semantic3.d revision 1.1
1 /** 2 * Performs the semantic3 stage, which deals with function bodies. 3 * 4 * Copyright: Copyright (C) 1999-2022 by The D Language Foundation, All Rights Reserved 5 * Authors: $(LINK2 https://www.digitalmars.com, Walter Bright) 6 * License: $(LINK2 https://www.boost.org/LICENSE_1_0.txt, Boost License 1.0) 7 * Source: $(LINK2 https://github.com/dlang/dmd/blob/master/src/dmd/semantic3.d, _semantic3.d) 8 * Documentation: https://dlang.org/phobos/dmd_semantic3.html 9 * Coverage: https://codecov.io/gh/dlang/dmd/src/master/src/dmd/semantic3.d 10 */ 11 12 module dmd.semantic3; 13 14 import core.stdc.stdio; 15 import core.stdc.string; 16 17 import dmd.aggregate; 18 import dmd.aliasthis; 19 import dmd.arraytypes; 20 import dmd.astcodegen; 21 import dmd.astenums; 22 import dmd.attrib; 23 import dmd.blockexit; 24 import dmd.clone; 25 import dmd.ctorflow; 26 import dmd.dcast; 27 import dmd.dclass; 28 import dmd.declaration; 29 import dmd.denum; 30 import dmd.dimport; 31 import dmd.dinterpret; 32 import dmd.dmodule; 33 import dmd.dscope; 34 import dmd.dstruct; 35 import dmd.dsymbol; 36 import dmd.dsymbolsem; 37 import dmd.dtemplate; 38 import dmd.dversion; 39 import dmd.errors; 40 import dmd.escape; 41 import dmd.expression; 42 import dmd.expressionsem; 43 import dmd.func; 44 import dmd.globals; 45 import dmd.id; 46 import dmd.identifier; 47 import dmd.init; 48 import dmd.initsem; 49 import dmd.hdrgen; 50 import dmd.mtype; 51 import dmd.nogc; 52 import dmd.nspace; 53 import dmd.ob; 54 import dmd.objc; 55 import dmd.opover; 56 import dmd.parse; 57 import dmd.root.filename; 58 import dmd.common.outbuffer; 59 import dmd.root.rmem; 60 import dmd.root.rootobject; 61 import dmd.root.utf; 62 import dmd.sideeffect; 63 import dmd.statementsem; 64 import dmd.staticassert; 65 import dmd.tokens; 66 import dmd.semantic2; 67 import dmd.statement; 68 import dmd.target; 69 import dmd.templateparamsem; 70 import dmd.typesem; 71 import dmd.visitor; 72 73 enum LOG = false; 74 75 76 /************************************* 77 * Does semantic analysis on function bodies. 78 */ 79 extern(C++) void semantic3(Dsymbol dsym, Scope* sc) 80 { 81 scope v = new Semantic3Visitor(sc); 82 dsym.accept(v); 83 } 84 85 private extern(C++) final class Semantic3Visitor : Visitor 86 { 87 alias visit = Visitor.visit; 88 89 Scope* sc; 90 this(Scope* sc) 91 { 92 this.sc = sc; 93 } 94 95 override void visit(Dsymbol) {} 96 97 override void visit(TemplateInstance tempinst) 98 { 99 static if (LOG) 100 { 101 printf("TemplateInstance.semantic3('%s'), semanticRun = %d\n", tempinst.toChars(), tempinst.semanticRun); 102 } 103 //if (toChars()[0] == 'D') *(char*)0=0; 104 if (tempinst.semanticRun >= PASS.semantic3) 105 return; 106 tempinst.semanticRun = PASS.semantic3; 107 if (tempinst.errors || !tempinst.members) 108 return; 109 110 TemplateDeclaration tempdecl = tempinst.tempdecl.isTemplateDeclaration(); 111 assert(tempdecl); 112 113 sc = tempdecl._scope; 114 sc = sc.push(tempinst.argsym); 115 sc = sc.push(tempinst); 116 sc.tinst = tempinst; 117 sc.minst = tempinst.minst; 118 119 int needGagging = (tempinst.gagged && !global.gag); 120 uint olderrors = global.errors; 121 int oldGaggedErrors = -1; // dead-store to prevent spurious warning 122 /* If this is a gagged instantiation, gag errors. 123 * Future optimisation: If the results are actually needed, errors 124 * would already be gagged, so we don't really need to run semantic 125 * on the members. 126 */ 127 if (needGagging) 128 oldGaggedErrors = global.startGagging(); 129 130 for (size_t i = 0; i < tempinst.members.dim; i++) 131 { 132 Dsymbol s = (*tempinst.members)[i]; 133 s.semantic3(sc); 134 if (tempinst.gagged && global.errors != olderrors) 135 break; 136 } 137 138 if (global.errors != olderrors) 139 { 140 if (!tempinst.errors) 141 { 142 if (!tempdecl.literal) 143 tempinst.error(tempinst.loc, "error instantiating"); 144 if (tempinst.tinst) 145 tempinst.tinst.printInstantiationTrace(); 146 } 147 tempinst.errors = true; 148 } 149 if (needGagging) 150 global.endGagging(oldGaggedErrors); 151 152 sc = sc.pop(); 153 sc.pop(); 154 } 155 156 override void visit(TemplateMixin tmix) 157 { 158 if (tmix.semanticRun >= PASS.semantic3) 159 return; 160 tmix.semanticRun = PASS.semantic3; 161 static if (LOG) 162 { 163 printf("TemplateMixin.semantic3('%s')\n", tmix.toChars()); 164 } 165 if (!tmix.members) 166 return; 167 168 sc = sc.push(tmix.argsym); 169 sc = sc.push(tmix); 170 for (size_t i = 0; i < tmix.members.dim; i++) 171 { 172 Dsymbol s = (*tmix.members)[i]; 173 s.semantic3(sc); 174 } 175 sc = sc.pop(); 176 sc.pop(); 177 } 178 179 override void visit(Module mod) 180 { 181 //printf("Module::semantic3('%s'): parent = %p\n", toChars(), parent); 182 if (mod.semanticRun != PASS.semantic2done) 183 return; 184 mod.semanticRun = PASS.semantic3; 185 // Note that modules get their own scope, from scratch. 186 // This is so regardless of where in the syntax a module 187 // gets imported, it is unaffected by context. 188 Scope* sc = Scope.createGlobal(mod); // create root scope 189 //printf("Module = %p\n", sc.scopesym); 190 if (mod.members) 191 { 192 // Pass 3 semantic routines: do initializers and function bodies 193 for (size_t i = 0; i < mod.members.dim; i++) 194 { 195 Dsymbol s = (*mod.members)[i]; 196 //printf("Module %s: %s.semantic3()\n", toChars(), s.toChars()); 197 s.semantic3(sc); 198 199 mod.runDeferredSemantic2(); 200 } 201 } 202 if (mod.userAttribDecl) 203 { 204 mod.userAttribDecl.semantic3(sc); 205 } 206 sc = sc.pop(); 207 sc.pop(); 208 mod.semanticRun = PASS.semantic3done; 209 } 210 211 override void visit(FuncDeclaration funcdecl) 212 { 213 //printf("FuncDeclaration::semantic3(%s '%s', sc = %p)\n", funcdecl.kind(), funcdecl.toChars(), sc); 214 /* Determine if function should add `return 0;` 215 */ 216 bool addReturn0() 217 { 218 //printf("addReturn0()\n"); 219 auto f = funcdecl.type.isTypeFunction(); 220 221 // C11 5.1.2.2.3 222 if (sc.flags & SCOPE.Cfile && funcdecl.isCMain() && f.next.ty == Tint32) 223 return true; 224 225 return f.next.ty == Tvoid && 226 (funcdecl.isMain() || global.params.betterC && funcdecl.isCMain()); 227 } 228 229 VarDeclaration _arguments = null; 230 231 if (!funcdecl.parent) 232 { 233 if (global.errors) 234 return; 235 //printf("FuncDeclaration::semantic3(%s '%s', sc = %p)\n", kind(), toChars(), sc); 236 assert(0); 237 } 238 if (funcdecl.errors || isError(funcdecl.parent)) 239 { 240 funcdecl.errors = true; 241 242 // Mark that the return type could not be inferred 243 if (funcdecl.inferRetType) 244 { 245 assert(funcdecl.type); 246 auto tf = funcdecl.type.isTypeFunction(); 247 248 // Only change the return type s.t. other analysis is 249 // still possible e.g. missmatched parameter types 250 if (tf && !tf.next) 251 tf.next = Type.terror; 252 } 253 return; 254 } 255 //printf("FuncDeclaration::semantic3('%s.%s', %p, sc = %p, loc = %s)\n", funcdecl.parent.toChars(), funcdecl.toChars(), funcdecl, sc, funcdecl.loc.toChars()); 256 //fflush(stdout); 257 //printf("storage class = x%x %x\n", sc.stc, storage_class); 258 //{ static int x; if (++x == 2) *(char*)0=0; } 259 //printf("\tlinkage = %d\n", sc.linkage); 260 261 if (funcdecl.ident == Id.assign && !funcdecl.inuse) 262 { 263 if (funcdecl.storage_class & STC.inference) 264 { 265 /* https://issues.dlang.org/show_bug.cgi?id=15044 266 * For generated opAssign function, any errors 267 * from its body need to be gagged. 268 */ 269 uint oldErrors = global.startGagging(); 270 ++funcdecl.inuse; 271 funcdecl.semantic3(sc); 272 --funcdecl.inuse; 273 if (global.endGagging(oldErrors)) // if errors happened 274 { 275 // Disable generated opAssign, because some members forbid identity assignment. 276 funcdecl.storage_class |= STC.disable; 277 funcdecl.fbody = null; // remove fbody which contains the error 278 funcdecl.flags &= ~FUNCFLAG.semantic3Errors; 279 } 280 return; 281 } 282 } 283 284 //printf(" sc.incontract = %d\n", (sc.flags & SCOPE.contract)); 285 if (funcdecl.semanticRun >= PASS.semantic3) 286 return; 287 funcdecl.semanticRun = PASS.semantic3; 288 funcdecl.flags &= ~FUNCFLAG.semantic3Errors; 289 290 if (!funcdecl.type || funcdecl.type.ty != Tfunction) 291 return; 292 TypeFunction f = cast(TypeFunction)funcdecl.type; 293 if (!funcdecl.inferRetType && f.next.ty == Terror) 294 return; 295 296 if (!funcdecl.fbody && funcdecl.inferRetType && !f.next) 297 { 298 funcdecl.error("has no function body with return type inference"); 299 return; 300 } 301 302 uint oldErrors = global.errors; 303 auto fds = FuncDeclSem3(funcdecl,sc); 304 305 fds.checkInContractOverrides(); 306 307 // Remember whether we need to generate an 'out' contract. 308 immutable bool needEnsure = FuncDeclaration.needsFensure(funcdecl); 309 310 if (funcdecl.fbody || funcdecl.frequires || needEnsure) 311 { 312 /* Symbol table into which we place parameters and nested functions, 313 * solely to diagnose name collisions. 314 */ 315 funcdecl.localsymtab = new DsymbolTable(); 316 317 // Establish function scope 318 auto ss = new ScopeDsymbol(funcdecl.loc, null); 319 // find enclosing scope symbol, might skip symbol-less CTFE and/or FuncExp scopes 320 ss.parent = sc.inner().scopesym; 321 ss.endlinnum = funcdecl.endloc.linnum; 322 Scope* sc2 = sc.push(ss); 323 sc2.func = funcdecl; 324 sc2.parent = funcdecl; 325 sc2.ctorflow.callSuper = CSX.none; 326 sc2.sbreak = null; 327 sc2.scontinue = null; 328 sc2.sw = null; 329 sc2.fes = funcdecl.fes; 330 sc2.linkage = funcdecl.isCsymbol() ? LINK.c : LINK.d; 331 sc2.stc &= STC.flowThruFunction; 332 sc2.visibility = Visibility(Visibility.Kind.public_); 333 sc2.explicitVisibility = 0; 334 sc2.aligndecl = null; 335 if (funcdecl.ident != Id.require && funcdecl.ident != Id.ensure) 336 sc2.flags = sc.flags & ~SCOPE.contract; 337 sc2.flags &= ~SCOPE.compile; 338 sc2.tf = null; 339 sc2.os = null; 340 sc2.inLoop = false; 341 sc2.userAttribDecl = null; 342 if (sc2.intypeof == 1) 343 sc2.intypeof = 2; 344 sc2.ctorflow.fieldinit = null; 345 346 /* Note: When a lambda is defined immediately under aggregate member 347 * scope, it should be contextless due to prevent interior pointers. 348 * e.g. 349 * // dg points 'this' - its interior pointer 350 * class C { int x; void delegate() dg = (){ this.x = 1; }; } 351 * 352 * However, lambdas could be used inside typeof, in order to check 353 * some expressions validity at compile time. For such case the lambda 354 * body can access aggregate instance members. 355 * e.g. 356 * class C { int x; static assert(is(typeof({ this.x = 1; }))); } 357 * 358 * To properly accept it, mark these lambdas as member functions. 359 */ 360 if (auto fld = funcdecl.isFuncLiteralDeclaration()) 361 { 362 if (auto ad = funcdecl.isMember2()) 363 { 364 if (!sc.intypeof) 365 { 366 if (fld.tok == TOK.delegate_) 367 funcdecl.error("cannot be %s members", ad.kind()); 368 else 369 fld.tok = TOK.function_; 370 } 371 else 372 { 373 if (fld.tok != TOK.function_) 374 fld.tok = TOK.delegate_; 375 } 376 } 377 } 378 379 funcdecl.declareThis(sc2); 380 381 // Reverts: https://issues.dlang.org/show_bug.cgi?id=5710 382 // No compiler supports this, and there was never any spec for it. 383 // @@@DEPRECATED_2.116@@@ 384 // Deprecated in 2.096, can be made an error in 2.116. 385 // The deprecation period is longer than usual as dual-context 386 // functions may be widely used by dmd-compiled projects. 387 // It also gives more time for the implementation of dual-context 388 // functions to be reworked as a frontend-only feature. 389 if (funcdecl.hasDualContext()) 390 { 391 funcdecl.deprecation("function requires a dual-context, which is deprecated"); 392 if (auto ti = sc2.parent ? sc2.parent.isInstantiated() : null) 393 ti.printInstantiationTrace(Classification.deprecation); 394 } 395 396 //printf("[%s] ad = %p vthis = %p\n", loc.toChars(), ad, vthis); 397 //if (vthis) printf("\tvthis.type = %s\n", vthis.type.toChars()); 398 399 // Declare hidden variable _arguments[] and _argptr 400 if (f.parameterList.varargs == VarArg.variadic) 401 { 402 if (f.linkage == LINK.d) 403 { 404 // Variadic arguments depend on Typeinfo being defined. 405 if (!global.params.useTypeInfo || !Type.dtypeinfo || !Type.typeinfotypelist) 406 { 407 if (!global.params.useTypeInfo) 408 funcdecl.error("D-style variadic functions cannot be used with -betterC"); 409 else if (!Type.typeinfotypelist) 410 funcdecl.error("`object.TypeInfo_Tuple` could not be found, but is implicitly used in D-style variadic functions"); 411 else 412 funcdecl.error("`object.TypeInfo` could not be found, but is implicitly used in D-style variadic functions"); 413 fatal(); 414 } 415 416 // Declare _arguments[] 417 funcdecl.v_arguments = new VarDeclaration(funcdecl.loc, Type.typeinfotypelist.type, Id._arguments_typeinfo, null); 418 funcdecl.v_arguments.storage_class |= STC.temp | STC.parameter; 419 funcdecl.v_arguments.dsymbolSemantic(sc2); 420 sc2.insert(funcdecl.v_arguments); 421 funcdecl.v_arguments.parent = funcdecl; 422 423 //Type t = Type.dtypeinfo.type.constOf().arrayOf(); 424 Type t = Type.dtypeinfo.type.arrayOf(); 425 _arguments = new VarDeclaration(funcdecl.loc, t, Id._arguments, null); 426 _arguments.storage_class |= STC.temp; 427 _arguments.dsymbolSemantic(sc2); 428 sc2.insert(_arguments); 429 _arguments.parent = funcdecl; 430 } 431 if (f.linkage == LINK.d || f.parameterList.length) 432 { 433 // Declare _argptr 434 Type t = target.va_listType(funcdecl.loc, sc); 435 // Init is handled in FuncDeclaration_toObjFile 436 funcdecl.v_argptr = new VarDeclaration(funcdecl.loc, t, Id._argptr, new VoidInitializer(funcdecl.loc)); 437 funcdecl.v_argptr.storage_class |= STC.temp; 438 funcdecl.v_argptr.dsymbolSemantic(sc2); 439 sc2.insert(funcdecl.v_argptr); 440 funcdecl.v_argptr.parent = funcdecl; 441 } 442 } 443 444 /* Declare all the function parameters as variables 445 * and install them in parameters[] 446 */ 447 if (const nparams = f.parameterList.length) 448 { 449 /* parameters[] has all the tuples removed, as the back end 450 * doesn't know about tuples 451 */ 452 funcdecl.parameters = new VarDeclarations(); 453 funcdecl.parameters.reserve(nparams); 454 foreach (i, fparam; f.parameterList) 455 { 456 Identifier id = fparam.ident; 457 StorageClass stc = 0; 458 if (!id) 459 { 460 /* Generate identifier for un-named parameter, 461 * because we need it later on. 462 */ 463 fparam.ident = id = Identifier.generateId("_param_", i); 464 stc |= STC.temp; 465 } 466 Type vtype = fparam.type; 467 auto v = new VarDeclaration(funcdecl.loc, vtype, id, null); 468 //printf("declaring parameter %s of type %s\n", v.toChars(), v.type.toChars()); 469 stc |= STC.parameter; 470 if (f.parameterList.varargs == VarArg.typesafe && i + 1 == nparams) 471 { 472 stc |= STC.variadic; 473 auto vtypeb = vtype.toBasetype(); 474 if (vtypeb.ty == Tarray || vtypeb.ty == Tclass) 475 { 476 /* Since it'll be pointing into the stack for the array 477 * contents, it needs to be `scope` 478 */ 479 stc |= STC.scope_; 480 } 481 } 482 483 if ((funcdecl.flags & FUNCFLAG.inferScope) && !(fparam.storageClass & STC.scope_)) 484 stc |= STC.maybescope; 485 486 stc |= fparam.storageClass & (STC.IOR | STC.return_ | STC.scope_ | STC.lazy_ | STC.final_ | STC.TYPECTOR | STC.nodtor | STC.returnScope); 487 v.storage_class = stc; 488 v.dsymbolSemantic(sc2); 489 if (!sc2.insert(v)) 490 { 491 funcdecl.error("parameter `%s.%s` is already defined", funcdecl.toChars(), v.toChars()); 492 funcdecl.errors = true; 493 } 494 else 495 funcdecl.parameters.push(v); 496 funcdecl.localsymtab.insert(v); 497 v.parent = funcdecl; 498 if (fparam.userAttribDecl) 499 v.userAttribDecl = fparam.userAttribDecl; 500 } 501 } 502 503 // Declare the tuple symbols and put them in the symbol table, 504 // but not in parameters[]. 505 if (f.parameterList.parameters) 506 foreach (fparam; *f.parameterList.parameters) 507 { 508 if (!fparam.ident) 509 continue; // never used, so ignore 510 // expand any tuples 511 if (fparam.type.ty != Ttuple) 512 continue; 513 514 TypeTuple t = cast(TypeTuple)fparam.type; 515 size_t dim = Parameter.dim(t.arguments); 516 auto exps = new Objects(dim); 517 foreach (j; 0 .. dim) 518 { 519 Parameter narg = Parameter.getNth(t.arguments, j); 520 assert(narg.ident); 521 VarDeclaration v = sc2.search(Loc.initial, narg.ident, null).isVarDeclaration(); 522 assert(v); 523 (*exps)[j] = new VarExp(v.loc, v); 524 } 525 assert(fparam.ident); 526 auto v = new TupleDeclaration(funcdecl.loc, fparam.ident, exps); 527 //printf("declaring tuple %s\n", v.toChars()); 528 v.isexp = true; 529 if (!sc2.insert(v)) 530 funcdecl.error("parameter `%s.%s` is already defined", funcdecl.toChars(), v.toChars()); 531 funcdecl.localsymtab.insert(v); 532 v.parent = funcdecl; 533 } 534 535 // Precondition invariant 536 Statement fpreinv = null; 537 if (funcdecl.addPreInvariant()) 538 { 539 Expression e = addInvariant(funcdecl.isThis(), funcdecl.vthis); 540 if (e) 541 fpreinv = new ExpStatement(Loc.initial, e); 542 } 543 544 // Postcondition invariant 545 Statement fpostinv = null; 546 if (funcdecl.addPostInvariant()) 547 { 548 Expression e = addInvariant(funcdecl.isThis(), funcdecl.vthis); 549 if (e) 550 fpostinv = new ExpStatement(Loc.initial, e); 551 } 552 553 // Pre/Postcondition contract 554 if (!funcdecl.fbody) 555 funcdecl.buildEnsureRequire(); 556 557 Scope* scout = null; 558 if (needEnsure || funcdecl.addPostInvariant()) 559 { 560 /* https://issues.dlang.org/show_bug.cgi?id=3657 561 * Set the correct end line number for fensure scope. 562 */ 563 uint fensure_endlin = funcdecl.endloc.linnum; 564 if (funcdecl.fensure) 565 if (auto s = funcdecl.fensure.isScopeStatement()) 566 fensure_endlin = s.endloc.linnum; 567 568 if ((needEnsure && global.params.useOut == CHECKENABLE.on) || fpostinv) 569 { 570 funcdecl.returnLabel = funcdecl.searchLabel(Id.returnLabel); 571 } 572 573 // scope of out contract (need for vresult.semantic) 574 auto sym = new ScopeDsymbol(funcdecl.loc, null); 575 sym.parent = sc2.scopesym; 576 sym.endlinnum = fensure_endlin; 577 scout = sc2.push(sym); 578 } 579 580 if (funcdecl.fbody) 581 { 582 auto sym = new ScopeDsymbol(funcdecl.loc, null); 583 sym.parent = sc2.scopesym; 584 sym.endlinnum = funcdecl.endloc.linnum; 585 sc2 = sc2.push(sym); 586 587 auto ad2 = funcdecl.isMemberLocal(); 588 589 /* If this is a class constructor 590 */ 591 if (ad2 && funcdecl.isCtorDeclaration()) 592 { 593 sc2.ctorflow.allocFieldinit(ad2.fields.dim); 594 foreach (v; ad2.fields) 595 { 596 v.ctorinit = 0; 597 } 598 } 599 600 bool inferRef = (f.isref && (funcdecl.storage_class & STC.auto_)); 601 602 funcdecl.fbody = funcdecl.fbody.statementSemantic(sc2); 603 if (!funcdecl.fbody) 604 funcdecl.fbody = new CompoundStatement(Loc.initial, new Statements()); 605 606 if (funcdecl.isNaked()) 607 { 608 fpreinv = null; // can't accommodate with no stack frame 609 fpostinv = null; 610 } 611 612 assert(funcdecl.type == f || (funcdecl.type.ty == Tfunction && f.purity == PURE.impure && (cast(TypeFunction)funcdecl.type).purity >= PURE.fwdref)); 613 f = cast(TypeFunction)funcdecl.type; 614 615 if (funcdecl.inferRetType) 616 { 617 // If no return type inferred yet, then infer a void 618 if (!f.next) 619 f.next = Type.tvoid; 620 if (f.checkRetType(funcdecl.loc)) 621 funcdecl.fbody = new ErrorStatement(); 622 else 623 funcdecl.checkMain(); // Check main() parameters and return type 624 } 625 626 if (f.next !is null) 627 f.next.checkComplexTransition(funcdecl.loc, sc); 628 629 if (funcdecl.returns && !funcdecl.fbody.isErrorStatement()) 630 { 631 for (size_t i = 0; i < funcdecl.returns.dim;) 632 { 633 Expression exp = (*funcdecl.returns)[i].exp; 634 if (exp.op == EXP.variable && (cast(VarExp)exp).var == funcdecl.vresult) 635 { 636 if (addReturn0()) 637 exp.type = Type.tint32; 638 else 639 exp.type = f.next; 640 // Remove `return vresult;` from returns 641 funcdecl.returns.remove(i); 642 continue; 643 } 644 if (inferRef && f.isref && !exp.type.constConv(f.next)) // https://issues.dlang.org/show_bug.cgi?id=13336 645 f.isref = false; 646 i++; 647 } 648 } 649 if (f.isref) // Function returns a reference 650 { 651 if (funcdecl.storage_class & STC.auto_) 652 funcdecl.storage_class &= ~STC.auto_; 653 } 654 655 // handle NRVO 656 if (!target.isReturnOnStack(f, funcdecl.needThis()) || !funcdecl.checkNRVO()) 657 funcdecl.flags &= ~FUNCFLAG.NRVO; 658 659 if (funcdecl.fbody.isErrorStatement()) 660 { 661 } 662 else if (funcdecl.isStaticCtorDeclaration()) 663 { 664 /* It's a static constructor. Ensure that all 665 * ctor consts were initialized. 666 */ 667 ScopeDsymbol pd = funcdecl.toParent().isScopeDsymbol(); 668 for (size_t i = 0; i < pd.members.dim; i++) 669 { 670 Dsymbol s = (*pd.members)[i]; 671 s.checkCtorConstInit(); 672 } 673 } 674 else if (ad2 && funcdecl.isCtorDeclaration()) 675 { 676 ClassDeclaration cd = ad2.isClassDeclaration(); 677 678 // Verify that all the ctorinit fields got initialized 679 if (!(sc2.ctorflow.callSuper & CSX.this_ctor)) 680 { 681 foreach (i, v; ad2.fields) 682 { 683 if (v.isThisDeclaration()) 684 continue; 685 if (v.ctorinit == 0) 686 { 687 /* Current bugs in the flow analysis: 688 * 1. union members should not produce error messages even if 689 * not assigned to 690 * 2. structs should recognize delegating opAssign calls as well 691 * as delegating calls to other constructors 692 */ 693 if (v.isCtorinit() && !v.type.isMutable() && cd) 694 funcdecl.error("missing initializer for %s field `%s`", MODtoChars(v.type.mod), v.toChars()); 695 else if (v.storage_class & STC.nodefaultctor) 696 error(funcdecl.loc, "field `%s` must be initialized in constructor", v.toChars()); 697 else if (v.type.needsNested()) 698 error(funcdecl.loc, "field `%s` must be initialized in constructor, because it is nested struct", v.toChars()); 699 } 700 else 701 { 702 bool mustInit = (v.storage_class & STC.nodefaultctor || v.type.needsNested()); 703 if (mustInit && !(sc2.ctorflow.fieldinit[i].csx & CSX.this_ctor)) 704 { 705 funcdecl.error("field `%s` must be initialized but skipped", v.toChars()); 706 } 707 } 708 } 709 } 710 sc2.ctorflow.freeFieldinit(); 711 712 if (cd && !(sc2.ctorflow.callSuper & CSX.any_ctor) && cd.baseClass && cd.baseClass.ctor) 713 { 714 sc2.ctorflow.callSuper = CSX.none; 715 716 // Insert implicit super() at start of fbody 717 Type tthis = ad2.type.addMod(funcdecl.vthis.type.mod); 718 FuncDeclaration fd = resolveFuncCall(Loc.initial, sc2, cd.baseClass.ctor, null, tthis, null, FuncResolveFlag.quiet); 719 if (!fd) 720 { 721 funcdecl.error("no match for implicit `super()` call in constructor"); 722 } 723 else if (fd.storage_class & STC.disable) 724 { 725 funcdecl.error("cannot call `super()` implicitly because it is annotated with `@disable`"); 726 } 727 else 728 { 729 Expression e1 = new SuperExp(Loc.initial); 730 Expression e = new CallExp(Loc.initial, e1); 731 e = e.expressionSemantic(sc2); 732 Statement s = new ExpStatement(Loc.initial, e); 733 funcdecl.fbody = new CompoundStatement(Loc.initial, s, funcdecl.fbody); 734 } 735 } 736 //printf("ctorflow.callSuper = x%x\n", sc2.ctorflow.callSuper); 737 } 738 739 /* https://issues.dlang.org/show_bug.cgi?id=17502 740 * Wait until after the return type has been inferred before 741 * generating the contracts for this function, and merging contracts 742 * from overrides. 743 * 744 * https://issues.dlang.org/show_bug.cgi?id=17893 745 * However should take care to generate this before inferered 746 * function attributes are applied, such as 'nothrow'. 747 * 748 * This was originally at the end of the first semantic pass, but 749 * required a fix-up to be done here for the '__result' variable 750 * type of __ensure() inside auto functions, but this didn't work 751 * if the out parameter was implicit. 752 */ 753 funcdecl.buildEnsureRequire(); 754 755 // Check for errors related to 'nothrow'. 756 const blockexit = funcdecl.fbody.blockExit(funcdecl, f.isnothrow); 757 if (f.isnothrow && blockexit & BE.throw_) 758 error(funcdecl.loc, "%s `%s` may throw but is marked as `nothrow`", funcdecl.kind(), funcdecl.toPrettyChars()); 759 760 if (!(blockexit & (BE.throw_ | BE.halt) || funcdecl.flags & FUNCFLAG.hasCatches)) 761 { 762 /* Don't generate unwind tables for this function 763 * https://issues.dlang.org/show_bug.cgi?id=17997 764 */ 765 funcdecl.flags |= FUNCFLAG.noEH; 766 } 767 768 if (funcdecl.flags & FUNCFLAG.nothrowInprocess) 769 { 770 if (funcdecl.type == f) 771 f = cast(TypeFunction)f.copy(); 772 f.isnothrow = !(blockexit & BE.throw_); 773 } 774 775 if (funcdecl.fbody.isErrorStatement()) 776 { 777 } 778 else if (ad2 && funcdecl.isCtorDeclaration()) 779 { 780 /* Append: 781 * return this; 782 * to function body 783 */ 784 if (blockexit & BE.fallthru) 785 { 786 Statement s = new ReturnStatement(funcdecl.loc, null); 787 s = s.statementSemantic(sc2); 788 funcdecl.fbody = new CompoundStatement(funcdecl.loc, funcdecl.fbody, s); 789 funcdecl.hasReturnExp |= (funcdecl.hasReturnExp & 1 ? 16 : 1); 790 } 791 } 792 else if (funcdecl.fes) 793 { 794 // For foreach(){} body, append a return 0; 795 if (blockexit & BE.fallthru) 796 { 797 Expression e = IntegerExp.literal!0; 798 Statement s = new ReturnStatement(Loc.initial, e); 799 funcdecl.fbody = new CompoundStatement(Loc.initial, funcdecl.fbody, s); 800 funcdecl.hasReturnExp |= (funcdecl.hasReturnExp & 1 ? 16 : 1); 801 } 802 assert(!funcdecl.returnLabel); 803 } 804 else if (f.next.toBasetype().ty == Tnoreturn) 805 { 806 // Fallthrough despite being declared as noreturn? return is already rejected when evaluating the ReturnStatement 807 if (blockexit & BE.fallthru) 808 { 809 funcdecl.error("is typed as `%s` but does return", f.next.toChars()); 810 funcdecl.loc.errorSupplemental("`noreturn` functions must either throw, abort or loop indefinitely"); 811 } 812 } 813 else 814 { 815 const(bool) inlineAsm = (funcdecl.hasReturnExp & 8) != 0; 816 if ((blockexit & BE.fallthru) && f.next.ty != Tvoid && !inlineAsm && !(sc.flags & SCOPE.Cfile)) 817 { 818 if (!funcdecl.hasReturnExp) 819 funcdecl.error("has no `return` statement, but is expected to return a value of type `%s`", f.next.toChars()); 820 else 821 funcdecl.error("no `return exp;` or `assert(0);` at end of function"); 822 } 823 } 824 825 if (funcdecl.returns) 826 { 827 bool implicit0 = addReturn0(); 828 Type tret = implicit0 ? Type.tint32 : f.next; 829 assert(tret.ty != Tvoid); 830 if (funcdecl.vresult || funcdecl.returnLabel) 831 funcdecl.buildResultVar(scout ? scout : sc2, tret); 832 833 /* Cannot move this loop into NrvoWalker, because 834 * returns[i] may be in the nested delegate for foreach-body. 835 */ 836 for (size_t i = 0; i < funcdecl.returns.dim; i++) 837 { 838 ReturnStatement rs = (*funcdecl.returns)[i]; 839 Expression exp = rs.exp; 840 if (exp.op == EXP.error) 841 continue; 842 if (tret.ty == Terror) 843 { 844 // https://issues.dlang.org/show_bug.cgi?id=13702 845 exp = checkGC(sc2, exp); 846 continue; 847 } 848 849 /* If the expression in the return statement (exp) cannot be implicitly 850 * converted to the return type (tret) of the function and if the 851 * type of the expression is type isolated, then it may be possible 852 * that a promotion to `immutable` or `inout` (through a cast) will 853 * match the return type. 854 */ 855 if (!exp.implicitConvTo(tret) && funcdecl.isTypeIsolated(exp.type)) 856 { 857 /* https://issues.dlang.org/show_bug.cgi?id=20073 858 * 859 * The problem is that if the type of the returned expression (exp.type) 860 * is an aggregated declaration with an alias this, the alias this may be 861 * used for the conversion testing without it being an isolated type. 862 * 863 * To make sure this does not happen, we can test here the implicit conversion 864 * only for the aggregated declaration type by using `implicitConvToWithoutAliasThis`. 865 * The implicit conversion with alias this is taken care of later. 866 */ 867 AggregateDeclaration aggDecl = isAggregate(exp.type); 868 TypeStruct tstruct; 869 TypeClass tclass; 870 bool hasAliasThis; 871 if (aggDecl && aggDecl.aliasthis) 872 { 873 hasAliasThis = true; 874 tclass = exp.type.isTypeClass(); 875 if (!tclass) 876 tstruct = exp.type.isTypeStruct(); 877 assert(tclass || tstruct); 878 } 879 if (hasAliasThis) 880 { 881 if (tclass) 882 { 883 if ((cast(TypeClass)(exp.type.immutableOf())).implicitConvToWithoutAliasThis(tret)) 884 exp = exp.castTo(sc2, exp.type.immutableOf()); 885 else if ((cast(TypeClass)(exp.type.wildOf())).implicitConvToWithoutAliasThis(tret)) 886 exp = exp.castTo(sc2, exp.type.wildOf()); 887 } 888 else 889 { 890 if ((cast(TypeStruct)exp.type.immutableOf()).implicitConvToWithoutAliasThis(tret)) 891 exp = exp.castTo(sc2, exp.type.immutableOf()); 892 else if ((cast(TypeStruct)exp.type.immutableOf()).implicitConvToWithoutAliasThis(tret)) 893 exp = exp.castTo(sc2, exp.type.wildOf()); 894 } 895 } 896 else 897 { 898 if (exp.type.immutableOf().implicitConvTo(tret)) 899 exp = exp.castTo(sc2, exp.type.immutableOf()); 900 else if (exp.type.wildOf().implicitConvTo(tret)) 901 exp = exp.castTo(sc2, exp.type.wildOf()); 902 } 903 } 904 905 const hasCopyCtor = exp.type.ty == Tstruct && (cast(TypeStruct)exp.type).sym.hasCopyCtor; 906 // if a copy constructor is present, the return type conversion will be handled by it 907 if (!(hasCopyCtor && exp.isLvalue())) 908 { 909 if (f.isref && !MODimplicitConv(exp.type.mod, tret.mod) && !tret.isTypeSArray()) 910 error(exp.loc, "expression `%s` of type `%s` is not implicitly convertible to return type `ref %s`", 911 exp.toChars(), exp.type.toChars(), tret.toChars()); 912 else 913 exp = exp.implicitCastTo(sc2, tret); 914 } 915 916 if (f.isref) 917 { 918 // Function returns a reference 919 exp = exp.toLvalue(sc2, exp); 920 checkReturnEscapeRef(sc2, exp, false); 921 exp = exp.optimize(WANTvalue, /*keepLvalue*/ true); 922 } 923 else 924 { 925 exp = exp.optimize(WANTvalue); 926 927 /* https://issues.dlang.org/show_bug.cgi?id=10789 928 * If NRVO is not possible, all returned lvalues should call their postblits. 929 */ 930 if (!funcdecl.isNRVO()) 931 exp = doCopyOrMove(sc2, exp, f.next); 932 933 if (tret.hasPointers()) 934 checkReturnEscape(sc2, exp, false); 935 } 936 937 exp = checkGC(sc2, exp); 938 939 if (funcdecl.vresult) 940 { 941 // Create: return vresult = exp; 942 exp = new BlitExp(rs.loc, funcdecl.vresult, exp); 943 exp.type = funcdecl.vresult.type; 944 945 if (rs.caseDim) 946 exp = Expression.combine(exp, new IntegerExp(rs.caseDim)); 947 } 948 else if (funcdecl.tintro && !tret.equals(funcdecl.tintro.nextOf())) 949 { 950 exp = exp.implicitCastTo(sc2, funcdecl.tintro.nextOf()); 951 } 952 rs.exp = exp; 953 } 954 } 955 if (funcdecl.nrvo_var || funcdecl.returnLabel) 956 { 957 scope NrvoWalker nw = new NrvoWalker(); 958 nw.fd = funcdecl; 959 nw.sc = sc2; 960 nw.visitStmt(funcdecl.fbody); 961 } 962 963 sc2 = sc2.pop(); 964 } 965 966 if (global.params.inclusiveInContracts) 967 { 968 funcdecl.frequire = funcdecl.mergeFrequireInclusivePreview( 969 funcdecl.frequire, funcdecl.fdrequireParams); 970 } 971 else 972 { 973 funcdecl.frequire = funcdecl.mergeFrequire(funcdecl.frequire, funcdecl.fdrequireParams); 974 } 975 funcdecl.fensure = funcdecl.mergeFensure(funcdecl.fensure, Id.result, funcdecl.fdensureParams); 976 977 Statement freq = funcdecl.frequire; 978 Statement fens = funcdecl.fensure; 979 980 /* Do the semantic analysis on the [in] preconditions and 981 * [out] postconditions. 982 */ 983 if (freq) 984 { 985 /* frequire is composed of the [in] contracts 986 */ 987 auto sym = new ScopeDsymbol(funcdecl.loc, null); 988 sym.parent = sc2.scopesym; 989 sym.endlinnum = funcdecl.endloc.linnum; 990 sc2 = sc2.push(sym); 991 sc2.flags = (sc2.flags & ~SCOPE.contract) | SCOPE.require; 992 993 // BUG: need to error if accessing out parameters 994 // BUG: need to disallow returns and throws 995 // BUG: verify that all in and ref parameters are read 996 freq = freq.statementSemantic(sc2); 997 freq.blockExit(funcdecl, false); 998 999 funcdecl.flags &= ~FUNCFLAG.noEH; 1000 1001 sc2 = sc2.pop(); 1002 1003 if (global.params.useIn == CHECKENABLE.off) 1004 freq = null; 1005 } 1006 if (fens) 1007 { 1008 /* fensure is composed of the [out] contracts 1009 */ 1010 if (f.next.ty == Tvoid && funcdecl.fensures) 1011 { 1012 foreach (e; *funcdecl.fensures) 1013 { 1014 if (e.id) 1015 { 1016 funcdecl.error(e.ensure.loc, "`void` functions have no result"); 1017 //fens = null; 1018 } 1019 } 1020 } 1021 1022 sc2 = scout; //push 1023 sc2.flags = (sc2.flags & ~SCOPE.contract) | SCOPE.ensure; 1024 1025 // BUG: need to disallow returns and throws 1026 1027 if (funcdecl.fensure && f.next.ty != Tvoid) 1028 funcdecl.buildResultVar(scout, f.next); 1029 1030 fens = fens.statementSemantic(sc2); 1031 fens.blockExit(funcdecl, false); 1032 1033 funcdecl.flags &= ~FUNCFLAG.noEH; 1034 1035 sc2 = sc2.pop(); 1036 1037 if (global.params.useOut == CHECKENABLE.off) 1038 fens = null; 1039 } 1040 if (funcdecl.fbody && funcdecl.fbody.isErrorStatement()) 1041 { 1042 } 1043 else 1044 { 1045 auto a = new Statements(); 1046 // Merge in initialization of 'out' parameters 1047 if (funcdecl.parameters) 1048 { 1049 for (size_t i = 0; i < funcdecl.parameters.dim; i++) 1050 { 1051 VarDeclaration v = (*funcdecl.parameters)[i]; 1052 if (v.storage_class & STC.out_) 1053 { 1054 if (!v._init) 1055 { 1056 v.error("Zero-length `out` parameters are not allowed."); 1057 return; 1058 } 1059 ExpInitializer ie = v._init.isExpInitializer(); 1060 assert(ie); 1061 if (auto iec = ie.exp.isConstructExp()) 1062 { 1063 // construction occurred in parameter processing 1064 auto ec = new AssignExp(iec.loc, iec.e1, iec.e2); 1065 ec.type = iec.type; 1066 ie.exp = ec; 1067 } 1068 a.push(new ExpStatement(Loc.initial, ie.exp)); 1069 } 1070 } 1071 } 1072 1073 if (_arguments) 1074 { 1075 /* Advance to elements[] member of TypeInfo_Tuple with: 1076 * _arguments = v_arguments.elements; 1077 */ 1078 Expression e = new VarExp(Loc.initial, funcdecl.v_arguments); 1079 e = new DotIdExp(Loc.initial, e, Id.elements); 1080 e = new ConstructExp(Loc.initial, _arguments, e); 1081 e = e.expressionSemantic(sc2); 1082 1083 _arguments._init = new ExpInitializer(Loc.initial, e); 1084 auto de = new DeclarationExp(Loc.initial, _arguments); 1085 a.push(new ExpStatement(Loc.initial, de)); 1086 } 1087 1088 // Merge contracts together with body into one compound statement 1089 1090 if (freq || fpreinv) 1091 { 1092 if (!freq) 1093 freq = fpreinv; 1094 else if (fpreinv) 1095 freq = new CompoundStatement(Loc.initial, freq, fpreinv); 1096 1097 a.push(freq); 1098 } 1099 1100 if (funcdecl.fbody) 1101 a.push(funcdecl.fbody); 1102 1103 if (fens || fpostinv) 1104 { 1105 if (!fens) 1106 fens = fpostinv; 1107 else if (fpostinv) 1108 fens = new CompoundStatement(Loc.initial, fpostinv, fens); 1109 1110 auto ls = new LabelStatement(Loc.initial, Id.returnLabel, fens); 1111 funcdecl.returnLabel.statement = ls; 1112 a.push(funcdecl.returnLabel.statement); 1113 1114 if (f.next.ty != Tvoid && funcdecl.vresult) 1115 { 1116 // Create: return vresult; 1117 Expression e = new VarExp(Loc.initial, funcdecl.vresult); 1118 if (funcdecl.tintro) 1119 { 1120 e = e.implicitCastTo(sc, funcdecl.tintro.nextOf()); 1121 e = e.expressionSemantic(sc); 1122 } 1123 auto s = new ReturnStatement(Loc.initial, e); 1124 a.push(s); 1125 } 1126 } 1127 if (addReturn0()) 1128 { 1129 // Add a return 0; statement 1130 Statement s = new ReturnStatement(Loc.initial, IntegerExp.literal!0); 1131 a.push(s); 1132 } 1133 1134 Statement sbody = new CompoundStatement(Loc.initial, a); 1135 1136 /* Append destructor calls for parameters as finally blocks. 1137 */ 1138 if (funcdecl.parameters) 1139 { 1140 // check if callee destroys arguments 1141 const bool paramsNeedDtor = target.isCalleeDestroyingArgs(f); 1142 1143 foreach (v; *funcdecl.parameters) 1144 { 1145 if (v.isReference() || (v.storage_class & STC.lazy_)) 1146 continue; 1147 if (v.needsScopeDtor()) 1148 { 1149 v.storage_class |= STC.nodtor; 1150 if (!paramsNeedDtor) 1151 continue; 1152 1153 // same with ExpStatement.scopeCode() 1154 Statement s = new DtorExpStatement(Loc.initial, v.edtor, v); 1155 1156 s = s.statementSemantic(sc2); 1157 1158 immutable bool isnothrow = f.isnothrow && !(funcdecl.flags & FUNCFLAG.nothrowInprocess); 1159 const blockexit = s.blockExit(funcdecl, isnothrow); 1160 if (blockexit & BE.throw_) 1161 { 1162 funcdecl.flags &= ~FUNCFLAG.noEH; 1163 if (isnothrow) 1164 error(funcdecl.loc, "%s `%s` may throw but is marked as `nothrow`", funcdecl.kind(), funcdecl.toPrettyChars()); 1165 else if (funcdecl.flags & FUNCFLAG.nothrowInprocess) 1166 f.isnothrow = false; 1167 } 1168 1169 if (sbody.blockExit(funcdecl, f.isnothrow) == BE.fallthru) 1170 sbody = new CompoundStatement(Loc.initial, sbody, s); 1171 else 1172 sbody = new TryFinallyStatement(Loc.initial, sbody, s); 1173 } 1174 } 1175 } 1176 // from this point on all possible 'throwers' are checked 1177 funcdecl.flags &= ~FUNCFLAG.nothrowInprocess; 1178 1179 if (funcdecl.isSynchronized()) 1180 { 1181 /* Wrap the entire function body in a synchronized statement 1182 */ 1183 ClassDeclaration cd = funcdecl.toParentDecl().isClassDeclaration(); 1184 if (cd) 1185 { 1186 if (target.libraryObjectMonitors(funcdecl, sbody)) 1187 { 1188 Expression vsync; 1189 if (funcdecl.isStatic()) 1190 { 1191 // The monitor is in the ClassInfo 1192 vsync = new DotIdExp(funcdecl.loc, symbolToExp(cd, funcdecl.loc, sc2, false), Id.classinfo); 1193 } 1194 else 1195 { 1196 // 'this' is the monitor 1197 vsync = new VarExp(funcdecl.loc, funcdecl.vthis); 1198 if (funcdecl.hasDualContext()) 1199 { 1200 vsync = new PtrExp(funcdecl.loc, vsync); 1201 vsync = new IndexExp(funcdecl.loc, vsync, IntegerExp.literal!0); 1202 } 1203 } 1204 sbody = new PeelStatement(sbody); // don't redo semantic() 1205 sbody = new SynchronizedStatement(funcdecl.loc, vsync, sbody); 1206 sbody = sbody.statementSemantic(sc2); 1207 } 1208 } 1209 else 1210 { 1211 funcdecl.error("synchronized function `%s` must be a member of a class", funcdecl.toChars()); 1212 } 1213 } 1214 1215 // If declaration has no body, don't set sbody to prevent incorrect codegen. 1216 if (funcdecl.fbody || funcdecl.allowsContractWithoutBody()) 1217 funcdecl.fbody = sbody; 1218 } 1219 1220 // Check for undefined labels 1221 if (funcdecl.labtab) 1222 foreach (keyValue; funcdecl.labtab.tab.asRange) 1223 { 1224 //printf(" KV: %s = %s\n", keyValue.key.toChars(), keyValue.value.toChars()); 1225 LabelDsymbol label = cast(LabelDsymbol)keyValue.value; 1226 if (!label.statement && (!label.deleted || label.iasm)) 1227 { 1228 funcdecl.error(label.loc, "label `%s` is undefined", label.toChars()); 1229 } 1230 } 1231 1232 // Fix up forward-referenced gotos 1233 if (funcdecl.gotos && !funcdecl.isCsymbol()) 1234 { 1235 for (size_t i = 0; i < funcdecl.gotos.dim; ++i) 1236 { 1237 (*funcdecl.gotos)[i].checkLabel(); 1238 } 1239 } 1240 1241 if (funcdecl.isNaked() && (funcdecl.fensures || funcdecl.frequires)) 1242 funcdecl.error("naked assembly functions with contracts are not supported"); 1243 1244 sc2.ctorflow.callSuper = CSX.none; 1245 sc2.pop(); 1246 } 1247 1248 if (funcdecl.checkClosure()) 1249 { 1250 // We should be setting errors here instead of relying on the global error count. 1251 //errors = true; 1252 } 1253 1254 /* If function survived being marked as impure, then it is pure 1255 */ 1256 if (funcdecl.flags & FUNCFLAG.purityInprocess) 1257 { 1258 funcdecl.flags &= ~FUNCFLAG.purityInprocess; 1259 if (funcdecl.type == f) 1260 f = cast(TypeFunction)f.copy(); 1261 f.purity = PURE.fwdref; 1262 } 1263 1264 if (funcdecl.flags & FUNCFLAG.safetyInprocess) 1265 { 1266 funcdecl.flags &= ~FUNCFLAG.safetyInprocess; 1267 if (funcdecl.type == f) 1268 f = cast(TypeFunction)f.copy(); 1269 f.trust = TRUST.safe; 1270 } 1271 1272 if (funcdecl.flags & FUNCFLAG.nogcInprocess) 1273 { 1274 funcdecl.flags &= ~FUNCFLAG.nogcInprocess; 1275 if (funcdecl.type == f) 1276 f = cast(TypeFunction)f.copy(); 1277 f.isnogc = true; 1278 } 1279 1280 if (funcdecl.flags & FUNCFLAG.returnInprocess) 1281 { 1282 funcdecl.flags &= ~FUNCFLAG.returnInprocess; 1283 if (funcdecl.storage_class & STC.return_) 1284 { 1285 if (funcdecl.type == f) 1286 f = cast(TypeFunction)f.copy(); 1287 f.isreturn = true; 1288 f.isreturnscope = cast(bool) (funcdecl.storage_class & STC.returnScope); 1289 if (funcdecl.storage_class & STC.returninferred) 1290 f.isreturninferred = true; 1291 } 1292 } 1293 1294 funcdecl.flags &= ~FUNCFLAG.inferScope; 1295 1296 // Eliminate maybescope's 1297 { 1298 // Create and fill array[] with maybe candidates from the `this` and the parameters 1299 VarDeclaration[10] tmp = void; 1300 size_t dim = (funcdecl.vthis !is null) + (funcdecl.parameters ? funcdecl.parameters.dim : 0); 1301 1302 import dmd.common.string : SmallBuffer; 1303 auto sb = SmallBuffer!VarDeclaration(dim, tmp[]); 1304 VarDeclaration[] array = sb[]; 1305 1306 size_t n = 0; 1307 if (funcdecl.vthis) 1308 array[n++] = funcdecl.vthis; 1309 if (funcdecl.parameters) 1310 { 1311 foreach (v; *funcdecl.parameters) 1312 { 1313 array[n++] = v; 1314 } 1315 } 1316 eliminateMaybeScopes(array[0 .. n]); 1317 } 1318 1319 // Infer STC.scope_ 1320 if (funcdecl.parameters && !funcdecl.errors) 1321 { 1322 assert(f.parameterList.length == funcdecl.parameters.dim); 1323 foreach (u, p; f.parameterList) 1324 { 1325 auto v = (*funcdecl.parameters)[u]; 1326 if (v.storage_class & STC.maybescope) 1327 { 1328 //printf("Inferring scope for %s\n", v.toChars()); 1329 notMaybeScope(v); 1330 v.storage_class |= STC.scope_ | STC.scopeinferred; 1331 p.storageClass |= STC.scope_ | STC.scopeinferred; 1332 assert(!(p.storageClass & STC.maybescope)); 1333 } 1334 } 1335 } 1336 1337 if (funcdecl.vthis && funcdecl.vthis.storage_class & STC.maybescope) 1338 { 1339 notMaybeScope(funcdecl.vthis); 1340 funcdecl.vthis.storage_class |= STC.scope_ | STC.scopeinferred; 1341 f.isScopeQual = true; 1342 f.isscopeinferred = true; 1343 } 1344 1345 // reset deco to apply inference result to mangled name 1346 if (f != funcdecl.type) 1347 f.deco = null; 1348 1349 // Do semantic type AFTER pure/nothrow inference. 1350 if (!f.deco && funcdecl.ident != Id.xopEquals && funcdecl.ident != Id.xopCmp) 1351 { 1352 sc = sc.push(); 1353 if (funcdecl.isCtorDeclaration()) // https://issues.dlang.org/show_bug.cgi?id=#15665 1354 f.isctor = true; 1355 sc.stc = 0; 1356 sc.linkage = funcdecl._linkage; // https://issues.dlang.org/show_bug.cgi?id=8496 1357 funcdecl.type = f.typeSemantic(funcdecl.loc, sc); 1358 sc = sc.pop(); 1359 } 1360 1361 // Do live analysis 1362 if (global.params.useDIP1021 && funcdecl.fbody && funcdecl.type.ty != Terror && 1363 funcdecl.type.isTypeFunction().islive) 1364 { 1365 oblive(funcdecl); 1366 } 1367 1368 /* If this function had instantiated with gagging, error reproduction will be 1369 * done by TemplateInstance::semantic. 1370 * Otherwise, error gagging should be temporarily ungagged by functionSemantic3. 1371 */ 1372 funcdecl.semanticRun = PASS.semantic3done; 1373 if ((global.errors != oldErrors) || (funcdecl.fbody && funcdecl.fbody.isErrorStatement())) 1374 funcdecl.flags |= FUNCFLAG.semantic3Errors; 1375 else 1376 funcdecl.flags &= ~FUNCFLAG.semantic3Errors; 1377 if (funcdecl.type.ty == Terror) 1378 funcdecl.errors = true; 1379 //printf("-FuncDeclaration::semantic3('%s.%s', sc = %p, loc = %s)\n", parent.toChars(), toChars(), sc, loc.toChars()); 1380 //fflush(stdout); 1381 } 1382 1383 override void visit(CtorDeclaration ctor) 1384 { 1385 //printf("CtorDeclaration()\n%s\n", ctor.fbody.toChars()); 1386 if (ctor.semanticRun >= PASS.semantic3) 1387 return; 1388 1389 /* If any of the fields of the aggregate have a destructor, add 1390 * scope (failure) { this.fieldDtor(); } 1391 * as the first statement of the constructor (unless the constructor 1392 * doesn't define a body - @disable, extern) 1393 *.It is not necessary to add it after 1394 * each initialization of a field, because destruction of .init constructed 1395 * structs should be benign. 1396 * https://issues.dlang.org/show_bug.cgi?id=14246 1397 */ 1398 AggregateDeclaration ad = ctor.isMemberDecl(); 1399 if (!ctor.fbody || !ad || !ad.fieldDtor || !global.params.dtorFields || global.params.betterC || ctor.type.toTypeFunction.isnothrow) 1400 return visit(cast(FuncDeclaration)ctor); 1401 1402 /* Generate: 1403 * this.fieldDtor() 1404 */ 1405 Expression e = new ThisExp(ctor.loc); 1406 e.type = ad.type.mutableOf(); 1407 e = new DotVarExp(ctor.loc, e, ad.fieldDtor, false); 1408 auto ce = new CallExp(ctor.loc, e); 1409 auto sexp = new ExpStatement(ctor.loc, ce); 1410 auto ss = new ScopeStatement(ctor.loc, sexp, ctor.loc); 1411 1412 // @@@DEPRECATED_2.106@@@ 1413 // Allow negligible attribute violations to allow for a smooth 1414 // transition. Remove this after the usual deprecation period 1415 // after 2.106. 1416 if (global.params.dtorFields == FeatureState.default_) 1417 { 1418 auto ctf = cast(TypeFunction) ctor.type; 1419 auto dtf = cast(TypeFunction) ad.fieldDtor.type; 1420 1421 const ngErr = ctf.isnogc && !dtf.isnogc; 1422 const puErr = ctf.purity && !dtf.purity; 1423 const saErr = ctf.trust == TRUST.safe && dtf.trust <= TRUST.system; 1424 1425 if (ngErr || puErr || saErr) 1426 { 1427 // storage_class is apparently not set for dtor & ctor 1428 OutBuffer ob; 1429 stcToBuffer(&ob, 1430 (ngErr ? STC.nogc : 0) | 1431 (puErr ? STC.pure_ : 0) | 1432 (saErr ? STC.system : 0) 1433 ); 1434 ctor.loc.deprecation("`%s` has stricter attributes than its destructor (`%s`)", ctor.toPrettyChars(), ob.peekChars()); 1435 ctor.loc.deprecationSupplemental("The destructor will be called if an exception is thrown"); 1436 ctor.loc.deprecationSupplemental("Either make the constructor `nothrow` or adjust the field destructors"); 1437 1438 ce.ignoreAttributes = true; 1439 } 1440 } 1441 1442 version (all) 1443 { 1444 /* Generate: 1445 * try { ctor.fbody; } 1446 * catch (Exception __o) 1447 * { this.fieldDtor(); throw __o; } 1448 * This differs from the alternate scope(failure) version in that an Exception 1449 * is caught rather than a Throwable. This enables the optimization whereby 1450 * the try-catch can be removed if ctor.fbody is nothrow. (nothrow only 1451 * applies to Exception.) 1452 */ 1453 Identifier id = Identifier.generateId("__o"); 1454 auto ts = new ThrowStatement(ctor.loc, new IdentifierExp(ctor.loc, id)); 1455 auto handler = new CompoundStatement(ctor.loc, ss, ts); 1456 1457 auto catches = new Catches(); 1458 auto ctch = new Catch(ctor.loc, getException(), id, handler); 1459 catches.push(ctch); 1460 1461 ctor.fbody = new TryCatchStatement(ctor.loc, ctor.fbody, catches); 1462 } 1463 else 1464 { 1465 /* Generate: 1466 * scope (failure) { this.fieldDtor(); } 1467 * Hopefully we can use this version someday when scope(failure) catches 1468 * Exception instead of Throwable. 1469 */ 1470 auto s = new ScopeGuardStatement(ctor.loc, TOK.onScopeFailure, ss); 1471 ctor.fbody = new CompoundStatement(ctor.loc, s, ctor.fbody); 1472 } 1473 visit(cast(FuncDeclaration)ctor); 1474 } 1475 1476 1477 override void visit(Nspace ns) 1478 { 1479 if (ns.semanticRun >= PASS.semantic3) 1480 return; 1481 ns.semanticRun = PASS.semantic3; 1482 static if (LOG) 1483 { 1484 printf("Nspace::semantic3('%s')\n", ns.toChars()); 1485 } 1486 if (!ns.members) 1487 return; 1488 1489 sc = sc.push(ns); 1490 sc.linkage = LINK.cpp; 1491 foreach (s; *ns.members) 1492 { 1493 s.semantic3(sc); 1494 } 1495 sc.pop(); 1496 } 1497 1498 override void visit(AttribDeclaration ad) 1499 { 1500 Dsymbols* d = ad.include(sc); 1501 if (!d) 1502 return; 1503 1504 Scope* sc2 = ad.newScope(sc); 1505 for (size_t i = 0; i < d.dim; i++) 1506 { 1507 Dsymbol s = (*d)[i]; 1508 s.semantic3(sc2); 1509 } 1510 if (sc2 != sc) 1511 sc2.pop(); 1512 } 1513 1514 override void visit(AggregateDeclaration ad) 1515 { 1516 //printf("AggregateDeclaration::semantic3(sc=%p, %s) type = %s, errors = %d\n", sc, toChars(), type.toChars(), errors); 1517 if (!ad.members) 1518 return; 1519 1520 StructDeclaration sd = ad.isStructDeclaration(); 1521 if (!sc) // from runDeferredSemantic3 for TypeInfo generation 1522 { 1523 assert(sd); 1524 sd.semanticTypeInfoMembers(); 1525 return; 1526 } 1527 1528 auto sc2 = ad.newScope(sc); 1529 1530 for (size_t i = 0; i < ad.members.dim; i++) 1531 { 1532 Dsymbol s = (*ad.members)[i]; 1533 s.semantic3(sc2); 1534 } 1535 1536 sc2.pop(); 1537 1538 // don't do it for unused deprecated types 1539 // or error ypes 1540 if (!ad.getRTInfo && Type.rtinfo && (!ad.isDeprecated() || global.params.useDeprecated != DiagnosticReporting.error) && (ad.type && ad.type.ty != Terror)) 1541 { 1542 // Evaluate: RTinfo!type 1543 auto tiargs = new Objects(); 1544 tiargs.push(ad.type); 1545 auto ti = new TemplateInstance(ad.loc, Type.rtinfo, tiargs); 1546 1547 Scope* sc3 = ti.tempdecl._scope.startCTFE(); 1548 sc3.tinst = sc.tinst; 1549 sc3.minst = sc.minst; 1550 if (ad.isDeprecated()) 1551 sc3.stc |= STC.deprecated_; 1552 1553 ti.dsymbolSemantic(sc3); 1554 ti.semantic2(sc3); 1555 ti.semantic3(sc3); 1556 auto e = symbolToExp(ti.toAlias(), Loc.initial, sc3, false); 1557 1558 sc3.endCTFE(); 1559 1560 e = e.ctfeInterpret(); 1561 ad.getRTInfo = e; 1562 } 1563 if (sd) 1564 sd.semanticTypeInfoMembers(); 1565 ad.semanticRun = PASS.semantic3done; 1566 } 1567 } 1568 1569 private struct FuncDeclSem3 1570 { 1571 // The FuncDeclaration subject to Semantic analysis 1572 FuncDeclaration funcdecl; 1573 1574 // Scope of analysis 1575 Scope* sc; 1576 this(FuncDeclaration fd,Scope* s) 1577 { 1578 funcdecl = fd; 1579 sc = s; 1580 } 1581 1582 /* Checks that the overriden functions (if any) have in contracts if 1583 * funcdecl has an in contract. 1584 */ 1585 void checkInContractOverrides() 1586 { 1587 if (funcdecl.frequires) 1588 { 1589 for (size_t i = 0; i < funcdecl.foverrides.dim; i++) 1590 { 1591 FuncDeclaration fdv = funcdecl.foverrides[i]; 1592 if (fdv.fbody && !fdv.frequires) 1593 { 1594 funcdecl.error("cannot have an in contract when overridden function `%s` does not have an in contract", fdv.toPrettyChars()); 1595 break; 1596 } 1597 } 1598 } 1599 } 1600 } 1601 1602 extern (C++) void semanticTypeInfoMembers(StructDeclaration sd) 1603 { 1604 if (sd.xeq && 1605 sd.xeq._scope && 1606 sd.xeq.semanticRun < PASS.semantic3done) 1607 { 1608 uint errors = global.startGagging(); 1609 sd.xeq.semantic3(sd.xeq._scope); 1610 if (global.endGagging(errors)) 1611 sd.xeq = sd.xerreq; 1612 } 1613 1614 if (sd.xcmp && 1615 sd.xcmp._scope && 1616 sd.xcmp.semanticRun < PASS.semantic3done) 1617 { 1618 uint errors = global.startGagging(); 1619 sd.xcmp.semantic3(sd.xcmp._scope); 1620 if (global.endGagging(errors)) 1621 sd.xcmp = sd.xerrcmp; 1622 } 1623 1624 FuncDeclaration ftostr = search_toString(sd); 1625 if (ftostr && 1626 ftostr._scope && 1627 ftostr.semanticRun < PASS.semantic3done) 1628 { 1629 ftostr.semantic3(ftostr._scope); 1630 } 1631 1632 if (sd.xhash && 1633 sd.xhash._scope && 1634 sd.xhash.semanticRun < PASS.semantic3done) 1635 { 1636 sd.xhash.semantic3(sd.xhash._scope); 1637 } 1638 1639 if (sd.postblit && 1640 sd.postblit._scope && 1641 sd.postblit.semanticRun < PASS.semantic3done) 1642 { 1643 sd.postblit.semantic3(sd.postblit._scope); 1644 } 1645 1646 if (sd.dtor && 1647 sd.dtor._scope && 1648 sd.dtor.semanticRun < PASS.semantic3done) 1649 { 1650 sd.dtor.semantic3(sd.dtor._scope); 1651 } 1652 } 1653
Indexes created Sat Feb 28 05:31:39 UTC 2026