ref: f55a034c33fd1a5b6b35f78abeef23741cb6f65f
dir: /src/cmd/cc/cc2/target/z80-scc/cgen.c/
#include <stdlib.h> #include <scc/scc.h> #include "arch.h" #include "../../cc2.h" static void swtch(Node *idx) { } static Node * rhs(Node *np, Node *ret) { } static Node * field(Node *np, Node *ret, int islhs) { } static Node * lhs(Node *np, Node *new) { switch (np->op) { case OMEM: case OAUTO: *new = *np; return new; case OPTR: return rhs(np->left, new); case OFIELD: return field(np, new, 1); default: abort(); } } static void bool(Node *np, Symbol *true, Symbol *false) { Node *l = np->left, *r = np->right; Node ret, ifyes, ifno; Symbol *label; switch (np->op) { case ONEG: bool(l, false, true); break; case OAND: label = newlabel(); bool(l, label, false); setlabel(label); bool(r, true, false); break; case OOR: label = newlabel(); bool(l, true, label); setlabel(label); bool(r, true, false); break; default: label2node(&ifyes, true); label2node(&ifno, false); code(ASBRANCH, rhs(np, &ret), &ifyes, &ifno); break; } } Node * cgen(Node *np) { Node aux, *p, *next; setlabel(np->label); switch (np->op) { case OJMP: label2node(&aux, np->u.sym); code(ASJMP, NULL, &aux, NULL); break; case OBRANCH: next = np->next; if (!next->label) next->label = newlabel(); bool(np->left, np->u.sym, next->label); break; case ORET: p = np->left; if (p) p = rhs(np->left, &aux); code(ASRET, NULL, p, NULL); break; case OBSWITCH: swtch(rhs(np->left, &aux)); break; default: rhs(np, &aux); break; } return NULL; } /* * This is strongly influenced by * http://plan9.bell-labs.com/sys/doc/compiler.ps (/sys/doc/compiler.ps) * calculate addresability as follows * AUTO => 11 value+fp * REG => 13 reg * STATIC => 12 (value) * CONST => 20 $value */ Node * sethi(Node *np) { Node *lp, *rp; if (!np) return np; np->complex = 0; np->address = 0; lp = np->left; rp = np->right; switch (np->op) { case OAUTO: np->address = 11; break; case OREG: np->address = 13; break; case OMEM: np->address = 12; break; case OCONST: np->address = 20; break; default: sethi(lp); sethi(rp); break; } if (np->address > 10) return np; if (lp) np->complex = lp->complex; if (rp) { int d = np->complex - rp->complex; if (d == 0) ++np->complex; else if (d < 0) np->complex = rp->complex; } if (np->complex == 0) ++np->complex; return np; }