Mercurial > projects > ldc
view dmd2/arrayop.c @ 1318:bac742d3a72d
Make sure this testcase keeps crashing with -O3.
Recent optimization improvements made LLVM realize the store-to-null was
unavoidable, so it deleted all of main() and replaced it with 'unreachable'.
Because the body of main() no longer even contained a return instruction,
calling it caused random code to be ran instead. This happened to be the code
that links in the ModuleInfo on my machine, which then returned "successfully".
| author | Frits van Bommel <fvbommel wxs.nl> |
|---|---|
| date | Sat, 09 May 2009 00:55:47 +0200 |
| parents | f04dde6e882c |
| children | 638d16625da2 |
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// Copyright (c) 1999-2008 by Digital Mars // All Rights Reserved // written by Walter Bright // http://www.digitalmars.com // License for redistribution is by either the Artistic License // in artistic.txt, or the GNU General Public License in gnu.txt. // See the included readme.txt for details. #include <stdio.h> #include <string.h> #include <assert.h> #if _WIN32 || IN_GCC || IN_LLVM #include "mem.h" #else #include "../root/mem.h" #endif #include "stringtable.h" #include "expression.h" #include "statement.h" #include "mtype.h" #include "declaration.h" #include "scope.h" #include "id.h" #include "module.h" #include "init.h" /*********************************** * Construct the array operation expression. */ Expression *BinExp::arrayOp(Scope *sc) { Expressions *arguments = new Expressions(); /* The expression to generate an array operation for is mangled * into a name to use as the array operation function name. * Mangle in the operands and operators in RPN order, and type. */ OutBuffer buf; buf.writestring("_array"); buildArrayIdent(&buf, arguments); buf.writeByte('_'); /* Append deco of array element type */ #if DMDV2 buf.writestring(type->toBasetype()->nextOf()->toBasetype()->mutableOf()->deco); #else buf.writestring(type->toBasetype()->nextOf()->toBasetype()->deco); #endif size_t namelen = buf.offset; buf.writeByte(0); char *name = (char *)buf.extractData(); /* Look up name in hash table */ StringValue *sv = sc->module->arrayfuncs.update(name, namelen); FuncDeclaration *fd = (FuncDeclaration *)sv->ptrvalue; if (!fd) { // /* Some of the array op functions are written as library functions, // * presumably to optimize them with special CPU vector instructions. // * List those library functions here, in alpha order. // */ // static const char *libArrayopFuncs[] = // { // "_arrayExpSliceAddass_a", // "_arrayExpSliceAddass_d", // T[]+=T // "_arrayExpSliceAddass_f", // T[]+=T // "_arrayExpSliceAddass_g", // "_arrayExpSliceAddass_h", // "_arrayExpSliceAddass_i", // "_arrayExpSliceAddass_k", // "_arrayExpSliceAddass_s", // "_arrayExpSliceAddass_t", // "_arrayExpSliceAddass_u", // "_arrayExpSliceAddass_w", // // "_arrayExpSliceDivass_d", // T[]/=T // "_arrayExpSliceDivass_f", // T[]/=T // // "_arrayExpSliceMinSliceAssign_a", // "_arrayExpSliceMinSliceAssign_d", // T[]=T-T[] // "_arrayExpSliceMinSliceAssign_f", // T[]=T-T[] // "_arrayExpSliceMinSliceAssign_g", // "_arrayExpSliceMinSliceAssign_h", // "_arrayExpSliceMinSliceAssign_i", // "_arrayExpSliceMinSliceAssign_k", // "_arrayExpSliceMinSliceAssign_s", // "_arrayExpSliceMinSliceAssign_t", // "_arrayExpSliceMinSliceAssign_u", // "_arrayExpSliceMinSliceAssign_w", // // "_arrayExpSliceMinass_a", // "_arrayExpSliceMinass_d", // T[]-=T // "_arrayExpSliceMinass_f", // T[]-=T // "_arrayExpSliceMinass_g", // "_arrayExpSliceMinass_h", // "_arrayExpSliceMinass_i", // "_arrayExpSliceMinass_k", // "_arrayExpSliceMinass_s", // "_arrayExpSliceMinass_t", // "_arrayExpSliceMinass_u", // "_arrayExpSliceMinass_w", // // "_arrayExpSliceMulass_d", // T[]*=T // "_arrayExpSliceMulass_f", // T[]*=T // "_arrayExpSliceMulass_i", // "_arrayExpSliceMulass_k", // "_arrayExpSliceMulass_s", // "_arrayExpSliceMulass_t", // "_arrayExpSliceMulass_u", // "_arrayExpSliceMulass_w", // // "_arraySliceExpAddSliceAssign_a", // "_arraySliceExpAddSliceAssign_d", // T[]=T[]+T // "_arraySliceExpAddSliceAssign_f", // T[]=T[]+T // "_arraySliceExpAddSliceAssign_g", // "_arraySliceExpAddSliceAssign_h", // "_arraySliceExpAddSliceAssign_i", // "_arraySliceExpAddSliceAssign_k", // "_arraySliceExpAddSliceAssign_s", // "_arraySliceExpAddSliceAssign_t", // "_arraySliceExpAddSliceAssign_u", // "_arraySliceExpAddSliceAssign_w", // // "_arraySliceExpDivSliceAssign_d", // T[]=T[]/T // "_arraySliceExpDivSliceAssign_f", // T[]=T[]/T // // "_arraySliceExpMinSliceAssign_a", // "_arraySliceExpMinSliceAssign_d", // T[]=T[]-T // "_arraySliceExpMinSliceAssign_f", // T[]=T[]-T // "_arraySliceExpMinSliceAssign_g", // "_arraySliceExpMinSliceAssign_h", // "_arraySliceExpMinSliceAssign_i", // "_arraySliceExpMinSliceAssign_k", // "_arraySliceExpMinSliceAssign_s", // "_arraySliceExpMinSliceAssign_t", // "_arraySliceExpMinSliceAssign_u", // "_arraySliceExpMinSliceAssign_w", // // "_arraySliceExpMulSliceAddass_d", // T[] += T[]*T // "_arraySliceExpMulSliceAddass_f", // "_arraySliceExpMulSliceAddass_r", // // "_arraySliceExpMulSliceAssign_d", // T[]=T[]*T // "_arraySliceExpMulSliceAssign_f", // T[]=T[]*T // "_arraySliceExpMulSliceAssign_i", // "_arraySliceExpMulSliceAssign_k", // "_arraySliceExpMulSliceAssign_s", // "_arraySliceExpMulSliceAssign_t", // "_arraySliceExpMulSliceAssign_u", // "_arraySliceExpMulSliceAssign_w", // // "_arraySliceExpMulSliceMinass_d", // T[] -= T[]*T // "_arraySliceExpMulSliceMinass_f", // "_arraySliceExpMulSliceMinass_r", // // "_arraySliceSliceAddSliceAssign_a", // "_arraySliceSliceAddSliceAssign_d", // T[]=T[]+T[] // "_arraySliceSliceAddSliceAssign_f", // T[]=T[]+T[] // "_arraySliceSliceAddSliceAssign_g", // "_arraySliceSliceAddSliceAssign_h", // "_arraySliceSliceAddSliceAssign_i", // "_arraySliceSliceAddSliceAssign_k", // "_arraySliceSliceAddSliceAssign_r", // T[]=T[]+T[] // "_arraySliceSliceAddSliceAssign_s", // "_arraySliceSliceAddSliceAssign_t", // "_arraySliceSliceAddSliceAssign_u", // "_arraySliceSliceAddSliceAssign_w", // // "_arraySliceSliceAddass_a", // "_arraySliceSliceAddass_d", // T[]+=T[] // "_arraySliceSliceAddass_f", // T[]+=T[] // "_arraySliceSliceAddass_g", // "_arraySliceSliceAddass_h", // "_arraySliceSliceAddass_i", // "_arraySliceSliceAddass_k", // "_arraySliceSliceAddass_s", // "_arraySliceSliceAddass_t", // "_arraySliceSliceAddass_u", // "_arraySliceSliceAddass_w", // // "_arraySliceSliceMinSliceAssign_a", // "_arraySliceSliceMinSliceAssign_d", // T[]=T[]-T[] // "_arraySliceSliceMinSliceAssign_f", // T[]=T[]-T[] // "_arraySliceSliceMinSliceAssign_g", // "_arraySliceSliceMinSliceAssign_h", // "_arraySliceSliceMinSliceAssign_i", // "_arraySliceSliceMinSliceAssign_k", // "_arraySliceSliceMinSliceAssign_r", // T[]=T[]-T[] // "_arraySliceSliceMinSliceAssign_s", // "_arraySliceSliceMinSliceAssign_t", // "_arraySliceSliceMinSliceAssign_u", // "_arraySliceSliceMinSliceAssign_w", // // "_arraySliceSliceMinass_a", // "_arraySliceSliceMinass_d", // T[]-=T[] // "_arraySliceSliceMinass_f", // T[]-=T[] // "_arraySliceSliceMinass_g", // "_arraySliceSliceMinass_h", // "_arraySliceSliceMinass_i", // "_arraySliceSliceMinass_k", // "_arraySliceSliceMinass_s", // "_arraySliceSliceMinass_t", // "_arraySliceSliceMinass_u", // "_arraySliceSliceMinass_w", // // "_arraySliceSliceMulSliceAssign_d", // T[]=T[]*T[] // "_arraySliceSliceMulSliceAssign_f", // T[]=T[]*T[] // "_arraySliceSliceMulSliceAssign_i", // "_arraySliceSliceMulSliceAssign_k", // "_arraySliceSliceMulSliceAssign_s", // "_arraySliceSliceMulSliceAssign_t", // "_arraySliceSliceMulSliceAssign_u", // "_arraySliceSliceMulSliceAssign_w", // // "_arraySliceSliceMulass_d", // T[]*=T[] // "_arraySliceSliceMulass_f", // T[]*=T[] // "_arraySliceSliceMulass_i", // "_arraySliceSliceMulass_k", // "_arraySliceSliceMulass_s", // "_arraySliceSliceMulass_t", // "_arraySliceSliceMulass_u", // "_arraySliceSliceMulass_w", // }; // // int i = binary(name, libArrayopFuncs, sizeof(libArrayopFuncs) / sizeof(char *)); // if (i == -1) // { // #ifdef DEBUG // Make sure our array is alphabetized // for (i = 0; i < sizeof(libArrayopFuncs) / sizeof(char *); i++) // { // if (strcmp(name, libArrayopFuncs[i]) == 0) // assert(0); // } // #endif /* Not in library, so generate it. * Construct the function body: * foreach (i; 0 .. p.length) for (size_t i = 0; i < p.length; i++) * loopbody; * return p; */ Arguments *fparams = new Arguments(); Expression *loopbody = buildArrayLoop(fparams); Argument *p = (Argument *)fparams->data[0 /*fparams->dim - 1*/]; #if DMDV1 // for (size_t i = 0; i < p.length; i++) Initializer *init = new ExpInitializer(0, new IntegerExp(0, 0, Type::tsize_t)); Dsymbol *d = new VarDeclaration(0, Type::tsize_t, Id::p, init); Statement *s1 = new ForStatement(0, new DeclarationStatement(0, d), new CmpExp(TOKlt, 0, new IdentifierExp(0, Id::p), new ArrayLengthExp(0, new IdentifierExp(0, p->ident))), new PostExp(TOKplusplus, 0, new IdentifierExp(0, Id::p)), new ExpStatement(0, loopbody)); #else // foreach (i; 0 .. p.length) Statement *s1 = new ForeachRangeStatement(0, TOKforeach, new Argument(0, NULL, Id::p, NULL), new IntegerExp(0, 0, Type::tint32), new ArrayLengthExp(0, new IdentifierExp(0, p->ident)), new ExpStatement(0, loopbody)); #endif Statement *s2 = new ReturnStatement(0, new IdentifierExp(0, p->ident)); //printf("s2: %s\n", s2->toChars()); Statement *fbody = new CompoundStatement(0, s1, s2); /* Construct the function */ TypeFunction *ftype = new TypeFunction(fparams, type, 0, LINKc); //printf("ftype: %s\n", ftype->toChars()); fd = new FuncDeclaration(0, 0, Lexer::idPool(name), STCundefined, ftype); fd->fbody = fbody; fd->protection = PROTprotected; fd->linkage = LINKd; // special attention for array ops fd->isArrayOp = true; sc->module->members->push(fd); sc = sc->push(); sc->parent = sc->module; sc->stc = 0; sc->linkage = LINKd; fd->semantic(sc); sc->pop(); // } // else // { /* In library, refer to it. // */ // // FIXME // fd = FuncDeclaration::genCfunc(NULL, type, name); // } sv->ptrvalue = fd; // cache symbol in hash table } /* Call the function fd(arguments) */ Expression *ec = new VarExp(0, fd); Expression *e = new CallExp(loc, ec, arguments); e->type = type; return e; } /****************************************** * Construct the identifier for the array operation function, * and build the argument list to pass to it. */ void Expression::buildArrayIdent(OutBuffer *buf, Expressions *arguments) { buf->writestring("Exp"); arguments->shift(this); } void SliceExp::buildArrayIdent(OutBuffer *buf, Expressions *arguments) { buf->writestring("Slice"); arguments->shift(this); } void AssignExp::buildArrayIdent(OutBuffer *buf, Expressions *arguments) { /* Evaluate assign expressions right to left */ e2->buildArrayIdent(buf, arguments); e1->buildArrayIdent(buf, arguments); buf->writestring("Assign"); } #define X(Str) \ void Str##AssignExp::buildArrayIdent(OutBuffer *buf, Expressions *arguments) \ { \ /* Evaluate assign expressions right to left \ */ \ e2->buildArrayIdent(buf, arguments); \ e1->buildArrayIdent(buf, arguments); \ buf->writestring(#Str); \ buf->writestring("ass"); \ } X(Add) X(Min) X(Mul) X(Div) X(Mod) X(Xor) X(And) X(Or) #undef X void NegExp::buildArrayIdent(OutBuffer *buf, Expressions *arguments) { e1->buildArrayIdent(buf, arguments); buf->writestring("Neg"); } void ComExp::buildArrayIdent(OutBuffer *buf, Expressions *arguments) { e1->buildArrayIdent(buf, arguments); buf->writestring("Com"); } #define X(Str) \ void Str##Exp::buildArrayIdent(OutBuffer *buf, Expressions *arguments) \ { \ /* Evaluate assign expressions left to right \ */ \ e1->buildArrayIdent(buf, arguments); \ e2->buildArrayIdent(buf, arguments); \ buf->writestring(#Str); \ } X(Add) X(Min) X(Mul) X(Div) X(Mod) X(Xor) X(And) X(Or) #undef X /****************************************** * Construct the inner loop for the array operation function, * and build the parameter list. */ Expression *Expression::buildArrayLoop(Arguments *fparams) { Identifier *id = Identifier::generateId("c", fparams->dim); Argument *param = new Argument(0, type, id, NULL); fparams->shift(param); Expression *e = new IdentifierExp(0, id); return e; } Expression *SliceExp::buildArrayLoop(Arguments *fparams) { Identifier *id = Identifier::generateId("p", fparams->dim); Argument *param = new Argument(STCconst, type, id, NULL); fparams->shift(param); Expression *e = new IdentifierExp(0, id); Expressions *arguments = new Expressions(); Expression *index = new IdentifierExp(0, Id::p); arguments->push(index); e = new ArrayExp(0, e, arguments); return e; } Expression *AssignExp::buildArrayLoop(Arguments *fparams) { /* Evaluate assign expressions right to left */ Expression *ex2 = e2->buildArrayLoop(fparams); Expression *ex1 = e1->buildArrayLoop(fparams); Argument *param = (Argument *)fparams->data[0]; param->storageClass = 0; Expression *e = new AssignExp(0, ex1, ex2); return e; } #define X(Str) \ Expression *Str##AssignExp::buildArrayLoop(Arguments *fparams) \ { \ /* Evaluate assign expressions right to left \ */ \ Expression *ex2 = e2->buildArrayLoop(fparams); \ Expression *ex1 = e1->buildArrayLoop(fparams); \ Argument *param = (Argument *)fparams->data[0]; \ param->storageClass = 0; \ Expression *e = new Str##AssignExp(0, ex1, ex2); \ return e; \ } X(Add) X(Min) X(Mul) X(Div) X(Mod) X(Xor) X(And) X(Or) #undef X Expression *NegExp::buildArrayLoop(Arguments *fparams) { Expression *ex1 = e1->buildArrayLoop(fparams); Expression *e = new NegExp(0, ex1); return e; } Expression *ComExp::buildArrayLoop(Arguments *fparams) { Expression *ex1 = e1->buildArrayLoop(fparams); Expression *e = new ComExp(0, ex1); return e; } #define X(Str) \ Expression *Str##Exp::buildArrayLoop(Arguments *fparams) \ { \ /* Evaluate assign expressions left to right \ */ \ Expression *ex1 = e1->buildArrayLoop(fparams); \ Expression *ex2 = e2->buildArrayLoop(fparams); \ Expression *e = new Str##Exp(0, ex1, ex2); \ return e; \ } X(Add) X(Min) X(Mul) X(Div) X(Mod) X(Xor) X(And) X(Or) #undef X