/* $Id$ */ /* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". */ /* I N L I N E S U B S T I T U T I O N */ #include #include #include #include #include #include #include #include "../share/types.h" #include "il.h" #include "../share/debug.h" #include "../share/alloc.h" #include "../share/global.h" #include "../share/lset.h" #include "../share/files.h" #include "../share/map.h" #include "il_aux.h" #include "il1_anal.h" #include "il1_aux.h" #include "il2_aux.h" #include "il3_change.h" #include "il3_subst.h" #include "../share/get.h" #include "../share/put.h" #include "../share/go.h" int calnr; int complete_program; calcnt_p cchead; /* call-count info of current proc */ STATIC long space = 0; STATIC long total_size = 0; STATIC char cname[128] = TMP_DIR; STATIC char ccname[128] = TMP_DIR; /* For debugging only */ STATIC char sname[128] = TMP_DIR; STATIC int kp_temps = 0; int Ssubst; #ifdef VERBOSE int Senv, Srecursive, Slocals, Sinstrlab, Sparsefails, Spremoved, Scals; int Sbig_caller, Sdispensable, Schangedcallee, Sbigcallee, Sspace, Szeroratio; #endif /* P A S S 1 * * Pass 1 reads and analyses the EM text and the CFG. * It determines for every procedure if it may be expanded * in line and how it uses its formal parameters. * It also collects all calls appearing in the program and * recognizes the actual parameters of every call. * The call descriptors are put in a file (calfile). */ STATIC void pass1(const char *lnam, const char *bnam, const char *cnam) { FILE* f, *gf, *cf, *ccf; /* The EM input, the basic block graph, * the call-list file and the calcnt file. */ long laddr; bblock_p g; short kind; line_p l; f = openfile(lnam, "r"); gf = openfile(bnam, "r"); cf = openfile(cnam, "w"); ccf = openfile(ccname, "w"); mesregs = Lempty_set(); apriori(fproc); /* use information from the procedure table to * see which calls certainly cannot be expanded. */ while (TRUE) { laddr = ftell(f); if (!getunit(gf, f, &kind, &g, &l, &curproc, TRUE)) break; /* Read the control flow graph and EM text of * one procedure and analyze it. */ if (kind == LDATA) { remunit(LDATA, (proc_p)0, l); continue; } OUTTRACE("flow graph of proc %d read", curproc->p_id); assert(INSTR(g->b_start) == ps_pro); curproc->p_start = g; curproc->P_LADDR = laddr; /* address of em text in em-file */ /* address of graph in basic block file */ curproc->P_SIZE = proclength(curproc); /* #instructions */ total_size += curproc->P_SIZE; if (BIG_PROC(curproc)) { /* curproc is too large to be expanded in line */ UNSUITABLE(curproc); } calnr = 0; anal_proc(curproc, cf, ccf); OUTTRACE("proc %d processed", curproc->p_id); remunit(LTEXT, curproc, (line_p)0); /* remove control flow graph + text */ OUTTRACE("graph of proc %d removed", curproc->p_id); Ldeleteset(mesregs); mesregs = Lempty_set(); } fclose(f); fclose(gf); fclose(cf); fclose(ccf); } /* P A S S 2 * * Pass 2 reads the calfile and determines which calls should * be expanded in line. It does not use the EM text. */ STATIC char cname2[128] = TMP_DIR; STATIC void pass2(const char *cnam, long space) { FILE* cf, *cf2, *ccf; call_p c, a; cf = openfile(cnam, "r"); cf2 = openfile(cname2, "w"); ccf = openfile(ccname, "r"); while ((c = getcall(cf)) != (call_p)0) { /* process all calls */ if (SUITABLE(c->cl_proc) && anal_params(c)) { /* called proc. may be put in line */ /* see which parameters may be put in line */ assign_ratio(c); /* assign a rank */ a = abstract(c); /* abstract essential info */ append_abstract(a, a->cl_caller); /* put it in call-list of calling proc. */ putcall(c, cf2, (short)0); } else { rem_call(c); } } select_calls(fproc, ccf, space); fclose(cf); if (!kp_temps) unlink(cnam); fclose(cf2); fclose(ccf); if (!kp_temps) unlink(ccname); cf2 = openfile(cname2, "r"); add_actuals(fproc, cf2); cleancals(fproc); /* remove calls that were not selected */ /* add actual parameters to each selected call */ fclose(cf2); if (!kp_temps) unlink(cname2); } /* P A S S 3 * * pass 3 reads the substitution file and performs all * substitutions described in that file. It reads the * original EM text and produced a new (optimized) * EM textfile. */ void pass3(const char *lnam, const char *lnam2) { bool verbose = TRUE; FILE* lfile, *lfilerand, *lfile2, *sfile; call_p c, next; line_p l, startscan, cal; short lastcid; /* last call-id seen */ lfile = openfile(lnam, "r"); lfilerand = openfile(lnam, "r"); lfile2 = openfile(lnam2, "w"); if (verbose) { sfile = openfile(sname, "w"); } mesregs = Lempty_set(); while ((l = get_text(lfile, &curproc)) != (line_p)0) { if (curproc == (proc_p)0) { /* Just a data-unit; no real instructions */ putlines(l->l_next, lfile2); oldline(l); continue; } if (IS_DISPENSABLE(curproc)) { liquidate(curproc, l->l_next); } else { startscan = l->l_next; lastcid = 0; for (c = curproc->P_CALS; c != (call_p)0; c = next) { next = c->cl_cdr; cal = scan_to_cal(startscan, c->cl_id - lastcid); assert(cal != (line_p)0); startscan = scan_to_cal(cal->l_next, 1); /* next CAL */ lastcid = c->cl_id; /* next CAL after current one */ substitute(lfilerand, c, cal, l->l_next); if (verbose) { putcall(c, sfile, 0); } else { rem_call(c); } } } putlines(l->l_next, lfile2); Ldeleteset(mesregs); mesregs = Lempty_set(); oldline(l); } fclose(lfile); fclose(lfile2); if (verbose) { fclose(sfile); if (!kp_temps) unlink(sname); } } STATIC void il_extptab(ptab) proc_p ptab; { /* Allocate space for extension of proctable entries. * Also, initialise some of the fields just allocated. */ register proc_p p; for (p = ptab; p != (proc_p)0; p = p->p_next) { p->p_extend = newilpx(); p->P_ORGLABELS = p->p_nrlabels; p->P_ORGLOCALS = p->p_localbytes; } } STATIC void il_cleanptab(ptab) proc_p ptab; { /* De-allocate space for extensions */ register proc_p p; for (p = ptab; p != (proc_p)0; p = p->p_next) { oldilpx(p->p_extend); } } #ifdef VERBOSE STATIC void Sdiagnostics() { /* print statictical information */ fprintf(stderr, "STATISTICS:\n"); fprintf(stderr, "Info about procedures:\n"); fprintf(stderr, "environment accessed: %d\n", Senv); fprintf(stderr, "recursive: %d\n", Srecursive); fprintf(stderr, "too many locals: %d\n", Slocals); fprintf(stderr, "instr. lab in data block: %d\n", Sinstrlab); fprintf(stderr, "procedures removed: %d\n", Spremoved); fprintf(stderr, "\nInfo about calls:\n"); fprintf(stderr, "total number of calls: %d\n", Scals); fprintf(stderr, "total number of calls substituted: %d\n", Ssubst); fprintf(stderr, "parser failed: %d\n", Sparsefails); fprintf(stderr, "caller too big: %d\n", Sbig_caller); fprintf(stderr, "caller dispensable: %d\n", Sdispensable); fprintf(stderr, "callee is changed: %d\n", Schangedcallee); fprintf(stderr, "callee too big: %d\n", Sbigcallee); fprintf(stderr, "no space available: %d\n", Sspace); fprintf(stderr, "zero ratio: %d\n", Szeroratio); } #endif void il_flags(void *vp) { char *p = vp; switch (*p++) { case 's': while (*p != '\0') { space = 10 * space + *p++ - '0'; } break; case 'a': complete_program = 1; break; case 't': strcpy(cname, "."); strcpy(ccname, "."); strcpy(sname, "."); strcpy(cname2, "."); kp_temps = 1; break; } } int main(argc, argv) int argc; char* argv[]; { struct files* files = findfiles(argc, argv); FILE* f; go(argc, argv, no_action, no_action, no_action, il_flags); il_extptab(fproc); /* add extended data structures */ strcat(cname, "/ego.i1.XXXXXX"); strcat(ccname, "/ego.i2.XXXXXX"); strcat(sname, "/ego.i3.XXXXXX"); strcat(cname2, "/ego.i4.XXXXXX"); close(mkstemp(cname)); close(mkstemp(ccname)); close(mkstemp(sname)); close(mkstemp(cname2)); pass1(files->lname_in, files->bname_in, cname); /* grep calls, analyse procedures */ space = total_size * space / 100; pass2(cname, space); /* select calls to be expanded */ pass3(files->lname_in, files->lname_out); /* do substitutions */ f = openfile(files->dname_out, "w"); il_cleanptab(fproc); /* remove extended data structures */ putdtable(fdblock, f); f = openfile(files->pname_out, "w"); putptable(fproc, f, FALSE); report("inline substitutions", Ssubst); #ifdef VERBOSE if (verbose_flag) { Sdiagnostics(); } #endif #ifdef DEBUG core_usage(); #endif exit(0); }