load #n-1
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#n+1 = icmp eq #n, #const0
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br #n+1, label #(bb1), label #(bb2)
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version 1 will encode the instructions as
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.. code-block:: none
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#n = load #1
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#n+1 = icmp eq #1, (#n+1)-#const0
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br #1, label #(bb1), label #(bb2)
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Note in the example that operands which are constants also use
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the relative encoding, while operands like basic block labels
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do not use the relative encoding.
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Forward references will result in a negative value.
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This can be inefficient, as operands are normally encoded
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as unsigned VBRs. However, forward references are rare, except in the
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case of phi instructions. For phi instructions, operands are encoded as
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`Signed VBRs`_ to deal with forward references.
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In version 2, the meaning of module records ``FUNCTION``, ``GLOBALVAR``,
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``ALIAS``, ``IFUNC`` and ``COMDAT`` change such that the first two operands
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specify an offset and size of a string in a string table (see `STRTAB_BLOCK
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Contents`_), the function name is removed from the ``FNENTRY`` record in the
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value symbol table, and the top-level ``VALUE_SYMTAB_BLOCK`` may only contain
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``FNENTRY`` records.
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MODULE_CODE_TRIPLE Record
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^^^^^^^^^^^^^^^^^^^^^^^^^
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``[TRIPLE, ...string...]``
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The ``TRIPLE`` record (code 2) contains a variable number of values representing
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the bytes of the ``target triple`` specification string.
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MODULE_CODE_DATALAYOUT Record
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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``[DATALAYOUT, ...string...]``
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The ``DATALAYOUT`` record (code 3) contains a variable number of values
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representing the bytes of the ``target datalayout`` specification string.
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MODULE_CODE_ASM Record
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^^^^^^^^^^^^^^^^^^^^^^
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``[ASM, ...string...]``
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The ``ASM`` record (code 4) contains a variable number of values representing
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the bytes of ``module asm`` strings, with individual assembly blocks separated
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by newline (ASCII 10) characters.
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.. _MODULE_CODE_SECTIONNAME:
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MODULE_CODE_SECTIONNAME Record
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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``[SECTIONNAME, ...string...]``
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The ``SECTIONNAME`` record (code 5) contains a variable number of values
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representing the bytes of a single section name string. There should be one
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``SECTIONNAME`` record for each section name referenced (e.g., in global
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variable or function ``section`` attributes) within the module. These records
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can be referenced by the 1-based index in the *section* fields of ``GLOBALVAR``
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or ``FUNCTION`` records.
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MODULE_CODE_DEPLIB Record
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^^^^^^^^^^^^^^^^^^^^^^^^^
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``[DEPLIB, ...string...]``
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The ``DEPLIB`` record (code 6) contains a variable number of values representing
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the bytes of a single dependent library name string, one of the libraries
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mentioned in a ``deplibs`` declaration. There should be one ``DEPLIB`` record
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for each library name referenced.
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MODULE_CODE_GLOBALVAR Record
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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``[GLOBALVAR, strtab offset, strtab size, pointer type, isconst, initid, linkage, alignment, section, visibility, threadlocal, unnamed_addr, externally_initialized, dllstorageclass, comdat, attributes, preemptionspecifier]``
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The ``GLOBALVAR`` record (code 7) marks the declaration or definition of a
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global variable. The operand fields are:
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* *strtab offset*, *strtab size*: Specifies the name of the global variable.
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See `STRTAB_BLOCK Contents`_.
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* *pointer type*: The type index of the pointer type used to point to this
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global variable
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* *isconst*: Non-zero if the variable is treated as constant within the module,
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or zero if it is not
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* *initid*: If non-zero, the value index of the initializer for this variable,
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plus 1.
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.. _linkage type:
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* *linkage*: An encoding of the linkage type for this variable:
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* ``external``: code 0
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* ``weak``: code 1
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* ``appending``: code 2
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* ``internal``: code 3
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* ``linkonce``: code 4
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* ``dllimport``: code 5
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* ``dllexport``: code 6
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* ``extern_weak``: code 7
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* ``common``: code 8
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* ``private``: code 9
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* ``weak_odr``: code 10
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* ``linkonce_odr``: code 11
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* ``available_externally``: code 12
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* deprecated : code 13
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* deprecated : code 14
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* alignment*: The logarithm base 2 of the variable's requested alignment, plus 1
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* *section*: If non-zero, the 1-based section index in the table of
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`MODULE_CODE_SECTIONNAME`_ entries.
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.. _visibility:
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* *visibility*: If present, an encoding of the visibility of this variable:
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* ``default``: code 0
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* ``hidden``: code 1
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* ``protected``: code 2
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.. _bcthreadlocal:
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* *threadlocal*: If present, an encoding of the thread local storage mode of the
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variable:
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* ``not thread local``: code 0
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* ``thread local; default TLS model``: code 1
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* ``localdynamic``: code 2
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* ``initialexec``: code 3
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* ``localexec``: code 4
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.. _bcunnamedaddr:
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* *unnamed_addr*: If present, an encoding of the ``unnamed_addr`` attribute of this
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variable:
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* not ``unnamed_addr``: code 0
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* ``unnamed_addr``: code 1
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* ``local_unnamed_addr``: code 2
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.. _bcdllstorageclass:
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* *dllstorageclass*: If present, an encoding of the DLL storage class of this variable:
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* ``default``: code 0
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* ``dllimport``: code 1
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* ``dllexport``: code 2
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* *comdat*: An encoding of the COMDAT of this function
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* *attributes*: If nonzero, the 1-based index into the table of AttributeLists.
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.. _bcpreemptionspecifier:
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* *preemptionspecifier*: If present, an encoding of the runtime preemption specifier of this variable:
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* ``dso_preemptable``: code 0
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* ``dso_local``: code 1
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.. _FUNCTION:
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MODULE_CODE_FUNCTION Record
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^^^^^^^^^^^^^^^^^^^^^^^^^^^
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``[FUNCTION, strtab offset, strtab size, type, callingconv, isproto, linkage, paramattr, alignment, section, visibility, gc, prologuedata, dllstorageclass, comdat, prefixdata, personalityfn, preemptionspecifier]``
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The ``FUNCTION`` record (code 8) marks the declaration or definition of a
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function. The operand fields are:
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* *strtab offset*, *strtab size*: Specifies the name of the function.
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See `STRTAB_BLOCK Contents`_.
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* *type*: The type index of the function type describing this function
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* *callingconv*: The calling convention number:
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* ``ccc``: code 0
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* ``fastcc``: code 8
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* ``coldcc``: code 9
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* ``webkit_jscc``: code 12
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* ``anyregcc``: code 13
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* ``preserve_mostcc``: code 14
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* ``preserve_allcc``: code 15
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* ``swiftcc`` : code 16
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* ``cxx_fast_tlscc``: code 17
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* ``tailcc`` : code 18
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* ``x86_stdcallcc``: code 64
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* ``x86_fastcallcc``: code 65
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* ``arm_apcscc``: code 66
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* ``arm_aapcscc``: code 67
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* ``arm_aapcs_vfpcc``: code 68
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* isproto*: Non-zero if this entry represents a declaration rather than a
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definition
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* *linkage*: An encoding of the `linkage type`_ for this function
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* *paramattr*: If nonzero, the 1-based parameter attribute index into the table
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of `PARAMATTR_CODE_ENTRY`_ entries.
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* *alignment*: The logarithm base 2 of the function's requested alignment, plus
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1
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* *section*: If non-zero, the 1-based section index in the table of
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`MODULE_CODE_SECTIONNAME`_ entries.
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* *visibility*: An encoding of the `visibility`_ of this function
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* *gc*: If present and nonzero, the 1-based garbage collector index in the table
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of `MODULE_CODE_GCNAME`_ entries.
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* *unnamed_addr*: If present, an encoding of the
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:ref:`unnamed_addr<bcunnamedaddr>` attribute of this function
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* *prologuedata*: If non-zero, the value index of the prologue data for this function,
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plus 1.
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* *dllstorageclass*: An encoding of the
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:ref:`dllstorageclass<bcdllstorageclass>` of this function
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* *comdat*: An encoding of the COMDAT of this function
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* *prefixdata*: If non-zero, the value index of the prefix data for this function,
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plus 1.
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* *personalityfn*: If non-zero, the value index of the personality function for this function,
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plus 1.
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* *preemptionspecifier*: If present, an encoding of the :ref:`runtime preemption specifier<bcpreemptionspecifier>` of this function.
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MODULE_CODE_ALIAS Record
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^^^^^^^^^^^^^^^^^^^^^^^^
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``[ALIAS, strtab offset, strtab size, alias type, aliasee val#, linkage, visibility, dllstorageclass, threadlocal, unnamed_addr, preemptionspecifier]``
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The ``ALIAS`` record (code 9) marks the definition of an alias. The operand
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fields are
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* *strtab offset*, *strtab size*: Specifies the name of the alias.
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See `STRTAB_BLOCK Contents`_.
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* *alias type*: The type index of the alias
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* *aliasee val#*: The value index of the aliased value
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* *linkage*: An encoding of the `linkage type`_ for this alias
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* *visibility*: If present, an encoding of the `visibility`_ of the alias
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* *dllstorageclass*: If present, an encoding of the
|
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:ref:`dllstorageclass<bcdllstorageclass>` of the alias
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* *threadlocal*: If present, an encoding of the
|
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:ref:`thread local property<bcthreadlocal>` of the alias
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* *unnamed_addr*: If present, an encoding of the
|
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:ref:`unnamed_addr<bcunnamedaddr>` attribute of this alias
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* *preemptionspecifier*: If present, an encoding of the :ref:`runtime preemption specifier<bcpreemptionspecifier>` of this alias.
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.. _MODULE_CODE_GCNAME:
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MODULE_CODE_GCNAME Record
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^^^^^^^^^^^^^^^^^^^^^^^^^
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``[GCNAME, ...string...]``
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The ``GCNAME`` record (code 11) contains a variable number of values
|
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representing the bytes of a single garbage collector name string. There should
|
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be one ``GCNAME`` record for each garbage collector name referenced in function
|
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``gc`` attributes within the module. These records can be referenced by 1-based
|
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index in the *gc* fields of ``FUNCTION`` records.
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.. _PARAMATTR_BLOCK:
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PARAMATTR_BLOCK Contents
|
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------------------------
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The ``PARAMATTR_BLOCK`` block (id 9) contains a table of entries describing the
|
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attributes of function parameters. These entries are referenced by 1-based index
|
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in the *paramattr* field of module block `FUNCTION`_ records, or within the
|
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*attr* field of function block ``INST_INVOKE`` and ``INST_CALL`` records.
|
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|
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Entries within ``PARAMATTR_BLOCK`` are constructed to ensure that each is unique
|
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(i.e., no two indices represent equivalent attribute lists).
|
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.. _PARAMATTR_CODE_ENTRY:
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PARAMATTR_CODE_ENTRY Record
|
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^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
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``[ENTRY, attrgrp0, attrgrp1, ...]``
|
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|
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The ``ENTRY`` record (code 2) contains a variable number of values describing a
|
|
unique set of function parameter attributes. Each *attrgrp* value is used as a
|
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key with which to look up an entry in the attribute group table described
|
|
in the ``PARAMATTR_GROUP_BLOCK`` block.
|
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|
|
.. _PARAMATTR_CODE_ENTRY_OLD:
|
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|
|
PARAMATTR_CODE_ENTRY_OLD Record
|
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
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|
|
.. note::
|
|
This is a legacy encoding for attributes, produced by LLVM versions 3.2 and
|
|
earlier. It is guaranteed to be understood by the current LLVM version, as
|
|
specified in the :ref:`IR backwards compatibility` policy.
|
|
|
|
``[ENTRY, paramidx0, attr0, paramidx1, attr1...]``
|
|
|
|
The ``ENTRY`` record (code 1) contains an even number of values describing a
|
|
unique set of function parameter attributes. Each *paramidx* value indicates
|
|
which set of attributes is represented, with 0 representing the return value
|
|
attributes, 0xFFFFFFFF representing function attributes, and other values
|
|
representing 1-based function parameters. Each *attr* value is a bitmap with the
|
|
following interpretation:
|
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|
|
* bit 0: ``zeroext``
|
|
* bit 1: ``signext``
|
|
* bit 2: ``noreturn``
|
|
* bit 3: ``inreg``
|
|
* bit 4: ``sret``
|
|
* bit 5: ``nounwind``
|
|
* bit 6: ``noalias``
|
|
* bit 7: ``byval``
|
|
* bit 8: ``nest``
|
|
* bit 9: ``readnone``
|
|
* bit 10: ``readonly``
|
|
* bit 11: ``noinline``
|
|
* bit 12: ``alwaysinline``
|
|
* bit 13: ``optsize``
|
|
* bit 14: ``ssp``
|
|
* bit 15: ``sspreq``
|
|
* bits 16-31: ``align n``
|
|
* bit 32: ``nocapture``
|
|
* bit 33: ``noredzone``
|
|
* bit 34: ``noimplicitfloat``
|
|
* bit 35: ``naked``
|
|
* bit 36: ``inlinehint``
|
|
* bits 37-39: ``alignstack n``, represented as the logarithm
|
|
base 2 of the requested alignment, plus 1
|
|
|
|
.. _PARAMATTR_GROUP_BLOCK:
|
|
|
|
PARAMATTR_GROUP_BLOCK Contents
|
|
------------------------------
|
|
|
|
The ``PARAMATTR_GROUP_BLOCK`` block (id 10) contains a table of entries
|
|
describing the attribute groups present in the module. These entries can be
|
|
referenced within ``PARAMATTR_CODE_ENTRY`` entries.
|
|
|
|
.. _PARAMATTR_GRP_CODE_ENTRY:
|
|
|
|
PARAMATTR_GRP_CODE_ENTRY Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[ENTRY, grpid, paramidx, attr0, attr1, ...]``
|
|
|
|
The ``ENTRY`` record (code 3) contains *grpid* and *paramidx* values, followed
|
|
by a variable number of values describing a unique group of attributes. The
|
|
*grpid* value is a unique key for the attribute group, which can be referenced
|
|
within ``PARAMATTR_CODE_ENTRY`` entries. The *paramidx* value indicates which
|
|
set of attributes is represented, with 0 representing the return value
|
|
attributes, 0xFFFFFFFF representing function attributes, and other values
|
|
representing 1-based function parameters.
|
|
|
|
Each *attr* is itself represented as a variable number of values:
|
|
|
|
``kind, key [, ...], [value [, ...]]``
|
|
|
|
Each attribute is either a well-known LLVM attribute (possibly with an integer
|
|
value associated with it), or an arbitrary string (possibly with an arbitrary
|
|
string value associated with it). The *kind* value is an integer code
|
|
distinguishing between these possibilities:
|
|
|
|
* code 0: well-known attribute
|
|
* code 1: well-known attribute with an integer value
|
|
* code 3: string attribute
|
|
* code 4: string attribute with a string value
|
|
|
|
For well-known attributes (code 0 or 1), the *key* value is an integer code
|
|
identifying the attribute. For attributes with an integer argument (code 1),
|
|
the *value* value indicates the argument.
|
|
|
|
For string attributes (code 3 or 4), the *key* value is actually a variable
|
|
number of values representing the bytes of a null-terminated string. For
|
|
attributes with a string argument (code 4), the *value* value is similarly a
|
|
variable number of values representing the bytes of a null-terminated string.
|
|
|
|
The integer codes are mapped to well-known attributes as follows.
|
|
|
|
* code 1: ``align(<n>)``
|
|
* code 2: ``alwaysinline``
|
|
* code 3: ``byval``
|
|
* code 4: ``inlinehint``
|
|
* code 5: ``inreg``
|
|
* code 6: ``minsize``
|
|
* code 7: ``naked``
|
|
* code 8: ``nest``
|
|
* code 9: ``noalias``
|
|
* code 10: ``nobuiltin``
|
|
* code 11: ``nocapture``
|
|
* code 12: ``noduplicates``
|
|
* code 13: ``noimplicitfloat``
|
|
* code 14: ``noinline``
|
|
* code 15: ``nonlazybind``
|
|
* code 16: ``noredzone``
|
|
* code 17: ``noreturn``
|
|
* code 18: ``nounwind``
|
|
* code 19: ``optsize``
|
|
* code 20: ``readnone``
|
|
* code 21: ``readonly``
|
|
* code 22: ``returned``
|
|
* code 23: ``returns_twice``
|
|
* code 24: ``signext``
|
|
* code 25: ``alignstack(<n>)``
|
|
* code 26: ``ssp``
|
|
* code 27: ``sspreq``
|
|
* code 28: ``sspstrong``
|
|
* code 29: ``sret``
|
|
* code 30: ``sanitize_address``
|
|
* code 31: ``sanitize_thread``
|
|
* code 32: ``sanitize_memory``
|
|
* code 33: ``uwtable``
|
|
* code 34: ``zeroext``
|
|
* code 35: ``builtin``
|
|
* code 36: ``cold``
|
|
* code 37: ``optnone``
|
|
* code 38: ``inalloca``
|
|
* code 39: ``nonnull``
|
|
* code 40: ``jumptable``
|
|
* code 41: ``dereferenceable(<n>)``
|
|
* code 42: ``dereferenceable_or_null(<n>)``
|
|
* code 43: ``convergent``
|
|
* code 44: ``safestack``
|
|
* code 45: ``argmemonly``
|
|
* code 46: ``swiftself``
|
|
* code 47: ``swifterror``
|
|
* code 48: ``norecurse``
|
|
* code 49: ``inaccessiblememonly``
|
|
* code 50: ``inaccessiblememonly_or_argmemonly``
|
|
* code 51: ``allocsize(<EltSizeParam>[, <NumEltsParam>])``
|
|
* code 52: ``writeonly``
|
|
* code 53: ``speculatable``
|
|
* code 54: ``strictfp``
|
|
* code 55: ``sanitize_hwaddress``
|
|
* code 56: ``nocf_check``
|
|
* code 57: ``optforfuzzing``
|
|
* code 58: ``shadowcallstack``
|
|
* code 59: ``speculative_load_hardening``
|
|
* code 60: ``immarg``
|
|
* code 61: ``willreturn``
|
|
* code 62: ``nofree``
|
|
* code 63: ``nosync``
|
|
* code 64: ``sanitize_memtag``
|
|
* code 65: ``preallocated``
|
|
* code 66: ``no_merge``
|
|
* code 67: ``null_pointer_is_valid``
|
|
* code 68: ``noundef``
|
|
* code 69: ``byref``
|
|
* code 70: ``mustprogress``
|
|
|
|
.. note::
|
|
The ``allocsize`` attribute has a special encoding for its arguments. Its two
|
|
arguments, which are 32-bit integers, are packed into one 64-bit integer value
|
|
(i.e. ``(EltSizeParam << 32) | NumEltsParam``), with ``NumEltsParam`` taking on
|
|
the sentinel value -1 if it is not specified.
|
|
|
|
.. _TYPE_BLOCK:
|
|
|
|
TYPE_BLOCK Contents
|
|
-------------------
|
|
|
|
The ``TYPE_BLOCK`` block (id 17) contains records which constitute a table of
|
|
type operator entries used to represent types referenced within an LLVM
|
|
module. Each record (with the exception of `NUMENTRY`_) generates a single type
|
|
table entry, which may be referenced by 0-based index from instructions,
|
|
constants, metadata, type symbol table entries, or other type operator records.
|
|
|
|
Entries within ``TYPE_BLOCK`` are constructed to ensure that each entry is
|
|
unique (i.e., no two indices represent structurally equivalent types).
|
|
|
|
.. _TYPE_CODE_NUMENTRY:
|
|
.. _NUMENTRY:
|
|
|
|
TYPE_CODE_NUMENTRY Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[NUMENTRY, numentries]``
|
|
|
|
The ``NUMENTRY`` record (code 1) contains a single value which indicates the
|
|
total number of type code entries in the type table of the module. If present,
|
|
``NUMENTRY`` should be the first record in the block.
|
|
|
|
TYPE_CODE_VOID Record
|
|
^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[VOID]``
|
|
|
|
The ``VOID`` record (code 2) adds a ``void`` type to the type table.
|
|
|
|
TYPE_CODE_HALF Record
|
|
^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[HALF]``
|
|
|
|
The ``HALF`` record (code 10) adds a ``half`` (16-bit floating point) type to
|
|
the type table.
|
|
|
|
TYPE_CODE_BFLOAT Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[BFLOAT]``
|
|
|
|
The ``BFLOAT`` record (code 23) adds a ``bfloat`` (16-bit brain floating point)
|
|
type to the type table.
|
|
|
|
TYPE_CODE_FLOAT Record
|
|
^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[FLOAT]``
|
|
|
|
The ``FLOAT`` record (code 3) adds a ``float`` (32-bit floating point) type to
|
|
the type table.
|
|
|
|
TYPE_CODE_DOUBLE Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[DOUBLE]``
|
|
|
|
The ``DOUBLE`` record (code 4) adds a ``double`` (64-bit floating point) type to
|
|
the type table.
|
|
|
|
TYPE_CODE_LABEL Record
|
|
^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[LABEL]``
|
|
|
|
The ``LABEL`` record (code 5) adds a ``label`` type to the type table.
|
|
|
|
TYPE_CODE_OPAQUE Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[OPAQUE]``
|
|
|
|
The ``OPAQUE`` record (code 6) adds an ``opaque`` type to the type table, with
|
|
a name defined by a previously encountered ``STRUCT_NAME`` record. Note that
|
|
distinct ``opaque`` types are not unified.
|
|
|
|
TYPE_CODE_INTEGER Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[INTEGER, width]``
|
|
|
|
The ``INTEGER`` record (code 7) adds an integer type to the type table. The
|
|
single *width* field indicates the width of the integer type.
|
|
|
|
TYPE_CODE_POINTER Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[POINTER, pointee type, address space]``
|
|
|
|
The ``POINTER`` record (code 8) adds a pointer type to the type table. The
|
|
operand fields are
|
|
|
|
* *pointee type*: The type index of the pointed-to type
|
|
|
|
* *address space*: If supplied, the target-specific numbered address space where
|
|
the pointed-to object resides. Otherwise, the default address space is zero.
|
|
|
|
TYPE_CODE_FUNCTION_OLD Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
.. note::
|
|
This is a legacy encoding for functions, produced by LLVM versions 3.0 and
|
|
earlier. It is guaranteed to be understood by the current LLVM version, as
|
|
specified in the :ref:`IR backwards compatibility` policy.
|
|
|
|
``[FUNCTION_OLD, vararg, ignored, retty, ...paramty... ]``
|
|
|
|
The ``FUNCTION_OLD`` record (code 9) adds a function type to the type table.
|
|
The operand fields are
|
|
|
|
* *vararg*: Non-zero if the type represents a varargs function
|
|
|
|
* *ignored*: This value field is present for backward compatibility only, and is
|
|
ignored
|
|
|
|
* *retty*: The type index of the function's return type
|
|
|
|
* *paramty*: Zero or more type indices representing the parameter types of the
|
|
function
|
|
|
|
TYPE_CODE_ARRAY Record
|
|
^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[ARRAY, numelts, eltty]``
|
|
|
|
The ``ARRAY`` record (code 11) adds an array type to the type table. The
|
|
operand fields are
|
|
|
|
* *numelts*: The number of elements in arrays of this type
|
|
|
|
* *eltty*: The type index of the array element type
|
|
|
|
TYPE_CODE_VECTOR Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[VECTOR, numelts, eltty]``
|
|
|
|
The ``VECTOR`` record (code 12) adds a vector type to the type table. The
|
|
operand fields are
|
|
|
|
* *numelts*: The number of elements in vectors of this type
|
|
|
|
* *eltty*: The type index of the vector element type
|
|
|
|
TYPE_CODE_X86_FP80 Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[X86_FP80]``
|
|
|
|
The ``X86_FP80`` record (code 13) adds an ``x86_fp80`` (80-bit floating point)
|
|
type to the type table.
|
|
|
|
TYPE_CODE_FP128 Record
|
|
^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[FP128]``
|
|
|
|
The ``FP128`` record (code 14) adds an ``fp128`` (128-bit floating point) type
|
|
to the type table.
|
|
|
|
TYPE_CODE_PPC_FP128 Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[PPC_FP128]``
|
|
|
|
The ``PPC_FP128`` record (code 15) adds a ``ppc_fp128`` (128-bit floating point)
|
|
type to the type table.
|
|
|
|
TYPE_CODE_METADATA Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[METADATA]``
|
|
|
|
The ``METADATA`` record (code 16) adds a ``metadata`` type to the type table.
|
|
|
|
TYPE_CODE_X86_MMX Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[X86_MMX]``
|
|
|
|
The ``X86_MMX`` record (code 17) adds an ``x86_mmx`` type to the type table.
|
|
|
|
TYPE_CODE_STRUCT_ANON Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[STRUCT_ANON, ispacked, ...eltty...]``
|
|
|
|
The ``STRUCT_ANON`` record (code 18) adds a literal struct type to the type
|
|
table. The operand fields are
|
|
|
|
* *ispacked*: Non-zero if the type represents a packed structure
|
|
|
|
* *eltty*: Zero or more type indices representing the element types of the
|
|
structure
|
|
|
|
TYPE_CODE_STRUCT_NAME Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[STRUCT_NAME, ...string...]``
|
|
|
|
The ``STRUCT_NAME`` record (code 19) contains a variable number of values
|
|
representing the bytes of a struct name. The next ``OPAQUE`` or
|
|
``STRUCT_NAMED`` record will use this name.
|
|
|
|
TYPE_CODE_STRUCT_NAMED Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[STRUCT_NAMED, ispacked, ...eltty...]``
|
|
|
|
The ``STRUCT_NAMED`` record (code 20) adds an identified struct type to the
|
|
type table, with a name defined by a previously encountered ``STRUCT_NAME``
|
|
record. The operand fields are
|
|
|
|
* *ispacked*: Non-zero if the type represents a packed structure
|
|
|
|
* *eltty*: Zero or more type indices representing the element types of the
|
|
structure
|
|
|
|
TYPE_CODE_FUNCTION Record
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
``[FUNCTION, vararg, retty, ...paramty... ]``
|
|
|
|
The ``FUNCTION`` record (code 21) adds a function type to the type table. The
|
|
operand fields are
|
|
|
|
* *vararg*: Non-zero if the type represents a varargs function
|
|
|
|
* *retty*: The type index of the function's return type
|
|
|
|
* *paramty*: Zero or more type indices representing the parameter types of the
|
|
function
|
|
|
|
.. _CONSTANTS_BLOCK:
|
|
|
|
CONSTANTS_BLOCK Contents
|
|
------------------------
|
|
|
|
The ``CONSTANTS_BLOCK`` block (id 11) ...
|
|
|
|
.. _FUNCTION_BLOCK:
|
|
|
|
FUNCTION_BLOCK Contents
|
|
-----------------------
|
|
|
|
The ``FUNCTION_BLOCK`` block (id 12) ...
|
|
|
|
In addition to the record types described below, a ``FUNCTION_BLOCK`` block may
|
|
contain the following sub-blocks:
|
|
|
|
* `CONSTANTS_BLOCK`_
|
|
* `VALUE_SYMTAB_BLOCK`_
|
|
* `METADATA_ATTACHMENT`_
|
|
|
|
.. _VALUE_SYMTAB_BLOCK:
|
|
|
|
VALUE_SYMTAB_BLOCK Contents
|
|
---------------------------
|
|
|
|
The ``VALUE_SYMTAB_BLOCK`` block (id 14) ...
|
|
|
|
.. _METADATA_BLOCK:
|
|
|
|
METADATA_BLOCK Contents
|
|
-----------------------
|
|
|
|
The ``METADATA_BLOCK`` block (id 15) ...
|
|
|
|
.. _METADATA_ATTACHMENT:
|
|
|
|
METADATA_ATTACHMENT Contents
|
|
----------------------------
|
|
|
|
The ``METADATA_ATTACHMENT`` block (id 16) ...
|
|
|
|
.. _STRTAB_BLOCK:
|
|
|
|
STRTAB_BLOCK Contents
|
|
---------------------
|
|
|
|
The ``STRTAB`` block (id 23) contains a single record (``STRTAB_BLOB``, id 1)
|
|
with a single blob operand containing the bitcode file's string table.
|
|
|
|
Strings in the string table are not null terminated. A record's *strtab
|
|
offset* and *strtab size* operands specify the byte offset and size of a
|
|
string within the string table.
|
|
|
|
The string table is used by all preceding blocks in the bitcode file that are
|
|
not succeeded by another intervening ``STRTAB`` block. Normally a bitcode
|
|
file will have a single string table, but it may have more than one if it
|
|
was created by binary concatenation of multiple bitcode files.
|