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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 implements the instantiation of generic procs.
proc instantiateGenericParamList(c: PContext, n: PNode, pt: TIdTable,
entry: var TInstantiatedSymbol) =
if n.kind != nkGenericParams:
InternalError(n.info, "instantiateGenericParamList; no generic params")
newSeq(entry.concreteTypes, n.len)
for i in countup(0, n.len - 1):
var a = n.sons[i]
if a.kind != nkSym:
InternalError(a.info, "instantiateGenericParamList; no symbol")
var q = a.sym
if q.typ.kind notin {tyTypeDesc, tyGenericParam}: continue
var s = newSym(skType, q.name, getCurrOwner())
s.info = q.info
incl(s.flags, sfUsed)
var t = PType(IdTableGet(pt, q.typ))
if t == nil:
LocalError(a.info, errCannotInstantiateX, s.name.s)
break
if t.kind == tyGenericParam:
InternalError(a.info, "instantiateGenericParamList: " & q.name.s)
s.typ = t
addDecl(c, s)
entry.concreteTypes[i] = t
proc sameInstantiation(a, b: TInstantiatedSymbol): bool =
if a.genericSym.id == b.genericSym.id and
a.concreteTypes.len == b.concreteTypes.len:
for i in 0 .. < a.concreteTypes.len:
if not sameType(a.concreteTypes[i], b.concreteTypes[i]): return
result = true
proc GenericCacheGet(c: PContext, entry: var TInstantiatedSymbol): PSym =
for i in countup(0, Len(generics) - 1):
if sameInstantiation(entry, generics[i]):
result = generics[i].instSym
# checking for the concrete parameter list is wrong and unnecessary!
#if equalParams(b.typ.n, instSym.typ.n) == paramsEqual:
#echo "found in cache: ", getProcHeader(result)
return
proc removeDefaultParamValues(n: PNode) =
# we remove default params, because they cannot be instantiated properly
# and they are not needed anyway for instantiation (each param is already
# provided).
when false:
for i in countup(1, sonsLen(n)-1):
var a = n.sons[i]
if a.kind != nkIdentDefs: IllFormedAst(a)
var L = a.len
if a.sons[L-1].kind != nkEmpty and a.sons[L-2].kind != nkEmpty:
# ``param: typ = defaultVal``.
# We don't need defaultVal for semantic checking and it's wrong for
# ``cmp: proc (a, b: T): int = cmp``. Hm, for ``cmp = cmp`` that is
# not possible... XXX We don't solve this issue here.
a.sons[L-1] = ast.emptyNode
proc instantiateBody(c: PContext, n: PNode, result: PSym) =
if n.sons[codePos].kind != nkEmpty:
# add it here, so that recursive generic procs are possible:
addDecl(c, result)
pushProcCon(c, result)
if result.kind in {skProc, skMethod, skConverter}:
addResult(c, result.typ.sons[0], n.info)
addResultNode(c, n)
n.sons[codePos] = semStmtScope(c, n.sons[codePos])
if result.kind == skIterator:
# XXX Bad hack for tests/titer2:
n.sons[codePos] = transform(c.module, n.sons[codePos])
#echo "code instantiated ", result.name.s
excl(result.flags, sfForward)
popProcCon(c)
proc fixupInstantiatedSymbols(c: PContext, s: PSym) =
for i in countup(0, Len(generics) - 1):
if generics[i].genericSym.id == s.id:
var oldPrc = generics[i].instSym
pushInfoContext(oldPrc.info)
openScope(c.tab)
var n = oldPrc.ast
n.sons[codePos] = copyTree(s.ast.sons[codePos])
if n.sons[paramsPos].kind != nkEmpty: addParams(c, oldPrc.typ.n)
instantiateBody(c, n, oldPrc)
closeScope(c.tab)
popInfoContext()
proc generateInstance(c: PContext, fn: PSym, pt: TIdTable,
info: TLineInfo): PSym =
# generates an instantiated proc
if c.InstCounter > 1000: InternalError(fn.ast.info, "nesting too deep")
inc(c.InstCounter)
# NOTE: for access of private fields within generics from a different module
# and other identifiers we fake the current module temporarily!
# XXX bad hack!
var oldMod = c.module
c.module = getModule(fn)
result = copySym(fn, false)
incl(result.flags, sfFromGeneric)
result.owner = getCurrOwner().owner
var n = copyTree(fn.ast)
result.ast = n
pushOwner(result)
openScope(c.tab)
if n.sons[genericParamsPos].kind == nkEmpty:
InternalError(n.info, "generateInstance")
n.sons[namePos] = newSymNode(result)
pushInfoContext(info)
var entry: TInstantiatedSymbol
entry.instSym = result
entry.genericSym = fn
instantiateGenericParamList(c, n.sons[genericParamsPos], pt, entry)
n.sons[genericParamsPos] = ast.emptyNode
# semantic checking for the parameters:
if n.sons[paramsPos].kind != nkEmpty:
removeDefaultParamValues(n.sons[ParamsPos])
semParamList(c, n.sons[ParamsPos], nil, result)
addParams(c, result.typ.n)
else:
result.typ = newTypeS(tyProc, c)
addSon(result.typ, nil)
result.typ.callConv = fn.typ.callConv
ParamsTypeCheck(c, result.typ)
var oldPrc = GenericCacheGet(c, entry)
if oldPrc == nil:
generics.add(entry)
instantiateBody(c, n, result)
else:
result = oldPrc
popInfoContext()
closeScope(c.tab) # close scope for parameters
popOwner()
c.module = oldMod
dec(c.InstCounter)
proc instGenericContainer(c: PContext, n: PNode, header: PType): PType =
var cl: TReplTypeVars
InitIdTable(cl.symMap)
InitIdTable(cl.typeMap)
cl.info = n.info
cl.c = c
result = ReplaceTypeVarsT(cl, header)
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