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llvm-mirror/utils/Burg/sample.gr
Chris Lattner 1e1215d0d7 Move support/tools/* back into utils
llvm-svn: 8875
2003-10-05 19:27:59 +00:00

151 lines
3.1 KiB
Plaintext

%{
#include <stdio.h>
typedef struct node *NODEPTR_TYPE;
struct node {
int op, state_label;
NODEPTR_TYPE left, right;
};
#define OP_LABEL(p) ((p)->op)
#define STATE_LABEL(p) ((p)->state_label)
#define LEFT_CHILD(p) ((p)->left)
#define RIGHT_CHILD(p) ((p)->right)
#define PANIC printf
%}
%start reg
%term Assign=1 Constant=2 Fetch=3 Four=4 Mul=5 Plus=6
%%
con: Constant = 1 (0);
con: Four = 2 (0);
addr: con = 3 (0);
addr: Plus(con,reg) = 4 (0);
addr: Plus(con,Mul(Four,reg)) = 5 (0);
reg: Fetch(addr) = 6 (1);
reg: Assign(addr,reg) = 7 (1);
%%
#define Assign 1
#define Constant 2
#define Fetch 3
#define Four 4
#define Mul 5
#define Plus 6
#ifdef __STDC__
#define ARGS(x) x
#else
#define ARGS(x) ()
#endif
NODEPTR_TYPE buildtree ARGS((int, NODEPTR_TYPE, NODEPTR_TYPE));
void printcover ARGS((NODEPTR_TYPE, int, int));
void printtree ARGS((NODEPTR_TYPE));
int treecost ARGS((NODEPTR_TYPE, int, int));
void printMatches ARGS((NODEPTR_TYPE));
int main ARGS((void));
NODEPTR_TYPE buildtree(op, left, right) int op; NODEPTR_TYPE left; NODEPTR_TYPE right; {
NODEPTR_TYPE p;
extern void *malloc ARGS((unsigned));
p = (NODEPTR_TYPE) malloc(sizeof *p);
p->op = op;
p->left = left;
p->right = right;
return p;
}
void printcover(p, goalnt, indent) NODEPTR_TYPE p; int goalnt; int indent; {
int eruleno = burm_rule(STATE_LABEL(p), goalnt);
short *nts = burm_nts[eruleno];
NODEPTR_TYPE kids[10];
int i;
if (eruleno == 0) {
printf("no cover\n");
return;
}
for (i = 0; i < indent; i++)
printf(".");
printf("%s\n", burm_string[eruleno]);
burm_kids(p, eruleno, kids);
for (i = 0; nts[i]; i++)
printcover(kids[i], nts[i], indent+1);
}
void printtree(p) NODEPTR_TYPE p; {
int op = burm_op_label(p);
printf("%s", burm_opname[op]);
switch (burm_arity[op]) {
case 0:
break;
case 1:
printf("(");
printtree(burm_child(p, 0));
printf(")");
break;
case 2:
printf("(");
printtree(burm_child(p, 0));
printf(", ");
printtree(burm_child(p, 1));
printf(")");
break;
}
}
int treecost(p, goalnt, costindex) NODEPTR_TYPE p; int goalnt; int costindex; {
int eruleno = burm_rule(STATE_LABEL(p), goalnt);
int cost = burm_cost[eruleno][costindex], i;
short *nts = burm_nts[eruleno];
NODEPTR_TYPE kids[10];
burm_kids(p, eruleno, kids);
for (i = 0; nts[i]; i++)
cost += treecost(kids[i], nts[i], costindex);
return cost;
}
void printMatches(p) NODEPTR_TYPE p; {
int nt;
int eruleno;
printf("Node 0x%lx= ", (unsigned long)p);
printtree(p);
printf(" matched rules:\n");
for (nt = 1; burm_ntname[nt] != (char*)NULL; nt++)
if ((eruleno = burm_rule(STATE_LABEL(p), nt)) != 0)
printf("\t%s\n", burm_string[eruleno]);
}
main() {
NODEPTR_TYPE p;
p = buildtree(Assign,
buildtree(Constant, 0, 0),
buildtree(Fetch,
buildtree(Plus,
buildtree(Constant, 0, 0),
buildtree(Mul,
buildtree(Four, 0, 0),
buildtree(Fetch, buildtree(Constant, 0, 0), 0)
)
),
0
)
);
printtree(p);
printf("\n\n");
burm_label(p);
printcover(p, 1, 0);
printf("\nCover cost == %d\n\n", treecost(p, 1, 0));
printMatches(p);
return 0;
}