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#
#
# The Nimrod Compiler
# (c) Copyright 2011 Andreas Rumpf
#
# See the file "copying.txt", included in this
# distribution, for details about the copyright.
#
# This module contains the data structures for the semantic checking phase.
import
strutils, lists, intsets, options, lexer, ast, astalgo, trees, treetab,
wordrecg,
ropes, msgs, platform, os, condsyms, idents, renderer, types, extccomp, math,
magicsys, nversion, nimsets, parser, times, passes, rodread
type
TOptionEntry* = object of lists.TListEntry # entries to put on a
# stack for pragma parsing
options*: TOptions
defaultCC*: TCallingConvention
dynlib*: PLib
Notes*: TNoteKinds
POptionEntry* = ref TOptionEntry
PProcCon* = ref TProcCon
TProcCon*{.final.} = object # procedure context; also used for top-level
# statements
owner*: PSym # the symbol this context belongs to
resultSym*: PSym # the result symbol (if we are in a proc)
nestedLoopCounter*: int # whether we are in a loop or not
nestedBlockCounter*: int # whether we are in a block or not
next*: PProcCon # used for stacking procedure contexts
PContext* = ref TContext
TContext* = object of TPassContext # a context represents a module
module*: PSym # the module sym belonging to the context
p*: PProcCon # procedure context
InstCounter*: int # to prevent endless instantiations
generics*: PNode # a list of the things to compile; list of
# nkExprEqExpr nodes which contain the
# generic symbol and the instantiated symbol
threadEntries*: TSymSeq # list of thread entries to check
lastGenericIdx*: int # used for the generics stack
tab*: TSymTab # each module has its own symbol table
AmbiguousSymbols*: TIntSet # ids of all ambiguous symbols (cannot
# store this info in the syms themselves!)
converters*: TSymSeq # sequence of converters
optionStack*: TLinkedList
libs*: TLinkedList # all libs used by this module
fromCache*: bool # is the module read from a cache?
semConstExpr*: proc (c: PContext, n: PNode): PNode # for the pragmas
semExpr*: proc (c: PContext, n: PNode): PNode # for the pragmas
includedFiles*: TIntSet # used to detect recursive include files
filename*: string # the module's filename
userPragmas*: TStrTable
var gInstTypes*: TIdTable # map PType to PType
proc newContext*(module: PSym, nimfile: string): PContext
proc lastOptionEntry*(c: PContext): POptionEntry
proc newOptionEntry*(): POptionEntry
proc addConverter*(c: PContext, conv: PSym)
proc newLib*(kind: TLibKind): PLib
proc addToLib*(lib: PLib, sym: PSym)
proc makePtrType*(c: PContext, baseType: PType): PType
proc makeVarType*(c: PContext, baseType: PType): PType
proc newTypeS*(kind: TTypeKind, c: PContext): PType
proc fillTypeS*(dest: PType, kind: TTypeKind, c: PContext)
proc makeRangeType*(c: PContext, first, last: biggestInt, info: TLineInfo): PType
# owner handling:
proc getCurrOwner*(): PSym
proc PushOwner*(owner: PSym)
proc PopOwner*()
# implementation
var gOwners: seq[PSym] = @[]
proc getCurrOwner(): PSym =
# owner stack (used for initializing the
# owner field of syms)
# the documentation comment always gets
# assigned to the current owner
# BUGFIX: global array is needed!
result = gOwners[high(gOwners)]
proc PushOwner(owner: PSym) =
add(gOwners, owner)
proc PopOwner() =
var length = len(gOwners)
if (length <= 0): InternalError("popOwner")
setlen(gOwners, length - 1)
proc lastOptionEntry(c: PContext): POptionEntry =
result = POptionEntry(c.optionStack.tail)
proc pushProcCon*(c: PContext, owner: PSym) {.inline.} =
if owner == nil: InternalError("owner is nil")
var x: PProcCon
new(x)
x.owner = owner
x.next = c.p
c.p = x
proc popProcCon*(c: PContext) {.inline.} = c.p = c.p.next
proc newOptionEntry(): POptionEntry =
new(result)
result.options = gOptions
result.defaultCC = ccDefault
result.dynlib = nil
result.notes = gNotes
proc newContext(module: PSym, nimfile: string): PContext =
new(result)
InitSymTab(result.tab)
result.AmbiguousSymbols = initIntset()
initLinkedList(result.optionStack)
initLinkedList(result.libs)
append(result.optionStack, newOptionEntry())
result.module = module
result.generics = newNode(nkStmtList)
result.threadEntries = @[]
result.converters = @[]
result.filename = nimfile
result.includedFiles = initIntSet()
initStrTable(result.userPragmas)
proc addConverter(c: PContext, conv: PSym) =
var L = len(c.converters)
for i in countup(0, L - 1):
if c.converters[i].id == conv.id: return
setlen(c.converters, L + 1)
c.converters[L] = conv
proc newLib(kind: TLibKind): PLib =
new(result)
result.kind = kind #initObjectSet(result.syms)
proc addToLib(lib: PLib, sym: PSym) =
#ObjectSetIncl(lib.syms, sym);
if sym.annex != nil: LocalError(sym.info, errInvalidPragma)
sym.annex = lib
proc makePtrType(c: PContext, baseType: PType): PType =
if (baseType == nil): InternalError("makePtrType")
result = newTypeS(tyPtr, c)
addSon(result, baseType)
proc makeVarType(c: PContext, baseType: PType): PType =
if (baseType == nil): InternalError("makeVarType")
result = newTypeS(tyVar, c)
addSon(result, baseType)
proc newTypeS(kind: TTypeKind, c: PContext): PType =
result = newType(kind, getCurrOwner())
proc fillTypeS(dest: PType, kind: TTypeKind, c: PContext) =
dest.kind = kind
dest.owner = getCurrOwner()
dest.size = - 1
proc makeRangeType(c: PContext, first, last: biggestInt,
info: TLineInfo): PType =
var n = newNodeI(nkRange, info)
addSon(n, newIntNode(nkIntLit, first))
addSon(n, newIntNode(nkIntLit, last))
result = newTypeS(tyRange, c)
result.n = n
addSon(result, getSysType(tyInt)) # basetype of range
proc markUsed*(n: PNode, s: PSym) =
incl(s.flags, sfUsed)
if sfDeprecated in s.flags: Message(n.info, warnDeprecated, s.name.s)
proc illFormedAst*(n: PNode) =
GlobalError(n.info, errIllFormedAstX, renderTree(n, {renderNoComments}))
proc checkSonsLen*(n: PNode, length: int) =
if sonsLen(n) != length: illFormedAst(n)
proc checkMinSonsLen*(n: PNode, length: int) =
if sonsLen(n) < length: illFormedAst(n)
initIdTable(gInstTypes)
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