4 #define KID_REG(A) bnode->kids[A]->reg
5 #define KID_VAL(A) bnode->kids[A]->val
6 #define BN_REG bnode->reg
7 #define BN_VAL bnode->val
9 /* falls ein parameter auf der "leseseite" ist, soll das statt ein weiteres
10 * register verwendet werden */
11 #define KIDREG2PARM(A) if(bnode->kids[A]->param_index > -1) { bnode->kids[A]->reg = param_reg(bnode->kids[A]->param_index); }
19 void gen_e_eno(struct treenode *bnode, char *instr)
22 printf("\t%s %%%s, %%%s\n", instr, KID_REG(1), KID_REG(0));
25 void gen_e_imm(struct treenode *bnode, char *instr)
27 /* man kann sich ein move der konstante bei der multiplikation ersparen */
28 if(strcmp(instr, "imulq") == 0) {
29 printf("\timulq $%li, %%%s, %%%s\n", KID_VAL(1), KID_REG(0), BN_REG);
31 printf("\t%s $%li, %%%s\n", instr, KID_VAL(1), KID_REG(0));
32 move(KID_REG(0), BN_REG);
36 void gen_imm_eno(struct treenode *bnode, char *instr)
39 /* man kann sich ein move der konstante bei der multiplikation ersparen */
40 if(strcmp(instr, "imulq") == 0) {
41 printf("\timulq $%li, %%%s, %%%s\n", KID_VAL(0), KID_REG(1), BN_REG);
43 moveimm(KID_VAL(0), BN_REG);
44 printf("\t%s %%%s, %%%s\n", instr, KID_REG(1), BN_REG);
48 void gen_eqless_footer(struct treenode *bnode, char *op)
50 printf("\tset%s %%%s\n", op, reg_64to8l(BN_REG));
51 printf("\tand $1, %%%s\n", BN_REG);
54 void gen_eqless_ee(struct treenode *bnode, char *op)
56 printf("\t//gen_eqless_ee\n");
62 printf("\tcmp %%%s, %%%s\n", KID_REG(1), KID_REG(0));
64 gen_eqless_footer(bnode, op);
67 void gen_eqless_ei(struct treenode *bnode, char *op)
69 printf("\t//gen_eqless_ei\n");
74 printf("\tcmp $%li, %%%s\n", KID_VAL(1), KID_REG(0));
76 gen_eqless_footer(bnode, op);
79 void gen_eqless_ie(struct treenode *bnode, char *op)
81 printf("\t//gen_eqless_ie\n");
82 if(strcmp("e", op) == 0) {
83 printf("\tcmp $%li, %%%s\n", KID_VAL(0), KID_REG(1));
84 gen_eqless_footer(bnode, op);
86 moveimm(KID_VAL(0), BN_REG);
87 printf("\tcmp %%%s, %%%s\n", KID_REG(1), BN_REG);
89 gen_eqless_footer(bnode, op);
96 %term O_RET=1 O_NOT=2 O_SUB=3 O_MUL=4 O_OR=5 O_LESS=6 O_EQ=7 O_ID=8 O_ADD=9 O_NUM=10 O_FIELD=11
100 begin: ret # 0 # printf("\n");
101 ret: O_RET(expr) # 2 # move(BN_REG, "rax"); func_footer();
103 expr: O_ID # 1 # if(bnode->param_index > -1) move(param_reg(bnode->param_index), BN_REG);
104 expr: imm # 1 # moveimm(BN_VAL, BN_REG);
106 expr: O_SUB(expr,exprno) # 1 # gen_e_eno(bnode, "subq");
107 expr: O_SUB(expr,imm) # 2 # gen_e_imm(bnode, "subq");
108 expr: O_SUB(imm,exprno) # 2 # gen_imm_eno(bnode, "subq");
110 expr: O_ADD(expr,exprno) # 1 # gen_e_eno(bnode, "addq");
111 expr: O_ADD(imm,expr) # 2 # gen_e_imm(bnode, "addq");
113 expr: O_MUL(expr,exprno) # 1 # gen_e_eno(bnode, "imulq");
114 expr: O_MUL(expr,imm) # 1 # gen_e_imm(bnode, "imulq");
115 expr: O_MUL(imm,exprno) # 1 # gen_imm_eno(bnode, "imulq");
117 expr: O_OR(expr,exprno) # 1 # gen_e_eno(bnode, "orq");
118 expr: O_OR(expr,imm) # 2 # gen_e_imm(bnode, "orq");
120 expr: O_LESS(expr,expr) # 5 # gen_eqless_ee(bnode, "l");
121 expr: O_LESS(expr,imm) # 5 # gen_eqless_ei(bnode, "l");
122 expr: O_LESS(imm,expr) # 6 # gen_eqless_ie(bnode, "l");
124 expr: O_EQ(expr,expr) # 5 # gen_eqless_ee(bnode, "e");
125 expr: O_EQ(expr,imm) # 5 # gen_eqless_ei(bnode, "e");
126 expr: O_EQ(imm,expr) # 5 # gen_eqless_ie(bnode, "e");
128 expr: O_FIELD(exprno) # 1 # KIDREG2PARM(0); printf("\tmovq %li(%%%s), %%%s\n", bnode->soffset * 8, KID_REG(0), BN_REG);
131 exprno: O_ID # 0 # /* brauchen wir nicht 'zwischenlagern', weil nur gelesen wird */
135 imm: O_ADD(imm,imm) # 0 # BN_VAL = KID_VAL(0) + KID_VAL(1);
136 imm: O_SUB(imm,imm) # 0 # BN_VAL = KID_VAL(0) - KID_VAL(1);
137 imm: O_MUL(imm,imm) # 0 # BN_VAL = KID_VAL(0) * KID_VAL(1);
138 imm: O_LESS(imm,imm) # 0 # BN_VAL = KID_VAL(0) < KID_VAL(1) ? 1 : 0;
139 imm: O_EQ(imm,imm) # 0 # BN_VAL = KID_VAL(0) = KID_VAL(1) ? 1 : 0;
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