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- #
- #
- # The Nim Compiler
- # (c) Copyright 2020 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- ## Low level binary format used by the compiler to store and load various AST
- ## and related data.
- ##
- ## NB: this is incredibly low level and if you're interested in how the
- ## compiler works and less a storage format, you're probably looking for
- ## the `ic` or `packed_ast` modules to understand the logical format.
- from typetraits import supportsCopyMem
- when defined(nimPreviewSlimSystem):
- import std/[syncio, assertions]
- ## Overview
- ## ========
- ## `RodFile` represents a Rod File (versioned binary format), and the
- ## associated data for common interactions such as IO and error tracking
- ## (`RodFileError`). The file format broken up into sections (`RodSection`)
- ## and preceeded by a header (see: `cookie`). The precise layout, section
- ## ordering and data following the section are determined by the user. See
- ## `ic.loadRodFile`.
- ##
- ## A basic but "wrong" example of the lifecycle:
- ## ---------------------------------------------
- ## 1. `create` or `open` - create a new one or open an existing
- ## 2. `storeHeader` - header info
- ## 3. `storePrim` or `storeSeq` - save your stuff
- ## 4. `close` - and we're done
- ##
- ## Now read the bits below to understand what's missing.
- ##
- ## ### Issues with the Example
- ## Missing Sections:
- ## This is a low level API, so headers and sections need to be stored and
- ## loaded by the user, see `storeHeader` & `loadHeader` and `storeSection` &
- ## `loadSection`, respectively.
- ##
- ## No Error Handling:
- ## The API is centered around IO and prone to error, each operation checks or
- ## sets the `RodFile.err` field. A user of this API needs to handle these
- ## appropriately.
- ##
- ## API Notes
- ## =========
- ##
- ## Valid inputs for Rod files
- ## --------------------------
- ## ASTs, hopes, dreams, and anything as long as it and any children it may have
- ## support `copyMem`. This means anything that is not a pointer and that does not contain a pointer. At a glance these are:
- ## * string
- ## * objects & tuples (fields are recursed)
- ## * sequences AKA `seq[T]`
- ##
- ## Note on error handling style
- ## ----------------------------
- ## A flag based approach is used where operations no-op in case of a
- ## preexisting error and set the flag if they encounter one.
- ##
- ## Misc
- ## ----
- ## * 'Prim' is short for 'primitive', as in a non-sequence type
- type
- RodSection* = enum
- versionSection
- configSection
- stringsSection
- checkSumsSection
- depsSection
- numbersSection
- exportsSection
- hiddenSection
- reexportsSection
- compilerProcsSection
- trmacrosSection
- convertersSection
- methodsSection
- pureEnumsSection
- toReplaySection
- topLevelSection
- bodiesSection
- symsSection
- typesSection
- typeInstCacheSection
- procInstCacheSection
- attachedOpsSection
- methodsPerTypeSection
- enumToStringProcsSection
- typeInfoSection # required by the backend
- backendFlagsSection
- aliveSymsSection # beware, this is stored in a `.alivesyms` file.
- RodFileError* = enum
- ok, tooBig, cannotOpen, ioFailure, wrongHeader, wrongSection, configMismatch,
- includeFileChanged
- RodFile* = object
- f*: File
- currentSection*: RodSection # for error checking
- err*: RodFileError # little experiment to see if this works
- # better than exceptions.
- const
- RodVersion = 1
- cookie = [byte(0), byte('R'), byte('O'), byte('D'),
- byte(sizeof(int)*8), byte(system.cpuEndian), byte(0), byte(RodVersion)]
- proc setError(f: var RodFile; err: RodFileError) {.inline.} =
- f.err = err
- #raise newException(IOError, "IO error")
- proc storePrim*(f: var RodFile; s: string) =
- ## Stores a string.
- ## The len is prefixed to allow for later retreival.
- if f.err != ok: return
- if s.len >= high(int32):
- setError f, tooBig
- return
- var lenPrefix = int32(s.len)
- if writeBuffer(f.f, addr lenPrefix, sizeof(lenPrefix)) != sizeof(lenPrefix):
- setError f, ioFailure
- else:
- if s.len != 0:
- if writeBuffer(f.f, unsafeAddr(s[0]), s.len) != s.len:
- setError f, ioFailure
- proc storePrim*[T](f: var RodFile; x: T) =
- ## Stores a non-sequence/string `T`.
- ## If `T` doesn't support `copyMem` and is an object or tuple then the fields
- ## are written -- the user from context will need to know which `T` to load.
- if f.err != ok: return
- when supportsCopyMem(T):
- if writeBuffer(f.f, unsafeAddr(x), sizeof(x)) != sizeof(x):
- setError f, ioFailure
- elif T is tuple:
- for y in fields(x):
- storePrim(f, y)
- elif T is object:
- for y in fields(x):
- when y is seq:
- storeSeq(f, y)
- else:
- storePrim(f, y)
- else:
- {.error: "unsupported type for 'storePrim'".}
- proc storeSeq*[T](f: var RodFile; s: seq[T]) =
- ## Stores a sequence of `T`s, with the len as a prefix for later retrieval.
- if f.err != ok: return
- if s.len >= high(int32):
- setError f, tooBig
- return
- var lenPrefix = int32(s.len)
- if writeBuffer(f.f, addr lenPrefix, sizeof(lenPrefix)) != sizeof(lenPrefix):
- setError f, ioFailure
- else:
- for i in 0..<s.len:
- storePrim(f, s[i])
- proc loadPrim*(f: var RodFile; s: var string) =
- ## Read a string, the length was stored as a prefix
- if f.err != ok: return
- var lenPrefix = int32(0)
- if readBuffer(f.f, addr lenPrefix, sizeof(lenPrefix)) != sizeof(lenPrefix):
- setError f, ioFailure
- else:
- s = newString(lenPrefix)
- if lenPrefix > 0:
- if readBuffer(f.f, unsafeAddr(s[0]), s.len) != s.len:
- setError f, ioFailure
- proc loadPrim*[T](f: var RodFile; x: var T) =
- ## Load a non-sequence/string `T`.
- if f.err != ok: return
- when supportsCopyMem(T):
- if readBuffer(f.f, unsafeAddr(x), sizeof(x)) != sizeof(x):
- setError f, ioFailure
- elif T is tuple:
- for y in fields(x):
- loadPrim(f, y)
- elif T is object:
- for y in fields(x):
- when y is seq:
- loadSeq(f, y)
- else:
- loadPrim(f, y)
- else:
- {.error: "unsupported type for 'loadPrim'".}
- proc loadSeq*[T](f: var RodFile; s: var seq[T]) =
- ## `T` must be compatible with `copyMem`, see `loadPrim`
- if f.err != ok: return
- var lenPrefix = int32(0)
- if readBuffer(f.f, addr lenPrefix, sizeof(lenPrefix)) != sizeof(lenPrefix):
- setError f, ioFailure
- else:
- s = newSeq[T](lenPrefix)
- for i in 0..<lenPrefix:
- loadPrim(f, s[i])
- proc storeHeader*(f: var RodFile) =
- ## stores the header which is described by `cookie`.
- if f.err != ok: return
- if f.f.writeBytes(cookie, 0, cookie.len) != cookie.len:
- setError f, ioFailure
- proc loadHeader*(f: var RodFile) =
- ## Loads the header which is described by `cookie`.
- if f.err != ok: return
- var thisCookie: array[cookie.len, byte]
- if f.f.readBytes(thisCookie, 0, thisCookie.len) != thisCookie.len:
- setError f, ioFailure
- elif thisCookie != cookie:
- setError f, wrongHeader
- proc storeSection*(f: var RodFile; s: RodSection) =
- ## update `currentSection` and writes the bytes value of s.
- if f.err != ok: return
- assert f.currentSection < s
- f.currentSection = s
- storePrim(f, s)
- proc loadSection*(f: var RodFile; expected: RodSection) =
- ## read the bytes value of s, sets and error if the section is incorrect.
- if f.err != ok: return
- var s: RodSection
- loadPrim(f, s)
- if expected != s and f.err == ok:
- setError f, wrongSection
- proc create*(filename: string): RodFile =
- ## create the file and open it for writing
- if not open(result.f, filename, fmWrite):
- setError result, cannotOpen
- proc close*(f: var RodFile) = close(f.f)
- proc open*(filename: string): RodFile =
- ## open the file for reading
- if not open(result.f, filename, fmRead):
- setError result, cannotOpen
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