# # # The Nim Compiler # (c) Copyright 2012 Andreas Rumpf # # See the file "copying.txt", included in this # distribution, for details about the copyright. # # Built-in types and compilerprocs are registered here. import ast, astalgo, hashes, msgs, platform, nversion, times, idents, rodread var systemModule*: PSym var gSysTypes: array[TTypeKind, PType] compilerprocs: TStrTable exposed: TStrTable proc nilOrSysInt*: PType = gSysTypes[tyInt] proc registerSysType*(t: PType) = if gSysTypes[t.kind] == nil: gSysTypes[t.kind] = t proc newSysType(kind: TTypeKind, size: int): PType = result = newType(kind, systemModule) result.size = size result.align = size.int16 proc getSysSym*(name: string): PSym = result = strTableGet(systemModule.tab, getIdent(name)) if result == nil: rawMessage(errSystemNeeds, name) result = newSym(skError, getIdent(name), systemModule, systemModule.info) result.typ = newType(tyError, systemModule) if result.kind == skStub: loadStub(result) if result.kind == skAlias: result = result.owner proc createMagic*(name: string, m: TMagic): PSym = result = newSym(skProc, getIdent(name), nil, unknownLineInfo()) result.magic = m let opNot* = createMagic("not", mNot) opContains* = createMagic("contains", mInSet) proc getSysMagic*(name: string, m: TMagic): PSym = var ti: TIdentIter let id = getIdent(name) var r = initIdentIter(ti, systemModule.tab, id) while r != nil: if r.kind == skStub: loadStub(r) if r.magic == m: # prefer the tyInt variant: if r.typ.sons[0] != nil and r.typ.sons[0].kind == tyInt: return r result = r r = nextIdentIter(ti, systemModule.tab) if result != nil: return result rawMessage(errSystemNeeds, name) result = newSym(skError, id, systemModule, systemModule.info) result.typ = newType(tyError, systemModule) proc sysTypeFromName*(name: string): PType = result = getSysSym(name).typ proc getSysType*(kind: TTypeKind): PType = result = gSysTypes[kind] if result == nil: case kind of tyInt: result = sysTypeFromName("int") of tyInt8: result = sysTypeFromName("int8") of tyInt16: result = sysTypeFromName("int16") of tyInt32: result = sysTypeFromName("int32") of tyInt64: result = sysTypeFromName("int64") of tyUInt: result = sysTypeFromName("uint") of tyUInt8: result = sysTypeFromName("uint8") of tyUInt16: result = sysTypeFromName("uint16") of tyUInt32: result = sysTypeFromName("uint32") of tyUInt64: result = sysTypeFromName("uint64") of tyFloat: result = sysTypeFromName("float") of tyFloat32: result = sysTypeFromName("float32") of tyFloat64: return sysTypeFromName("float64") of tyFloat128: result = sysTypeFromName("float128") of tyBool: result = sysTypeFromName("bool") of tyChar: result = sysTypeFromName("char") of tyString: result = sysTypeFromName("string") of tyCString: result = sysTypeFromName("cstring") of tyPointer: result = sysTypeFromName("pointer") of tyNil: result = newSysType(tyNil, ptrSize) else: internalError("request for typekind: " & $kind) gSysTypes[kind] = result if result.kind != kind: internalError("wanted: " & $kind & " got: " & $result.kind) if result == nil: internalError("type not found: " & $kind) var intTypeCache: array[-5..64, PType] proc resetSysTypes* = systemModule = nil initStrTable(compilerprocs) initStrTable(exposed) for i in low(gSysTypes)..high(gSysTypes): gSysTypes[i] = nil for i in low(intTypeCache)..high(intTypeCache): intTypeCache[i] = nil proc getIntLitType*(literal: PNode): PType = # we cache some common integer literal types for performance: let value = literal.intVal if value >= low(intTypeCache) and value <= high(intTypeCache): result = intTypeCache[value.int] if result == nil: let ti = getSysType(tyInt) result = copyType(ti, ti.owner, false) result.n = literal intTypeCache[value.int] = result else: let ti = getSysType(tyInt) result = copyType(ti, ti.owner, false) result.n = literal proc getFloatLitType*(literal: PNode): PType = # for now we do not cache these: result = newSysType(tyFloat, size=8) result.n = literal proc skipIntLit*(t: PType): PType {.inline.} = if t.n != nil: if t.kind in {tyInt, tyFloat}: return getSysType(t.kind) result = t proc addSonSkipIntLit*(father, son: PType) = if isNil(father.sons): father.sons = @[] let s = son.skipIntLit add(father.sons, s) propagateToOwner(father, s) proc setIntLitType*(result: PNode) = let i = result.intVal case platform.intSize of 8: result.typ = getIntLitType(result) of 4: if i >= low(int32) and i <= high(int32): result.typ = getIntLitType(result) else: result.typ = getSysType(tyInt64) of 2: if i >= low(int16) and i <= high(int16): result.typ = getIntLitType(result) elif i >= low(int32) and i <= high(int32): result.typ = getSysType(tyInt32) else: result.typ = getSysType(tyInt64) of 1: # 8 bit CPUs are insane ... if i >= low(int8) and i <= high(int8): result.typ = getIntLitType(result) elif i >= low(int16) and i <= high(int16): result.typ = getSysType(tyInt16) elif i >= low(int32) and i <= high(int32): result.typ = getSysType(tyInt32) else: result.typ = getSysType(tyInt64) else: internalError(result.info, "invalid int size") proc getCompilerProc*(name: string): PSym = let ident = getIdent(name) result = strTableGet(compilerprocs, ident) if result == nil: result = strTableGet(rodCompilerprocs, ident) if result != nil: strTableAdd(compilerprocs, result) if result.kind == skStub: loadStub(result) if result.kind == skAlias: result = result.owner proc registerCompilerProc*(s: PSym) = strTableAdd(compilerprocs, s) proc registerNimScriptSymbol*(s: PSym) = # Nimscript symbols must be al unique: let conflict = strTableGet(exposed, s.name) if conflict == nil: strTableAdd(exposed, s) else: localError(s.info, "symbol conflicts with other .exportNims symbol at: " & $conflict.info) proc getNimScriptSymbol*(name: string): PSym = strTableGet(exposed, getIdent(name)) proc resetNimScriptSymbols*() = initStrTable(exposed) initStrTable(compilerprocs) initStrTable(exposed)