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- #
- #
- # The Nim Compiler
- # (c) Copyright 2015 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- # included from cgen.nim
- const
- RangeExpandLimit = 256 # do not generate ranges
- # over 'RangeExpandLimit' elements
- stringCaseThreshold = 8
- # above X strings a hash-switch for strings is generated
- proc registerTraverseProc(p: BProc, v: PSym) =
- var traverseProc = ""
- if p.config.selectedGC in {gcMarkAndSweep, gcHooks, gcRefc} and
- optOwnedRefs notin p.config.globalOptions and
- containsGarbageCollectedRef(v.loc.t):
- # we register a specialized marked proc here; this has the advantage
- # that it works out of the box for thread local storage then :-)
- traverseProc = genTraverseProcForGlobal(p.module, v, v.info)
- if traverseProc.len != 0 and not p.hcrOn:
- if sfThread in v.flags:
- appcg(p.module, p.module.preInitProc.procSec(cpsInit),
- "$n\t#nimRegisterThreadLocalMarker($1);$n$n", [traverseProc])
- else:
- appcg(p.module, p.module.preInitProc.procSec(cpsInit),
- "$n\t#nimRegisterGlobalMarker($1);$n$n", [traverseProc])
- proc isAssignedImmediately(conf: ConfigRef; n: PNode): bool {.inline.} =
- if n.kind == nkEmpty:
- result = false
- elif n.kind in nkCallKinds and n[0] != nil and n[0].typ != nil and n[0].typ.skipTypes(abstractInst).kind == tyProc:
- if n[0].kind == nkSym and sfConstructor in n[0].sym.flags:
- result = true
- elif isInvalidReturnType(conf, n[0].typ, true):
- # var v = f()
- # is transformed into: var v; f(addr v)
- # where 'f' **does not** initialize the result!
- result = false
- else:
- result = true
- elif isInvalidReturnType(conf, n.typ, false):
- result = false
- else:
- result = true
- proc inExceptBlockLen(p: BProc): int =
- result = 0
- for x in p.nestedTryStmts:
- if x.inExcept: result.inc
- proc startBlockInternal(p: BProc): int {.discardable.} =
- inc(p.labels)
- result = p.blocks.len
- p.blocks.add initBlock()
- p.blocks[result].id = p.labels
- p.blocks[result].nestedTryStmts = p.nestedTryStmts.len.int16
- p.blocks[result].nestedExceptStmts = p.inExceptBlockLen.int16
- template startBlock(p: BProc, start: FormatStr = "{$n",
- args: varargs[Rope]): int =
- lineCg(p, cpsStmts, start, args)
- startBlockInternal(p)
- proc endBlock(p: BProc)
- proc genVarTuple(p: BProc, n: PNode) =
- if n.kind != nkVarTuple: internalError(p.config, n.info, "genVarTuple")
- # if we have a something that's been captured, use the lowering instead:
- for i in 0..<n.len-2:
- if n[i].kind != nkSym:
- genStmts(p, lowerTupleUnpacking(p.module.g.graph, n, p.module.idgen, p.prc))
- return
- # check only the first son
- var forHcr = treatGlobalDifferentlyForHCR(p.module, n[0].sym)
- let hcrCond = if forHcr: getTempName(p.module) else: ""
- var hcrGlobals: seq[tuple[loc: TLoc, tp: Rope]] = @[]
- # determine if the tuple is constructed at top-level scope or inside of a block (if/while/block)
- let isGlobalInBlock = forHcr and p.blocks.len > 2
- # do not close and reopen blocks if this is a 'global' but inside of a block (if/while/block)
- forHcr = forHcr and not isGlobalInBlock
- if forHcr:
- # check with the boolean if the initializing code for the tuple should be ran
- lineCg(p, cpsStmts, "if ($1)$n", [hcrCond])
- startBlock(p)
- genLineDir(p, n)
- var tup = initLocExpr(p, n[^1])
- var t = tup.t.skipTypes(abstractInst)
- for i in 0..<n.len-2:
- let vn = n[i]
- let v = vn.sym
- if sfCompileTime in v.flags: continue
- if sfGlobal in v.flags:
- assignGlobalVar(p, vn, "")
- genObjectInit(p, cpsInit, v.typ, v.loc, constructObj)
- registerTraverseProc(p, v)
- else:
- assignLocalVar(p, vn)
- initLocalVar(p, v, immediateAsgn=isAssignedImmediately(p.config, n[^1]))
- var field = initLoc(locExpr, vn, tup.storage)
- if t.kind == tyTuple:
- field.r = "$1.Field$2" % [rdLoc(tup), rope(i)]
- else:
- if t.n[i].kind != nkSym: internalError(p.config, n.info, "genVarTuple")
- field.r = "$1.$2" % [rdLoc(tup), mangleRecFieldName(p.module, t.n[i].sym)]
- putLocIntoDest(p, v.loc, field)
- if forHcr or isGlobalInBlock:
- hcrGlobals.add((loc: v.loc, tp: "NULL"))
- if forHcr:
- # end the block where the tuple gets initialized
- endBlock(p)
- if forHcr or isGlobalInBlock:
- # insert the registration of the globals for the different parts of the tuple at the
- # start of the current scope (after they have been iterated) and init a boolean to
- # check if any of them is newly introduced and the initializing code has to be ran
- lineCg(p, cpsLocals, "NIM_BOOL $1 = NIM_FALSE;$n", [hcrCond])
- for curr in hcrGlobals:
- lineCg(p, cpsLocals, "$1 |= hcrRegisterGlobal($4, \"$2\", sizeof($3), $5, (void**)&$2);$N",
- [hcrCond, curr.loc.r, rdLoc(curr.loc), getModuleDllPath(p.module, n[0].sym), curr.tp])
- proc loadInto(p: BProc, le, ri: PNode, a: var TLoc) {.inline.} =
- if ri.kind in nkCallKinds and (ri[0].kind != nkSym or
- ri[0].sym.magic == mNone):
- genAsgnCall(p, le, ri, a)
- else:
- # this is a hacky way to fix #1181 (tmissingderef)::
- #
- # var arr1 = cast[ptr array[4, int8]](addr foo)[]
- #
- # However, fixing this properly really requires modelling 'array' as
- # a 'struct' in C to preserve dereferencing semantics completely. Not
- # worth the effort until version 1.0 is out.
- a.flags.incl(lfEnforceDeref)
- expr(p, ri, a)
- proc assignLabel(b: var TBlock; result: var Rope) {.inline.} =
- b.label = "LA" & b.id.rope
- result.add b.label
- proc blockBody(b: var TBlock; result: var Rope) =
- result.add b.sections[cpsLocals]
- if b.frameLen > 0:
- result.addf("FR_.len+=$1;$n", [b.frameLen.rope])
- result.add(b.sections[cpsInit])
- result.add(b.sections[cpsStmts])
- proc endBlock(p: BProc, blockEnd: Rope) =
- let topBlock = p.blocks.len-1
- # the block is merged into the parent block
- p.blocks[topBlock].blockBody(p.blocks[topBlock-1].sections[cpsStmts])
- setLen(p.blocks, topBlock)
- # this is done after the block is popped so $n is
- # properly indented when pretty printing is enabled
- line(p, cpsStmts, blockEnd)
- proc endBlock(p: BProc) =
- let topBlock = p.blocks.len - 1
- let frameLen = p.blocks[topBlock].frameLen
- var blockEnd: Rope = ""
- if frameLen > 0:
- blockEnd.addf("FR_.len-=$1;$n", [frameLen.rope])
- if p.blocks[topBlock].label.len != 0:
- blockEnd.addf("} $1: ;$n", [p.blocks[topBlock].label])
- else:
- blockEnd.addf("}$n", [])
- endBlock(p, blockEnd)
- proc genSimpleBlock(p: BProc, stmts: PNode) {.inline.} =
- startBlock(p)
- genStmts(p, stmts)
- endBlock(p)
- proc exprBlock(p: BProc, n: PNode, d: var TLoc) =
- startBlock(p)
- expr(p, n, d)
- endBlock(p)
- template preserveBreakIdx(body: untyped): untyped =
- var oldBreakIdx = p.breakIdx
- body
- p.breakIdx = oldBreakIdx
- proc genState(p: BProc, n: PNode) =
- internalAssert p.config, n.len == 1
- let n0 = n[0]
- if n0.kind == nkIntLit:
- let idx = n[0].intVal
- linefmt(p, cpsStmts, "STATE$1: ;$n", [idx])
- elif n0.kind == nkStrLit:
- linefmt(p, cpsStmts, "$1: ;$n", [n0.strVal])
- proc blockLeaveActions(p: BProc, howManyTrys, howManyExcepts: int) =
- # Called by return and break stmts.
- # Deals with issues faced when jumping out of try/except/finally stmts.
- var stack = newSeq[tuple[fin: PNode, inExcept: bool, label: Natural]](0)
- inc p.withinBlockLeaveActions
- for i in 1..howManyTrys:
- let tryStmt = p.nestedTryStmts.pop
- if p.config.exc == excSetjmp:
- # Pop safe points generated by try
- if not tryStmt.inExcept:
- linefmt(p, cpsStmts, "#popSafePoint();$n", [])
- # Pop this try-stmt of the list of nested trys
- # so we don't infinite recurse on it in the next step.
- stack.add(tryStmt)
- # Find finally-stmt for this try-stmt
- # and generate a copy of its sons
- var finallyStmt = tryStmt.fin
- if finallyStmt != nil:
- genStmts(p, finallyStmt[0])
- dec p.withinBlockLeaveActions
- # push old elements again:
- for i in countdown(howManyTrys-1, 0):
- p.nestedTryStmts.add(stack[i])
- # Pop exceptions that was handled by the
- # except-blocks we are in
- if noSafePoints notin p.flags:
- for i in countdown(howManyExcepts-1, 0):
- linefmt(p, cpsStmts, "#popCurrentException();$n", [])
- proc genGotoState(p: BProc, n: PNode) =
- # we resist the temptation to translate it into duff's device as it later
- # will be translated into computed gotos anyway for GCC at least:
- # switch (x.state) {
- # case 0: goto STATE0;
- # ...
- var a: TLoc = initLocExpr(p, n[0])
- lineF(p, cpsStmts, "switch ($1) {$n", [rdLoc(a)])
- p.flags.incl beforeRetNeeded
- lineF(p, cpsStmts, "case -1:$n", [])
- blockLeaveActions(p,
- howManyTrys = p.nestedTryStmts.len,
- howManyExcepts = p.inExceptBlockLen)
- lineF(p, cpsStmts, " goto BeforeRet_;$n", [])
- var statesCounter = lastOrd(p.config, n[0].typ)
- if n.len >= 2 and n[1].kind == nkIntLit:
- statesCounter = getInt(n[1])
- let prefix = if n.len == 3 and n[2].kind == nkStrLit: n[2].strVal.rope
- else: rope"STATE"
- for i in 0i64..toInt64(statesCounter):
- lineF(p, cpsStmts, "case $2: goto $1$2;$n", [prefix, rope(i)])
- lineF(p, cpsStmts, "}$n", [])
- proc genBreakState(p: BProc, n: PNode, d: var TLoc) =
- var a: TLoc
- d = initLoc(locExpr, n, OnUnknown)
- if n[0].kind == nkClosure:
- a = initLocExpr(p, n[0][1])
- d.r = "(((NI*) $1)[1] < 0)" % [rdLoc(a)]
- else:
- a = initLocExpr(p, n[0])
- # the environment is guaranteed to contain the 'state' field at offset 1:
- d.r = "((((NI*) $1.ClE_0)[1]) < 0)" % [rdLoc(a)]
- proc genGotoVar(p: BProc; value: PNode) =
- if value.kind notin {nkCharLit..nkUInt64Lit}:
- localError(p.config, value.info, "'goto' target must be a literal value")
- else:
- lineF(p, cpsStmts, "goto NIMSTATE_$#;$n", [value.intVal.rope])
- proc genBracedInit(p: BProc, n: PNode; isConst: bool; optionalType: PType; result: var Rope)
- proc potentialValueInit(p: BProc; v: PSym; value: PNode; result: var Rope) =
- if lfDynamicLib in v.loc.flags or sfThread in v.flags or p.hcrOn:
- discard "nothing to do"
- elif sfGlobal in v.flags and value != nil and isDeepConstExpr(value, p.module.compileToCpp) and
- p.withinLoop == 0 and not containsGarbageCollectedRef(v.typ):
- #echo "New code produced for ", v.name.s, " ", p.config $ value.info
- genBracedInit(p, value, isConst = false, v.typ, result)
- proc genCppVarForCtor(p: BProc, v: PSym; vn, value: PNode; decl: var Rope) =
- var params = newRopeAppender()
- var argsCounter = 0
- let typ = skipTypes(value[0].typ, abstractInst)
- assert(typ.kind == tyProc)
- for i in 1..<value.len:
- assert(typ.len == typ.n.len)
- genOtherArg(p, value, i, typ, params, argsCounter)
- if params.len == 0:
- decl = runtimeFormat("$#;\n", [decl])
- else:
- decl = runtimeFormat("$#($#);\n", [decl, params])
- proc genSingleVar(p: BProc, v: PSym; vn, value: PNode) =
- if sfGoto in v.flags:
- # translate 'var state {.goto.} = X' into 'goto LX':
- genGotoVar(p, value)
- return
- let imm = isAssignedImmediately(p.config, value)
- let isCppCtorCall = p.module.compileToCpp and imm and
- value.kind in nkCallKinds and value[0].kind == nkSym and
- v.typ.kind != tyPtr and sfConstructor in value[0].sym.flags
- var targetProc = p
- var valueAsRope = ""
- potentialValueInit(p, v, value, valueAsRope)
- if sfGlobal in v.flags:
- if v.flags * {sfImportc, sfExportc} == {sfImportc} and
- value.kind == nkEmpty and
- v.loc.flags * {lfHeader, lfNoDecl} != {}:
- return
- if sfPure in v.flags:
- # v.owner.kind != skModule:
- targetProc = p.module.preInitProc
- if isCppCtorCall and not containsHiddenPointer(v.typ):
- callGlobalVarCppCtor(targetProc, v, vn, value)
- else:
- assignGlobalVar(targetProc, vn, valueAsRope)
- # XXX: be careful here.
- # Global variables should not be zeromem-ed within loops
- # (see bug #20).
- # That's why we are doing the construction inside the preInitProc.
- # genObjectInit relies on the C runtime's guarantees that
- # global variables will be initialized to zero.
- if valueAsRope.len == 0:
- var loc = v.loc
- # When the native TLS is unavailable, a global thread-local variable needs
- # one more layer of indirection in order to access the TLS block.
- # Only do this for complex types that may need a call to `objectInit`
- if sfThread in v.flags and emulatedThreadVars(p.config) and
- isComplexValueType(v.typ):
- loc = initLocExprSingleUse(p.module.preInitProc, vn)
- genObjectInit(p.module.preInitProc, cpsInit, v.typ, loc, constructObj)
- # Alternative construction using default constructor (which may zeromem):
- # if sfImportc notin v.flags: constructLoc(p.module.preInitProc, v.loc)
- if sfExportc in v.flags and p.module.g.generatedHeader != nil:
- genVarPrototype(p.module.g.generatedHeader, vn)
- registerTraverseProc(p, v)
- else:
- if imm and p.module.compileToCpp and p.splitDecls == 0 and
- not containsHiddenPointer(v.typ) and
- nimErrorFlagAccessed notin p.flags:
- # C++ really doesn't like things like 'Foo f; f = x' as that invokes a
- # parameterless constructor followed by an assignment operator. So we
- # generate better code here: 'Foo f = x;'
- genLineDir(p, vn)
- var decl = localVarDecl(p, vn)
- var tmp: TLoc
- if isCppCtorCall:
- genCppVarForCtor(p, v, vn, value, decl)
- line(p, cpsStmts, decl)
- else:
- tmp = initLocExprSingleUse(p, value)
- lineF(p, cpsStmts, "$# = $#;\n", [decl, tmp.rdLoc])
- return
- assignLocalVar(p, vn)
- initLocalVar(p, v, imm)
- let traverseProc = "NULL"
- # If the var is in a block (control flow like if/while or a block) in global scope just
- # register the so called "global" so it can be used later on. There is no need to close
- # and reopen of if (nim_hcr_do_init_) blocks because we are in one already anyway.
- var forHcr = treatGlobalDifferentlyForHCR(p.module, v)
- if forHcr and targetProc.blocks.len > 3 and v.owner.kind == skModule:
- # put it in the locals section - mainly because of loops which
- # use the var in a call to resetLoc() in the statements section
- lineCg(targetProc, cpsLocals, "hcrRegisterGlobal($3, \"$1\", sizeof($2), $4, (void**)&$1);$n",
- [v.loc.r, rdLoc(v.loc), getModuleDllPath(p.module, v), traverseProc])
- # nothing special left to do later on - let's avoid closing and reopening blocks
- forHcr = false
- # we close and reopen the global if (nim_hcr_do_init_) blocks in the main Init function
- # for the module so we can have globals and top-level code be interleaved and still
- # be able to re-run it but without the top level code - just the init of globals
- if forHcr:
- lineCg(targetProc, cpsStmts, "if (hcrRegisterGlobal($3, \"$1\", sizeof($2), $4, (void**)&$1))$N",
- [v.loc.r, rdLoc(v.loc), getModuleDllPath(p.module, v), traverseProc])
- startBlock(targetProc)
- if value.kind != nkEmpty and valueAsRope.len == 0:
- genLineDir(targetProc, vn)
- if not isCppCtorCall:
- loadInto(targetProc, vn, value, v.loc)
- if forHcr:
- endBlock(targetProc)
- proc genSingleVar(p: BProc, a: PNode) =
- let v = a[0].sym
- if sfCompileTime in v.flags:
- # fix issue #12640
- # {.global, compileTime.} pragma in proc
- if sfGlobal in v.flags and p.prc != nil and p.prc.kind == skProc:
- discard
- else:
- return
- genSingleVar(p, v, a[0], a[2])
- proc genClosureVar(p: BProc, a: PNode) =
- var immediateAsgn = a[2].kind != nkEmpty
- var v: TLoc = initLocExpr(p, a[0])
- genLineDir(p, a)
- if immediateAsgn:
- loadInto(p, a[0], a[2], v)
- elif sfNoInit notin a[0][1].sym.flags:
- constructLoc(p, v)
- proc genVarStmt(p: BProc, n: PNode) =
- for it in n.sons:
- if it.kind == nkCommentStmt: continue
- if it.kind == nkIdentDefs:
- # can be a lifted var nowadays ...
- if it[0].kind == nkSym:
- genSingleVar(p, it)
- else:
- genClosureVar(p, it)
- else:
- genVarTuple(p, it)
- proc genIf(p: BProc, n: PNode, d: var TLoc) =
- #
- # { if (!expr1) goto L1;
- # thenPart }
- # goto LEnd
- # L1:
- # { if (!expr2) goto L2;
- # thenPart2 }
- # goto LEnd
- # L2:
- # { elsePart }
- # Lend:
- var
- a: TLoc
- lelse: TLabel
- if not isEmptyType(n.typ) and d.k == locNone:
- d = getTemp(p, n.typ)
- genLineDir(p, n)
- let lend = getLabel(p)
- for it in n.sons:
- # bug #4230: avoid false sharing between branches:
- if d.k == locTemp and isEmptyType(n.typ): d.k = locNone
- if it.len == 2:
- startBlock(p)
- a = initLocExprSingleUse(p, it[0])
- lelse = getLabel(p)
- inc(p.labels)
- lineF(p, cpsStmts, "if (!$1) goto $2;$n",
- [rdLoc(a), lelse])
- if p.module.compileToCpp:
- # avoid "jump to label crosses initialization" error:
- p.s(cpsStmts).add "{"
- expr(p, it[1], d)
- p.s(cpsStmts).add "}"
- else:
- expr(p, it[1], d)
- endBlock(p)
- if n.len > 1:
- lineF(p, cpsStmts, "goto $1;$n", [lend])
- fixLabel(p, lelse)
- elif it.len == 1:
- startBlock(p)
- expr(p, it[0], d)
- endBlock(p)
- else: internalError(p.config, n.info, "genIf()")
- if n.len > 1: fixLabel(p, lend)
- proc genReturnStmt(p: BProc, t: PNode) =
- if nfPreventCg in t.flags: return
- p.flags.incl beforeRetNeeded
- genLineDir(p, t)
- if (t[0].kind != nkEmpty): genStmts(p, t[0])
- blockLeaveActions(p,
- howManyTrys = p.nestedTryStmts.len,
- howManyExcepts = p.inExceptBlockLen)
- if (p.finallySafePoints.len > 0) and noSafePoints notin p.flags:
- # If we're in a finally block, and we came here by exception
- # consume it before we return.
- var safePoint = p.finallySafePoints[^1]
- linefmt(p, cpsStmts, "if ($1.status != 0) #popCurrentException();$n", [safePoint])
- lineF(p, cpsStmts, "goto BeforeRet_;$n", [])
- proc genGotoForCase(p: BProc; caseStmt: PNode) =
- for i in 1..<caseStmt.len:
- startBlock(p)
- let it = caseStmt[i]
- for j in 0..<it.len-1:
- if it[j].kind == nkRange:
- localError(p.config, it.info, "range notation not available for computed goto")
- return
- let val = getOrdValue(it[j])
- lineF(p, cpsStmts, "NIMSTATE_$#:$n", [val.rope])
- genStmts(p, it.lastSon)
- endBlock(p)
- iterator fieldValuePairs(n: PNode): tuple[memberSym, valueSym: PNode] =
- assert(n.kind in {nkLetSection, nkVarSection})
- for identDefs in n:
- if identDefs.kind == nkIdentDefs:
- let valueSym = identDefs[^1]
- for i in 0..<identDefs.len-2:
- let memberSym = identDefs[i]
- yield((memberSym: memberSym, valueSym: valueSym))
- proc genComputedGoto(p: BProc; n: PNode) =
- # first pass: Generate array of computed labels:
- # flatten the loop body because otherwise let and var sections
- # wrapped inside stmt lists by inject destructors won't be recognised
- let n = n.flattenStmts()
- var casePos = -1
- var arraySize: int = 0
- for i in 0..<n.len:
- let it = n[i]
- if it.kind == nkCaseStmt:
- if lastSon(it).kind != nkOfBranch:
- localError(p.config, it.info,
- "case statement must be exhaustive for computed goto"); return
- casePos = i
- if enumHasHoles(it[0].typ):
- localError(p.config, it.info,
- "case statement cannot work on enums with holes for computed goto"); return
- let aSize = lengthOrd(p.config, it[0].typ)
- if aSize > 10_000:
- localError(p.config, it.info,
- "case statement has too many cases for computed goto"); return
- arraySize = toInt(aSize)
- if firstOrd(p.config, it[0].typ) != 0:
- localError(p.config, it.info,
- "case statement has to start at 0 for computed goto"); return
- if casePos < 0:
- localError(p.config, n.info, "no case statement found for computed goto"); return
- var id = p.labels+1
- inc p.labels, arraySize+1
- let tmp = "TMP$1_" % [id.rope]
- var gotoArray = "static void* $#[$#] = {" % [tmp, arraySize.rope]
- for i in 1..arraySize-1:
- gotoArray.addf("&&TMP$#_, ", [rope(id+i)])
- gotoArray.addf("&&TMP$#_};$n", [rope(id+arraySize)])
- line(p, cpsLocals, gotoArray)
- for j in 0..<casePos:
- genStmts(p, n[j])
- let caseStmt = n[casePos]
- var a: TLoc = initLocExpr(p, caseStmt[0])
- # first goto:
- lineF(p, cpsStmts, "goto *$#[$#];$n", [tmp, a.rdLoc])
- for i in 1..<caseStmt.len:
- startBlock(p)
- let it = caseStmt[i]
- for j in 0..<it.len-1:
- if it[j].kind == nkRange:
- localError(p.config, it.info, "range notation not available for computed goto")
- return
- let val = getOrdValue(it[j])
- var lit = newRopeAppender()
- intLiteral(toInt64(val)+id+1, lit)
- lineF(p, cpsStmts, "TMP$#_:$n", [lit])
- genStmts(p, it.lastSon)
- for j in casePos+1..<n.len:
- genStmts(p, n[j])
- for j in 0..<casePos:
- # prevent new local declarations
- # compile declarations as assignments
- let it = n[j]
- if it.kind in {nkLetSection, nkVarSection}:
- let asgn = copyNode(it)
- asgn.transitionSonsKind(nkAsgn)
- asgn.sons.setLen 2
- for sym, value in it.fieldValuePairs:
- if value.kind != nkEmpty:
- asgn[0] = sym
- asgn[1] = value
- genStmts(p, asgn)
- else:
- genStmts(p, it)
- var a: TLoc = initLocExpr(p, caseStmt[0])
- lineF(p, cpsStmts, "goto *$#[$#];$n", [tmp, a.rdLoc])
- endBlock(p)
- for j in casePos+1..<n.len:
- genStmts(p, n[j])
- proc genWhileStmt(p: BProc, t: PNode) =
- # we don't generate labels here as for example GCC would produce
- # significantly worse code
- var
- a: TLoc
- assert(t.len == 2)
- inc(p.withinLoop)
- genLineDir(p, t)
- preserveBreakIdx:
- var loopBody = t[1]
- if loopBody.stmtsContainPragma(wComputedGoto) and
- hasComputedGoto in CC[p.config.cCompiler].props:
- # for closure support weird loop bodies are generated:
- if loopBody.len == 2 and loopBody[0].kind == nkEmpty:
- loopBody = loopBody[1]
- genComputedGoto(p, loopBody)
- else:
- p.breakIdx = startBlock(p, "while (1) {$n")
- p.blocks[p.breakIdx].isLoop = true
- a = initLocExpr(p, t[0])
- if (t[0].kind != nkIntLit) or (t[0].intVal == 0):
- lineF(p, cpsStmts, "if (!$1) goto ", [rdLoc(a)])
- assignLabel(p.blocks[p.breakIdx], p.s(cpsStmts))
- appcg(p, cpsStmts, ";$n", [])
- genStmts(p, loopBody)
- if optProfiler in p.options:
- # invoke at loop body exit:
- linefmt(p, cpsStmts, "#nimProfile();$n", [])
- endBlock(p)
- dec(p.withinLoop)
- proc genBlock(p: BProc, n: PNode, d: var TLoc) =
- if not isEmptyType(n.typ):
- # bug #4505: allocate the temp in the outer scope
- # so that it can escape the generated {}:
- if d.k == locNone:
- d = getTemp(p, n.typ)
- d.flags.incl(lfEnforceDeref)
- preserveBreakIdx:
- p.breakIdx = startBlock(p)
- if n[0].kind != nkEmpty:
- # named block?
- assert(n[0].kind == nkSym)
- var sym = n[0].sym
- sym.loc.k = locOther
- sym.position = p.breakIdx+1
- expr(p, n[1], d)
- endBlock(p)
- proc genParForStmt(p: BProc, t: PNode) =
- assert(t.len == 3)
- inc(p.withinLoop)
- genLineDir(p, t)
- preserveBreakIdx:
- let forLoopVar = t[0].sym
- assignLocalVar(p, t[0])
- #initLoc(forLoopVar.loc, locLocalVar, forLoopVar.typ, onStack)
- #discard mangleName(forLoopVar)
- let call = t[1]
- assert(call.len == 4 or call.len == 5)
- var rangeA = initLocExpr(p, call[1])
- var rangeB = initLocExpr(p, call[2])
- # $n at the beginning because of #9710
- if call.len == 4: # procName(a, b, annotation)
- if call[0].sym.name.s == "||": # `||`(a, b, annotation)
- lineF(p, cpsStmts, "$n#pragma omp $4$n" &
- "for ($1 = $2; $1 <= $3; ++$1)",
- [forLoopVar.loc.rdLoc,
- rangeA.rdLoc, rangeB.rdLoc,
- call[3].getStr.rope])
- else:
- lineF(p, cpsStmts, "$n#pragma $4$n" &
- "for ($1 = $2; $1 <= $3; ++$1)",
- [forLoopVar.loc.rdLoc,
- rangeA.rdLoc, rangeB.rdLoc,
- call[3].getStr.rope])
- else: # `||`(a, b, step, annotation)
- var step: TLoc = initLocExpr(p, call[3])
- lineF(p, cpsStmts, "$n#pragma omp $5$n" &
- "for ($1 = $2; $1 <= $3; $1 += $4)",
- [forLoopVar.loc.rdLoc,
- rangeA.rdLoc, rangeB.rdLoc, step.rdLoc,
- call[4].getStr.rope])
- p.breakIdx = startBlock(p)
- p.blocks[p.breakIdx].isLoop = true
- genStmts(p, t[2])
- endBlock(p)
- dec(p.withinLoop)
- proc genBreakStmt(p: BProc, t: PNode) =
- var idx = p.breakIdx
- if t[0].kind != nkEmpty:
- # named break?
- assert(t[0].kind == nkSym)
- var sym = t[0].sym
- doAssert(sym.loc.k == locOther)
- idx = sym.position-1
- else:
- # an unnamed 'break' can only break a loop after 'transf' pass:
- while idx >= 0 and not p.blocks[idx].isLoop: dec idx
- if idx < 0 or not p.blocks[idx].isLoop:
- internalError(p.config, t.info, "no loop to break")
- p.blocks[idx].label = "LA" & p.blocks[idx].id.rope
- blockLeaveActions(p,
- p.nestedTryStmts.len - p.blocks[idx].nestedTryStmts,
- p.inExceptBlockLen - p.blocks[idx].nestedExceptStmts)
- genLineDir(p, t)
- lineF(p, cpsStmts, "goto $1;$n", [p.blocks[idx].label])
- proc raiseExit(p: BProc) =
- assert p.config.exc == excGoto
- if nimErrorFlagDisabled notin p.flags:
- p.flags.incl nimErrorFlagAccessed
- if p.nestedTryStmts.len == 0:
- p.flags.incl beforeRetNeeded
- # easy case, simply goto 'ret':
- lineCg(p, cpsStmts, "if (NIM_UNLIKELY(*nimErr_)) goto BeforeRet_;$n", [])
- else:
- lineCg(p, cpsStmts, "if (NIM_UNLIKELY(*nimErr_)) goto LA$1_;$n",
- [p.nestedTryStmts[^1].label])
- proc finallyActions(p: BProc) =
- if p.config.exc != excGoto and p.nestedTryStmts.len > 0 and p.nestedTryStmts[^1].inExcept:
- # if the current try stmt have a finally block,
- # we must execute it before reraising
- let finallyBlock = p.nestedTryStmts[^1].fin
- if finallyBlock != nil:
- genSimpleBlock(p, finallyBlock[0])
- proc raiseInstr(p: BProc; result: var Rope) =
- if p.config.exc == excGoto:
- let L = p.nestedTryStmts.len
- if L == 0:
- p.flags.incl beforeRetNeeded
- # easy case, simply goto 'ret':
- result.add ropecg(p.module, "goto BeforeRet_;$n", [])
- else:
- # raise inside an 'except' must go to the finally block,
- # raise outside an 'except' block must go to the 'except' list.
- result.add ropecg(p.module, "goto LA$1_;$n",
- [p.nestedTryStmts[L-1].label])
- # + ord(p.nestedTryStmts[L-1].inExcept)])
- proc genRaiseStmt(p: BProc, t: PNode) =
- if t[0].kind != nkEmpty:
- var a: TLoc = initLocExprSingleUse(p, t[0])
- finallyActions(p)
- var e = rdLoc(a)
- discard getTypeDesc(p.module, t[0].typ)
- var typ = skipTypes(t[0].typ, abstractPtrs)
- # XXX For reasons that currently escape me, this is only required by the new
- # C++ based exception handling:
- if p.config.exc == excCpp:
- blockLeaveActions(p, howManyTrys = 0, howManyExcepts = p.inExceptBlockLen)
- genLineDir(p, t)
- if isImportedException(typ, p.config):
- lineF(p, cpsStmts, "throw $1;$n", [e])
- else:
- lineCg(p, cpsStmts, "#raiseExceptionEx((#Exception*)$1, $2, $3, $4, $5);$n",
- [e, makeCString(typ.sym.name.s),
- makeCString(if p.prc != nil: p.prc.name.s else: p.module.module.name.s),
- quotedFilename(p.config, t.info), toLinenumber(t.info)])
- if optOwnedRefs in p.config.globalOptions:
- lineCg(p, cpsStmts, "$1 = NIM_NIL;$n", [e])
- else:
- finallyActions(p)
- genLineDir(p, t)
- linefmt(p, cpsStmts, "#reraiseException();$n", [])
- raiseInstr(p, p.s(cpsStmts))
- template genCaseGenericBranch(p: BProc, b: PNode, e: TLoc,
- rangeFormat, eqFormat: FormatStr, labl: TLabel) =
- var x, y: TLoc
- for i in 0..<b.len - 1:
- if b[i].kind == nkRange:
- x = initLocExpr(p, b[i][0])
- y = initLocExpr(p, b[i][1])
- lineCg(p, cpsStmts, rangeFormat,
- [rdCharLoc(e), rdCharLoc(x), rdCharLoc(y), labl])
- else:
- x = initLocExpr(p, b[i])
- lineCg(p, cpsStmts, eqFormat, [rdCharLoc(e), rdCharLoc(x), labl])
- proc genCaseSecondPass(p: BProc, t: PNode, d: var TLoc,
- labId, until: int): TLabel =
- var lend = getLabel(p)
- for i in 1..until:
- # bug #4230: avoid false sharing between branches:
- if d.k == locTemp and isEmptyType(t.typ): d.k = locNone
- lineF(p, cpsStmts, "LA$1_: ;$n", [rope(labId + i)])
- if t[i].kind == nkOfBranch:
- exprBlock(p, t[i][^1], d)
- lineF(p, cpsStmts, "goto $1;$n", [lend])
- else:
- exprBlock(p, t[i][0], d)
- result = lend
- template genIfForCaseUntil(p: BProc, t: PNode, d: var TLoc,
- rangeFormat, eqFormat: FormatStr,
- until: int, a: TLoc): TLabel =
- # generate a C-if statement for a Nim case statement
- var res: TLabel
- var labId = p.labels
- for i in 1..until:
- inc(p.labels)
- if t[i].kind == nkOfBranch: # else statement
- genCaseGenericBranch(p, t[i], a, rangeFormat, eqFormat,
- "LA" & rope(p.labels) & "_")
- else:
- lineF(p, cpsStmts, "goto LA$1_;$n", [rope(p.labels)])
- if until < t.len-1:
- inc(p.labels)
- var gotoTarget = p.labels
- lineF(p, cpsStmts, "goto LA$1_;$n", [rope(gotoTarget)])
- res = genCaseSecondPass(p, t, d, labId, until)
- lineF(p, cpsStmts, "LA$1_: ;$n", [rope(gotoTarget)])
- else:
- res = genCaseSecondPass(p, t, d, labId, until)
- res
- template genCaseGeneric(p: BProc, t: PNode, d: var TLoc,
- rangeFormat, eqFormat: FormatStr) =
- var a: TLoc = initLocExpr(p, t[0])
- var lend = genIfForCaseUntil(p, t, d, rangeFormat, eqFormat, t.len-1, a)
- fixLabel(p, lend)
- proc genCaseStringBranch(p: BProc, b: PNode, e: TLoc, labl: TLabel,
- stringKind: TTypeKind,
- branches: var openArray[Rope]) =
- var x: TLoc
- for i in 0..<b.len - 1:
- assert(b[i].kind != nkRange)
- x = initLocExpr(p, b[i])
- var j: int = 0
- case b[i].kind
- of nkStrLit..nkTripleStrLit:
- j = int(hashString(p.config, b[i].strVal) and high(branches))
- of nkNilLit: j = 0
- else:
- assert false, "invalid string case branch node kind"
- if stringKind == tyCstring:
- appcg(p.module, branches[j], "if (#eqCstrings($1, $2)) goto $3;$n",
- [rdLoc(e), rdLoc(x), labl])
- else:
- appcg(p.module, branches[j], "if (#eqStrings($1, $2)) goto $3;$n",
- [rdLoc(e), rdLoc(x), labl])
- proc genStringCase(p: BProc, t: PNode, stringKind: TTypeKind, d: var TLoc) =
- # count how many constant strings there are in the case:
- var strings = 0
- for i in 1..<t.len:
- if t[i].kind == nkOfBranch: inc(strings, t[i].len - 1)
- if strings > stringCaseThreshold:
- var bitMask = math.nextPowerOfTwo(strings) - 1
- var branches: seq[Rope]
- newSeq(branches, bitMask + 1)
- var a: TLoc = initLocExpr(p, t[0]) # first pass: generate ifs+goto:
- var labId = p.labels
- for i in 1..<t.len:
- inc(p.labels)
- if t[i].kind == nkOfBranch:
- genCaseStringBranch(p, t[i], a, "LA" & rope(p.labels) & "_",
- stringKind, branches)
- else:
- # else statement: nothing to do yet
- # but we reserved a label, which we use later
- discard
- if stringKind == tyCstring:
- linefmt(p, cpsStmts, "switch (#hashCstring($1) & $2) {$n",
- [rdLoc(a), bitMask])
- else:
- linefmt(p, cpsStmts, "switch (#hashString($1) & $2) {$n",
- [rdLoc(a), bitMask])
- for j in 0..high(branches):
- if branches[j] != "":
- var lit = newRopeAppender()
- intLiteral(j, lit)
- lineF(p, cpsStmts, "case $1: $n$2break;$n",
- [lit, branches[j]])
- lineF(p, cpsStmts, "}$n", []) # else statement:
- if t[^1].kind != nkOfBranch:
- lineF(p, cpsStmts, "goto LA$1_;$n", [rope(p.labels)])
- # third pass: generate statements
- var lend = genCaseSecondPass(p, t, d, labId, t.len-1)
- fixLabel(p, lend)
- else:
- if stringKind == tyCstring:
- genCaseGeneric(p, t, d, "", "if (#eqCstrings($1, $2)) goto $3;$n")
- else:
- genCaseGeneric(p, t, d, "", "if (#eqStrings($1, $2)) goto $3;$n")
- proc branchHasTooBigRange(b: PNode): bool =
- result = false
- for it in b:
- # last son is block
- if (it.kind == nkRange) and
- it[1].intVal - it[0].intVal > RangeExpandLimit:
- return true
- proc ifSwitchSplitPoint(p: BProc, n: PNode): int =
- result = 0
- for i in 1..<n.len:
- var branch = n[i]
- var stmtBlock = lastSon(branch)
- if stmtBlock.stmtsContainPragma(wLinearScanEnd):
- result = i
- elif hasSwitchRange notin CC[p.config.cCompiler].props:
- if branch.kind == nkOfBranch and branchHasTooBigRange(branch):
- result = i
- proc genCaseRange(p: BProc, branch: PNode) =
- for j in 0..<branch.len-1:
- if branch[j].kind == nkRange:
- if hasSwitchRange in CC[p.config.cCompiler].props:
- var litA = newRopeAppender()
- var litB = newRopeAppender()
- genLiteral(p, branch[j][0], litA)
- genLiteral(p, branch[j][1], litB)
- lineF(p, cpsStmts, "case $1 ... $2:$n", [litA, litB])
- else:
- var v = copyNode(branch[j][0])
- while v.intVal <= branch[j][1].intVal:
- var litA = newRopeAppender()
- genLiteral(p, v, litA)
- lineF(p, cpsStmts, "case $1:$n", [litA])
- inc(v.intVal)
- else:
- var litA = newRopeAppender()
- genLiteral(p, branch[j], litA)
- lineF(p, cpsStmts, "case $1:$n", [litA])
- proc genOrdinalCase(p: BProc, n: PNode, d: var TLoc) =
- # analyse 'case' statement:
- var splitPoint = ifSwitchSplitPoint(p, n)
- # generate if part (might be empty):
- var a: TLoc = initLocExpr(p, n[0])
- var lend = if splitPoint > 0: genIfForCaseUntil(p, n, d,
- rangeFormat = "if ($1 >= $2 && $1 <= $3) goto $4;$n",
- eqFormat = "if ($1 == $2) goto $3;$n",
- splitPoint, a) else: ""
- # generate switch part (might be empty):
- if splitPoint+1 < n.len:
- lineF(p, cpsStmts, "switch ($1) {$n", [rdCharLoc(a)])
- var hasDefault = false
- for i in splitPoint+1..<n.len:
- # bug #4230: avoid false sharing between branches:
- if d.k == locTemp and isEmptyType(n.typ): d.k = locNone
- var branch = n[i]
- if branch.kind == nkOfBranch:
- genCaseRange(p, branch)
- else:
- # else part of case statement:
- lineF(p, cpsStmts, "default:$n", [])
- hasDefault = true
- exprBlock(p, branch.lastSon, d)
- lineF(p, cpsStmts, "break;$n", [])
- if (hasAssume in CC[p.config.cCompiler].props) and not hasDefault:
- lineF(p, cpsStmts, "default: __assume(0);$n", [])
- lineF(p, cpsStmts, "}$n", [])
- if lend != "": fixLabel(p, lend)
- proc genCase(p: BProc, t: PNode, d: var TLoc) =
- genLineDir(p, t)
- if not isEmptyType(t.typ) and d.k == locNone:
- d = getTemp(p, t.typ)
- case skipTypes(t[0].typ, abstractVarRange).kind
- of tyString:
- genStringCase(p, t, tyString, d)
- of tyCstring:
- genStringCase(p, t, tyCstring, d)
- of tyFloat..tyFloat128:
- genCaseGeneric(p, t, d, "if ($1 >= $2 && $1 <= $3) goto $4;$n",
- "if ($1 == $2) goto $3;$n")
- else:
- if t[0].kind == nkSym and sfGoto in t[0].sym.flags:
- genGotoForCase(p, t)
- else:
- genOrdinalCase(p, t, d)
- proc genRestoreFrameAfterException(p: BProc) =
- if optStackTrace in p.module.config.options:
- if hasCurFramePointer notin p.flags:
- p.flags.incl hasCurFramePointer
- p.procSec(cpsLocals).add(ropecg(p.module, "\tTFrame* _nimCurFrame;$n", []))
- p.procSec(cpsInit).add(ropecg(p.module, "\t_nimCurFrame = #getFrame();$n", []))
- linefmt(p, cpsStmts, "#setFrame(_nimCurFrame);$n", [])
- proc genTryCpp(p: BProc, t: PNode, d: var TLoc) =
- #[ code to generate:
- std::exception_ptr error;
- try {
- body;
- } catch (Exception e) {
- error = std::current_exception();
- if (ofExpr(e, TypeHere)) {
- error = nullptr; // handled
- } else if (...) {
- } else {
- throw;
- }
- } catch(...) {
- // C++ exception occured, not under Nim's control.
- }
- {
- /* finally: */
- printf('fin!\n');
- if (error) std::rethrow_exception(error); // re-raise the exception
- }
- ]#
- p.module.includeHeader("<exception>")
- if not isEmptyType(t.typ) and d.k == locNone:
- d = getTemp(p, t.typ)
- genLineDir(p, t)
- inc(p.labels, 2)
- let etmp = p.labels
- lineCg(p, cpsStmts, "std::exception_ptr T$1_;$n", [etmp])
- let fin = if t[^1].kind == nkFinally: t[^1] else: nil
- p.nestedTryStmts.add((fin, false, 0.Natural))
- if t.kind == nkHiddenTryStmt:
- lineCg(p, cpsStmts, "try {$n", [])
- expr(p, t[0], d)
- lineCg(p, cpsStmts, "}$n", [])
- else:
- startBlock(p, "try {$n")
- expr(p, t[0], d)
- endBlock(p)
- # First pass: handle Nim based exceptions:
- lineCg(p, cpsStmts, "catch (#Exception* T$1_) {$n", [etmp+1])
- genRestoreFrameAfterException(p)
- # an unhandled exception happened!
- lineCg(p, cpsStmts, "T$1_ = std::current_exception();$n", [etmp])
- p.nestedTryStmts[^1].inExcept = true
- var hasImportedCppExceptions = false
- var i = 1
- var hasIf = false
- var hasElse = false
- while (i < t.len) and (t[i].kind == nkExceptBranch):
- # bug #4230: avoid false sharing between branches:
- if d.k == locTemp and isEmptyType(t.typ): d.k = locNone
- if t[i].len == 1:
- hasImportedCppExceptions = true
- # general except section:
- hasElse = true
- if hasIf: lineF(p, cpsStmts, "else ", [])
- startBlock(p)
- # we handled the error:
- expr(p, t[i][0], d)
- linefmt(p, cpsStmts, "#popCurrentException();$n", [])
- endBlock(p)
- else:
- var orExpr = newRopeAppender()
- var exvar = PNode(nil)
- for j in 0..<t[i].len - 1:
- var typeNode = t[i][j]
- if t[i][j].isInfixAs():
- typeNode = t[i][j][1]
- exvar = t[i][j][2] # ex1 in `except ExceptType as ex1:`
- assert(typeNode.kind == nkType)
- if isImportedException(typeNode.typ, p.config):
- hasImportedCppExceptions = true
- else:
- if orExpr.len != 0: orExpr.add("||")
- let memberName = if p.module.compileToCpp: "m_type" else: "Sup.m_type"
- if optTinyRtti in p.config.globalOptions:
- let checkFor = $getObjDepth(typeNode.typ)
- appcg(p.module, orExpr, "#isObjDisplayCheck(#nimBorrowCurrentException()->$1, $2, $3)", [memberName, checkFor, $genDisplayElem(MD5Digest(hashType(typeNode.typ, p.config)))])
- else:
- let checkFor = genTypeInfoV1(p.module, typeNode.typ, typeNode.info)
- appcg(p.module, orExpr, "#isObj(#nimBorrowCurrentException()->$1, $2)", [memberName, checkFor])
- if orExpr.len != 0:
- if hasIf:
- startBlock(p, "else if ($1) {$n", [orExpr])
- else:
- startBlock(p, "if ($1) {$n", [orExpr])
- hasIf = true
- if exvar != nil:
- fillLocalName(p, exvar.sym)
- fillLoc(exvar.sym.loc, locTemp, exvar, OnStack)
- linefmt(p, cpsStmts, "$1 $2 = T$3_;$n", [getTypeDesc(p.module, exvar.sym.typ),
- rdLoc(exvar.sym.loc), rope(etmp+1)])
- # we handled the error:
- linefmt(p, cpsStmts, "T$1_ = nullptr;$n", [etmp])
- expr(p, t[i][^1], d)
- linefmt(p, cpsStmts, "#popCurrentException();$n", [])
- endBlock(p)
- inc(i)
- if hasIf and not hasElse:
- linefmt(p, cpsStmts, "else throw;$n", [etmp])
- linefmt(p, cpsStmts, "}$n", [])
- # Second pass: handle C++ based exceptions:
- template genExceptBranchBody(body: PNode) {.dirty.} =
- genRestoreFrameAfterException(p)
- #linefmt(p, cpsStmts, "T$1_ = std::current_exception();$n", [etmp])
- expr(p, body, d)
- var catchAllPresent = false
- incl p.flags, noSafePoints # mark as not needing 'popCurrentException'
- if hasImportedCppExceptions:
- for i in 1..<t.len:
- if t[i].kind != nkExceptBranch: break
- # bug #4230: avoid false sharing between branches:
- if d.k == locTemp and isEmptyType(t.typ): d.k = locNone
- if t[i].len == 1:
- # general except section:
- startBlock(p, "catch (...) {$n", [])
- genExceptBranchBody(t[i][0])
- endBlock(p)
- catchAllPresent = true
- else:
- for j in 0..<t[i].len-1:
- var typeNode = t[i][j]
- if t[i][j].isInfixAs():
- typeNode = t[i][j][1]
- if isImportedException(typeNode.typ, p.config):
- let exvar = t[i][j][2] # ex1 in `except ExceptType as ex1:`
- fillLocalName(p, exvar.sym)
- fillLoc(exvar.sym.loc, locTemp, exvar, OnStack)
- startBlock(p, "catch ($1& $2) {$n", getTypeDesc(p.module, typeNode.typ), rdLoc(exvar.sym.loc))
- genExceptBranchBody(t[i][^1]) # exception handler body will duplicated for every type
- endBlock(p)
- elif isImportedException(typeNode.typ, p.config):
- startBlock(p, "catch ($1&) {$n", getTypeDesc(p.module, t[i][j].typ))
- genExceptBranchBody(t[i][^1]) # exception handler body will duplicated for every type
- endBlock(p)
- excl p.flags, noSafePoints
- discard pop(p.nestedTryStmts)
- # general finally block:
- if t.len > 0 and t[^1].kind == nkFinally:
- if not catchAllPresent:
- startBlock(p, "catch (...) {$n", [])
- genRestoreFrameAfterException(p)
- linefmt(p, cpsStmts, "T$1_ = std::current_exception();$n", [etmp])
- endBlock(p)
- startBlock(p)
- genStmts(p, t[^1][0])
- linefmt(p, cpsStmts, "if (T$1_) std::rethrow_exception(T$1_);$n", [etmp])
- endBlock(p)
- proc genTryCppOld(p: BProc, t: PNode, d: var TLoc) =
- # There are two versions we generate, depending on whether we
- # catch C++ exceptions, imported via .importcpp or not. The
- # code can be easier if there are no imported C++ exceptions
- # to deal with.
- # code to generate:
- #
- # try
- # {
- # myDiv(4, 9);
- # } catch (NimExceptionType1&) {
- # body
- # } catch (NimExceptionType2&) {
- # finallyPart()
- # raise;
- # }
- # catch(...) {
- # general_handler_body
- # }
- # finallyPart();
- template genExceptBranchBody(body: PNode) {.dirty.} =
- genRestoreFrameAfterException(p)
- expr(p, body, d)
- if not isEmptyType(t.typ) and d.k == locNone:
- d = getTemp(p, t.typ)
- genLineDir(p, t)
- cgsym(p.module, "popCurrentExceptionEx")
- let fin = if t[^1].kind == nkFinally: t[^1] else: nil
- p.nestedTryStmts.add((fin, false, 0.Natural))
- startBlock(p, "try {$n")
- expr(p, t[0], d)
- endBlock(p)
- var catchAllPresent = false
- p.nestedTryStmts[^1].inExcept = true
- for i in 1..<t.len:
- if t[i].kind != nkExceptBranch: break
- # bug #4230: avoid false sharing between branches:
- if d.k == locTemp and isEmptyType(t.typ): d.k = locNone
- if t[i].len == 1:
- # general except section:
- catchAllPresent = true
- startBlock(p, "catch (...) {$n")
- genExceptBranchBody(t[i][0])
- endBlock(p)
- else:
- for j in 0..<t[i].len-1:
- if t[i][j].isInfixAs():
- let exvar = t[i][j][2] # ex1 in `except ExceptType as ex1:`
- fillLocalName(p, exvar.sym)
- fillLoc(exvar.sym.loc, locTemp, exvar, OnUnknown)
- startBlock(p, "catch ($1& $2) {$n", getTypeDesc(p.module, t[i][j][1].typ), rdLoc(exvar.sym.loc))
- else:
- startBlock(p, "catch ($1&) {$n", getTypeDesc(p.module, t[i][j].typ))
- genExceptBranchBody(t[i][^1]) # exception handler body will duplicated for every type
- endBlock(p)
- discard pop(p.nestedTryStmts)
- if t[^1].kind == nkFinally:
- # c++ does not have finally, therefore code needs to be generated twice
- if not catchAllPresent:
- # finally requires catch all presence
- startBlock(p, "catch (...) {$n")
- genStmts(p, t[^1][0])
- line(p, cpsStmts, "throw;\n")
- endBlock(p)
- genSimpleBlock(p, t[^1][0])
- proc bodyCanRaise(p: BProc; n: PNode): bool =
- case n.kind
- of nkCallKinds:
- result = canRaiseDisp(p, n[0])
- if not result:
- # also check the arguments:
- for i in 1 ..< n.len:
- if bodyCanRaise(p, n[i]): return true
- of nkRaiseStmt:
- result = true
- of nkTypeSection, nkProcDef, nkConverterDef, nkMethodDef, nkIteratorDef,
- nkMacroDef, nkTemplateDef, nkLambda, nkDo, nkFuncDef:
- result = false
- else:
- for i in 0 ..< safeLen(n):
- if bodyCanRaise(p, n[i]): return true
- result = false
- proc genTryGoto(p: BProc; t: PNode; d: var TLoc) =
- let fin = if t[^1].kind == nkFinally: t[^1] else: nil
- inc p.labels
- let lab = p.labels
- let hasExcept = t[1].kind == nkExceptBranch
- if hasExcept: inc p.withinTryWithExcept
- p.nestedTryStmts.add((fin, false, Natural lab))
- p.flags.incl nimErrorFlagAccessed
- if not isEmptyType(t.typ) and d.k == locNone:
- d = getTemp(p, t.typ)
- expr(p, t[0], d)
- if 1 < t.len and t[1].kind == nkExceptBranch:
- startBlock(p, "if (NIM_UNLIKELY(*nimErr_)) {$n")
- else:
- startBlock(p)
- linefmt(p, cpsStmts, "LA$1_:;$n", [lab])
- p.nestedTryStmts[^1].inExcept = true
- var i = 1
- while (i < t.len) and (t[i].kind == nkExceptBranch):
- inc p.labels
- let nextExcept = p.labels
- p.nestedTryStmts[^1].label = nextExcept
- # bug #4230: avoid false sharing between branches:
- if d.k == locTemp and isEmptyType(t.typ): d.k = locNone
- if t[i].len == 1:
- # general except section:
- if i > 1: lineF(p, cpsStmts, "else", [])
- startBlock(p)
- # we handled the exception, remember this:
- linefmt(p, cpsStmts, "*nimErr_ = NIM_FALSE;$n", [])
- expr(p, t[i][0], d)
- else:
- var orExpr = newRopeAppender()
- for j in 0..<t[i].len - 1:
- assert(t[i][j].kind == nkType)
- if orExpr.len != 0: orExpr.add("||")
- let memberName = if p.module.compileToCpp: "m_type" else: "Sup.m_type"
- if optTinyRtti in p.config.globalOptions:
- let checkFor = $getObjDepth(t[i][j].typ)
- appcg(p.module, orExpr, "#isObjDisplayCheck(#nimBorrowCurrentException()->$1, $2, $3)",
- [memberName, checkFor, $genDisplayElem(MD5Digest(hashType(t[i][j].typ, p.config)))])
- else:
- let checkFor = genTypeInfoV1(p.module, t[i][j].typ, t[i][j].info)
- appcg(p.module, orExpr, "#isObj(#nimBorrowCurrentException()->$1, $2)", [memberName, checkFor])
- if i > 1: line(p, cpsStmts, "else ")
- startBlock(p, "if ($1) {$n", [orExpr])
- # we handled the exception, remember this:
- linefmt(p, cpsStmts, "*nimErr_ = NIM_FALSE;$n", [])
- expr(p, t[i][^1], d)
- linefmt(p, cpsStmts, "#popCurrentException();$n", [])
- linefmt(p, cpsStmts, "LA$1_:;$n", [nextExcept])
- endBlock(p)
- inc(i)
- discard pop(p.nestedTryStmts)
- endBlock(p)
- if i < t.len and t[i].kind == nkFinally:
- startBlock(p)
- if not bodyCanRaise(p, t[i][0]):
- # this is an important optimization; most destroy blocks are detected not to raise an
- # exception and so we help the C optimizer by not mutating nimErr_ pointlessly:
- genStmts(p, t[i][0])
- else:
- # pretend we did handle the error for the safe execution of the 'finally' section:
- p.procSec(cpsLocals).add(ropecg(p.module, "NIM_BOOL oldNimErrFin$1_;$n", [lab]))
- linefmt(p, cpsStmts, "oldNimErrFin$1_ = *nimErr_; *nimErr_ = NIM_FALSE;$n", [lab])
- genStmts(p, t[i][0])
- # this is correct for all these cases:
- # 1. finally is run during ordinary control flow
- # 2. finally is run after 'except' block handling: these however set the
- # error back to nil.
- # 3. finally is run for exception handling code without any 'except'
- # handler present or only handlers that did not match.
- linefmt(p, cpsStmts, "*nimErr_ = oldNimErrFin$1_;$n", [lab])
- endBlock(p)
- raiseExit(p)
- if hasExcept: inc p.withinTryWithExcept
- proc genTrySetjmp(p: BProc, t: PNode, d: var TLoc) =
- # code to generate:
- #
- # XXX: There should be a standard dispatch algorithm
- # that's used both here and with multi-methods
- #
- # TSafePoint sp;
- # pushSafePoint(&sp);
- # sp.status = setjmp(sp.context);
- # if (sp.status == 0) {
- # myDiv(4, 9);
- # popSafePoint();
- # } else {
- # popSafePoint();
- # /* except DivisionByZero: */
- # if (sp.status == DivisionByZero) {
- # printf('Division by Zero\n');
- # clearException();
- # } else {
- # clearException();
- # }
- # }
- # {
- # /* finally: */
- # printf('fin!\n');
- # }
- # if (exception not cleared)
- # propagateCurrentException();
- #
- if not isEmptyType(t.typ) and d.k == locNone:
- d = getTemp(p, t.typ)
- let quirkyExceptions = p.config.exc == excQuirky or
- (t.kind == nkHiddenTryStmt and sfSystemModule in p.module.module.flags)
- if not quirkyExceptions:
- p.module.includeHeader("<setjmp.h>")
- else:
- p.flags.incl noSafePoints
- genLineDir(p, t)
- cgsym(p.module, "Exception")
- var safePoint: Rope = ""
- if not quirkyExceptions:
- safePoint = getTempName(p.module)
- linefmt(p, cpsLocals, "#TSafePoint $1;$n", [safePoint])
- linefmt(p, cpsStmts, "#pushSafePoint(&$1);$n", [safePoint])
- if isDefined(p.config, "nimStdSetjmp"):
- linefmt(p, cpsStmts, "$1.status = setjmp($1.context);$n", [safePoint])
- elif isDefined(p.config, "nimSigSetjmp"):
- linefmt(p, cpsStmts, "$1.status = sigsetjmp($1.context, 0);$n", [safePoint])
- elif isDefined(p.config, "nimBuiltinSetjmp"):
- linefmt(p, cpsStmts, "$1.status = __builtin_setjmp($1.context);$n", [safePoint])
- elif isDefined(p.config, "nimRawSetjmp"):
- if isDefined(p.config, "mswindows"):
- if isDefined(p.config, "vcc") or isDefined(p.config, "clangcl"):
- # For the vcc compiler, use `setjmp()` with one argument.
- # See https://docs.microsoft.com/en-us/cpp/c-runtime-library/reference/setjmp?view=msvc-170
- linefmt(p, cpsStmts, "$1.status = setjmp($1.context);$n", [safePoint])
- else:
- # The Windows `_setjmp()` takes two arguments, with the second being an
- # undocumented buffer used by the SEH mechanism for stack unwinding.
- # Mingw-w64 has been trying to get it right for years, but it's still
- # prone to stack corruption during unwinding, so we disable that by setting
- # it to NULL.
- # More details: https://github.com/status-im/nimbus-eth2/issues/3121
- linefmt(p, cpsStmts, "$1.status = _setjmp($1.context, 0);$n", [safePoint])
- else:
- linefmt(p, cpsStmts, "$1.status = _setjmp($1.context);$n", [safePoint])
- else:
- linefmt(p, cpsStmts, "$1.status = setjmp($1.context);$n", [safePoint])
- lineCg(p, cpsStmts, "if ($1.status == 0) {$n", [safePoint])
- let fin = if t[^1].kind == nkFinally: t[^1] else: nil
- p.nestedTryStmts.add((fin, quirkyExceptions, 0.Natural))
- expr(p, t[0], d)
- if not quirkyExceptions:
- linefmt(p, cpsStmts, "#popSafePoint();$n", [])
- lineCg(p, cpsStmts, "}$n", [])
- startBlock(p, "else {$n")
- linefmt(p, cpsStmts, "#popSafePoint();$n", [])
- genRestoreFrameAfterException(p)
- elif 1 < t.len and t[1].kind == nkExceptBranch:
- startBlock(p, "if (#nimBorrowCurrentException()) {$n")
- else:
- startBlock(p)
- p.nestedTryStmts[^1].inExcept = true
- var i = 1
- while (i < t.len) and (t[i].kind == nkExceptBranch):
- # bug #4230: avoid false sharing between branches:
- if d.k == locTemp and isEmptyType(t.typ): d.k = locNone
- if t[i].len == 1:
- # general except section:
- if i > 1: lineF(p, cpsStmts, "else", [])
- startBlock(p)
- if not quirkyExceptions:
- linefmt(p, cpsStmts, "$1.status = 0;$n", [safePoint])
- expr(p, t[i][0], d)
- linefmt(p, cpsStmts, "#popCurrentException();$n", [])
- endBlock(p)
- else:
- var orExpr = newRopeAppender()
- for j in 0..<t[i].len - 1:
- assert(t[i][j].kind == nkType)
- if orExpr.len != 0: orExpr.add("||")
- let memberName = if p.module.compileToCpp: "m_type" else: "Sup.m_type"
- if optTinyRtti in p.config.globalOptions:
- let checkFor = $getObjDepth(t[i][j].typ)
- appcg(p.module, orExpr, "#isObjDisplayCheck(#nimBorrowCurrentException()->$1, $2, $3)",
- [memberName, checkFor, $genDisplayElem(MD5Digest(hashType(t[i][j].typ, p.config)))])
- else:
- let checkFor = genTypeInfoV1(p.module, t[i][j].typ, t[i][j].info)
- appcg(p.module, orExpr, "#isObj(#nimBorrowCurrentException()->$1, $2)", [memberName, checkFor])
- if i > 1: line(p, cpsStmts, "else ")
- startBlock(p, "if ($1) {$n", [orExpr])
- if not quirkyExceptions:
- linefmt(p, cpsStmts, "$1.status = 0;$n", [safePoint])
- expr(p, t[i][^1], d)
- linefmt(p, cpsStmts, "#popCurrentException();$n", [])
- endBlock(p)
- inc(i)
- discard pop(p.nestedTryStmts)
- endBlock(p) # end of else block
- if i < t.len and t[i].kind == nkFinally:
- p.finallySafePoints.add(safePoint)
- startBlock(p)
- genStmts(p, t[i][0])
- # pretend we handled the exception in a 'finally' so that we don't
- # re-raise the unhandled one but instead keep the old one (it was
- # not popped either):
- if not quirkyExceptions and getCompilerProc(p.module.g.graph, "nimLeaveFinally") != nil:
- linefmt(p, cpsStmts, "if ($1.status != 0) #nimLeaveFinally();$n", [safePoint])
- endBlock(p)
- discard pop(p.finallySafePoints)
- if not quirkyExceptions:
- linefmt(p, cpsStmts, "if ($1.status != 0) #reraiseException();$n", [safePoint])
- proc genAsmOrEmitStmt(p: BProc, t: PNode, isAsmStmt=false; result: var Rope) =
- var res = ""
- for it in t.sons:
- case it.kind
- of nkStrLit..nkTripleStrLit:
- res.add(it.strVal)
- of nkSym:
- var sym = it.sym
- if sym.kind in {skProc, skFunc, skIterator, skMethod}:
- var a: TLoc = initLocExpr(p, it)
- res.add($rdLoc(a))
- elif sym.kind == skType:
- res.add($getTypeDesc(p.module, sym.typ))
- else:
- discard getTypeDesc(p.module, skipTypes(sym.typ, abstractPtrs))
- fillBackendName(p.module, sym)
- res.add($sym.loc.r)
- of nkTypeOfExpr:
- res.add($getTypeDesc(p.module, it.typ))
- else:
- discard getTypeDesc(p.module, skipTypes(it.typ, abstractPtrs))
- var a: TLoc = initLocExpr(p, it)
- res.add($a.rdLoc)
- if isAsmStmt and hasGnuAsm in CC[p.config.cCompiler].props:
- for x in splitLines(res):
- var j = 0
- while j < x.len and x[j] in {' ', '\t'}: inc(j)
- if j < x.len:
- if x[j] in {'"', ':'}:
- # don't modify the line if already in quotes or
- # some clobber register list:
- result.add(x); result.add("\L")
- else:
- # ignore empty lines
- result.add("\"")
- result.add(x.replace("\"", "\\\""))
- result.add("\\n\"\n")
- else:
- res.add("\L")
- result.add res.rope
- proc genAsmStmt(p: BProc, t: PNode) =
- assert(t.kind == nkAsmStmt)
- genLineDir(p, t)
- var s = newRopeAppender()
- genAsmOrEmitStmt(p, t, isAsmStmt=true, s)
- # see bug #2362, "top level asm statements" seem to be a mis-feature
- # but even if we don't do this, the example in #2362 cannot possibly
- # work:
- if p.prc == nil:
- # top level asm statement?
- p.module.s[cfsProcHeaders].add runtimeFormat(CC[p.config.cCompiler].asmStmtFrmt, [s])
- else:
- addIndent p, p.s(cpsStmts)
- p.s(cpsStmts).add runtimeFormat(CC[p.config.cCompiler].asmStmtFrmt, [s])
- proc determineSection(n: PNode): TCFileSection =
- result = cfsProcHeaders
- if n.len >= 1 and n[0].kind in {nkStrLit..nkTripleStrLit}:
- let sec = n[0].strVal
- if sec.startsWith("/*TYPESECTION*/"): result = cfsForwardTypes # TODO WORKAROUND
- elif sec.startsWith("/*VARSECTION*/"): result = cfsVars
- elif sec.startsWith("/*INCLUDESECTION*/"): result = cfsHeaders
- proc genEmit(p: BProc, t: PNode) =
- var s = newRopeAppender()
- genAsmOrEmitStmt(p, t[1], false, s)
- if p.prc == nil:
- # top level emit pragma?
- let section = determineSection(t[1])
- genCLineDir(p.module.s[section], t.info, p.config)
- p.module.s[section].add(s)
- else:
- genLineDir(p, t)
- line(p, cpsStmts, s)
- proc genPragma(p: BProc, n: PNode) =
- for i in 0..<n.len:
- let it = n[i]
- case whichPragma(it)
- of wEmit: genEmit(p, it)
- of wPush:
- processPushBackendOption(p.optionsStack, p.options, n, i+1)
- of wPop:
- processPopBackendOption(p.optionsStack, p.options)
- else: discard
- proc genDiscriminantCheck(p: BProc, a, tmp: TLoc, objtype: PType,
- field: PSym) =
- var t = skipTypes(objtype, abstractVar)
- assert t.kind == tyObject
- discard genTypeInfoV1(p.module, t, a.lode.info)
- if not containsOrIncl(p.module.declaredThings, field.id):
- appcg(p.module, cfsVars, "extern $1",
- [discriminatorTableDecl(p.module, t, field)])
- var lit = newRopeAppender()
- intLiteral(toInt64(lengthOrd(p.config, field.typ))+1, lit)
- lineCg(p, cpsStmts,
- "#FieldDiscriminantCheck((NI)(NU)($1), (NI)(NU)($2), $3, $4);$n",
- [rdLoc(a), rdLoc(tmp), discriminatorTableName(p.module, t, field),
- lit])
- if p.config.exc == excGoto:
- raiseExit(p)
- when false:
- proc genCaseObjDiscMapping(p: BProc, e: PNode, t: PType, field: PSym; d: var TLoc) =
- const ObjDiscMappingProcSlot = -5
- var theProc: PSym = nil
- for idx, p in items(t.methods):
- if idx == ObjDiscMappingProcSlot:
- theProc = p
- break
- if theProc == nil:
- theProc = genCaseObjDiscMapping(t, field, e.info, p.module.g.graph, p.module.idgen)
- t.methods.add((ObjDiscMappingProcSlot, theProc))
- var call = newNodeIT(nkCall, e.info, getSysType(p.module.g.graph, e.info, tyUInt8))
- call.add newSymNode(theProc)
- call.add e
- expr(p, call, d)
- proc asgnFieldDiscriminant(p: BProc, e: PNode) =
- var dotExpr = e[0]
- if dotExpr.kind == nkCheckedFieldExpr: dotExpr = dotExpr[0]
- var a = initLocExpr(p, e[0])
- var tmp: TLoc = getTemp(p, a.t)
- expr(p, e[1], tmp)
- if p.inUncheckedAssignSection == 0:
- let field = dotExpr[1].sym
- genDiscriminantCheck(p, a, tmp, dotExpr[0].typ, field)
- message(p.config, e.info, warnCaseTransition)
- genAssignment(p, a, tmp, {})
- proc genAsgn(p: BProc, e: PNode, fastAsgn: bool) =
- if e[0].kind == nkSym and sfGoto in e[0].sym.flags:
- genLineDir(p, e)
- genGotoVar(p, e[1])
- elif optFieldCheck in p.options and isDiscriminantField(e[0]):
- genLineDir(p, e)
- asgnFieldDiscriminant(p, e)
- else:
- let le = e[0]
- let ri = e[1]
- var a: TLoc = initLoc(locNone, le, OnUnknown)
- discard getTypeDesc(p.module, le.typ.skipTypes(skipPtrs), dkVar)
- a.flags.incl(lfEnforceDeref)
- a.flags.incl(lfPrepareForMutation)
- genLineDir(p, le) # it can be a nkBracketExpr, which may raise
- expr(p, le, a)
- a.flags.excl(lfPrepareForMutation)
- if fastAsgn: incl(a.flags, lfNoDeepCopy)
- assert(a.t != nil)
- genLineDir(p, ri)
- loadInto(p, le, ri, a)
- proc genStmts(p: BProc, t: PNode) =
- var a: TLoc = default(TLoc)
- let isPush = p.config.hasHint(hintExtendedContext)
- if isPush: pushInfoContext(p.config, t.info)
- expr(p, t, a)
- if isPush: popInfoContext(p.config)
- internalAssert p.config, a.k in {locNone, locTemp, locLocalVar, locExpr}
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