X-Git-Url: http://wien.tomnetworks.com/gitweb/?p=uebersetzerbau-ss10.git;a=blobdiff_plain;f=gesamt_arm64%2Fcode.bfe;fp=gesamt_arm64%2Fcode.bfe;h=05bd2157837995e32c5581d112d2bd3998eb35a8;hp=0000000000000000000000000000000000000000;hb=30fddf13814e2f0b621aae4d3ec0453abfb7e46e;hpb=97bf6d78677024d70acf0de60d60f70c29286232 diff --git a/gesamt_arm64/code.bfe b/gesamt_arm64/code.bfe new file mode 100644 index 0000000..05bd215 --- /dev/null +++ b/gesamt_arm64/code.bfe @@ -0,0 +1,375 @@ +%{ +#define BFEHAX + +/* macros zum registerzugriff bei kinder */ +#define KID_REG(A) bnode->kids[A]->reg +#define KIDKID_REG(A,B) bnode->kids[A]->kids[B]->reg +#define KIDKIDKID_REG(A,B,C) bnode->kids[A]->kids[B]->kids[C]->reg + +/* macros zum wertezugriff bei kindern */ +#define KID_VAL(A) bnode->kids[A]->val +#define KIDKID_VAL(A,B) bnode->kids[A]->kids[B]->val +#define KIDKIDKID_VAL(A,B,C) bnode->kids[A]->kids[B]->kids[C]->val + +#define KID_PARM(A) bnode->kids[A]->param_index +#define KIDKID_PARM(A,B) bnode->kids[A]->kids[B]->param_index +#define KIDKIDKID_PARM(A,B,C) bnode->kids[A]->kids[B]->kids[C]->param_index + +/* macros zum zugriff des aktuellen knotens */ +#define BN_REG bnode->reg +#define BN_VAL bnode->val + +/* wenn sich ein parameter auf der "leseseite" (also links bei at&t syntax) + * befindet, dann soll dieses register verwendet werden */ +#define KIDREG2PARM(A) if(bnode->kids[A]->param_index > -1) { bnode->kids[A]->reg = param_reg(bnode->kids[A]->param_index); } +#define KIDKIDREG2PARM(A,B) if(bnode->kids[A]->kids[B]->param_index > -1) { bnode->kids[A]->kids[B]->reg = param_reg(bnode->kids[A]->kids[B]->param_index); } +#define KIDKIDKIDREG2PARM(A,B,C) if(bnode->kids[A]->kids[B]->kids[C]->param_index > -1) { bnode->kids[A]->kids[B]->kids[C]->reg = param_reg(bnode->kids[A]->kids[B]->kids[C]->param_index); } + +/* wenn sich ein parameter auf der "schreibeseite" befindet (also rechts bei + * at&t syntax), dann muss es vorher in ein temporaeres register gemovt werden */ +#define KIDREG2ID(A) if(bnode->kids[A]->op == O_ID && bnode->kids[A]->param_index > -1) move(param_reg(bnode->kids[A]->param_index), bnode->kids[A]->reg); + +#include +#include +#include +#include "tree.h" +#include "chelper.h" + +void gen_e_eno(struct treenode *bnode, char *instr) +{ + printf("\t@ gen_e_eno(%s)\n", instr); + KIDREG2PARM(0); + KIDREG2PARM(1); + printf("\t%s %s, %s, %s\n", instr, BN_REG, KID_REG(0), KID_REG(1)); +} + +void gen_id_eno(struct treenode *bnode) +{ + printf("\t@gen_id_eno\n"); + KIDKIDREG2PARM(1,0); + KIDKIDREG2PARM(1,1); + KIDREG2PARM(0); + + printf("\tsub %s,%s,%s\n", BN_REG, KID_REG(0), KIDKID_REG(1,1)); + printf("\tsub %s,%s,%s\n", BN_REG, BN_REG, KIDKID_REG(1,0)); +} + +void gen_e_imm(struct treenode *bnode, char *instr) +{ + printf("\t@gen_e_imm(%s)\n", instr); + KIDREG2PARM(0); + KIDREG2ID(1); + /* man kann sich ein move der konstante bei der multiplikation ersparen */ + if(strcmp(instr, "mullw") == 0) { + if(KID_VAL(1) == 1 && strcmp(KID_REG(0), BN_REG) == 0) { + printf("\t@multiplikation mit 1 wegoptimiert\n"); + } else { + if(KID_VAL(1) > (65536)-1 || KID_VAL(1) < -65536) { + moveimm(KID_VAL(1), next_reg(BN_REG,0)); + printf("\tmul %s, %s, %s\n", BN_REG, KID_REG(0), next_reg(BN_REG,0)); + } else { + printf("\tmul %s, %s, #%d\n", BN_REG, KID_REG(0), KID_VAL(1)); + } + } + } else { + if(strcmp(instr, "sub") == 0 && KID_VAL(1) == 0) { + printf("\t@subtraktion mit 0 wegoptimiert\n"); + move(KID_REG(0), BN_REG); + } else { + if(KID_VAL(1) > (65536)-1 || KID_VAL(1) < -65536) { + moveimm(KID_VAL(1), next_reg(BN_REG,0)); + printf("\t%s %s, %s, %s\n", instr, BN_REG, KID_REG(0), next_reg(BN_REG,0)); + } else { + printf("\t%s %s, %s, #%d\n", instr, BN_REG, KID_REG(0), KID_VAL(1)); + } + } + } +} + +void gen_imm_eno(struct treenode *bnode, char *instr) +{ + printf("\t@gen_imm_eno(%s)\n", instr); + KIDREG2ID(0); + KIDREG2PARM(1); + /* man kann sich ein move der konstante bei der multiplikation ersparen */ + if(strcmp(instr, "mul") == 0) { + if(KID_VAL(0) == 1 && strcmp(KID_REG(1), BN_REG) == 0) { + printf("\t@multiplikation mit 1 wegoptimiert\n"); + } else { + if(KID_VAL(0) > (65536)-1 || KID_VAL(0) < -65536) { + moveimm(KID_VAL(0), next_reg(BN_REG,0)); + printf("\tmul %s, %s, %s\n", BN_REG, KID_REG(1), next_reg(BN_REG,0)); + } else { + printf("\tmul %s, %s, #%d\n", BN_REG, KID_REG(1), KID_VAL(0)); + } + } + } else { /* addq */ + /* TODO: imm check einbauen */ + printf("\tadd %s, %s, #%d\n", BN_REG, KID_REG(1), KID_VAL(0)); + } +} + +void gen_eqless(struct treenode *bnode, char *op, short e0, short e1, short deep) +{ + printf("\t@gen_eqless_%i%i @ %i (op: %s)\n", e0, e1, deep, op); + if(e0) { KIDREG2PARM(0); } else { moveimm(KID_VAL(0), BN_REG); } + if(e1) { KIDREG2PARM(1); } + if(strcmp(op,"e")==0 && bnode->kids[1]->op == O_NULL) { + /* not */ + printf("\tcmp %s, #0\n", KID_REG(0)); + printf("\tmoveq %s, #1\n", BN_REG); + printf("\tmovne %s, #0\n", BN_REG); + } else { + if(!e1) { + moveimm(KID_VAL(1), KID_REG(1)); + } + if(strcmp(op, "e")==0) { + /* eq */ + printf("\tcmp %s,%s\n", KID_REG(0), KID_REG(1)); + printf("\tmoveq %s, #1\n", BN_REG); + printf("\tmovne %s, #0\n", BN_REG); + } else if(strcmp(op, "l")==0 || strcmp(op, "g")==0) { + /* less */ + printf("\tcmp %s, %s\n", KID_REG(1), KID_REG(0)); + printf("\tmovle %s, #0\n", BN_REG); + printf("\tmovgt %s, #1\n", BN_REG); + } + } +} + +void gen_subspecial(struct treenode *bnode, short e) +{ + /* tritt z.b. bei snafu_05.0 auf */ + printf("\t@gen_subspecial(%i)\n", e); + KIDREG2ID(0); + KIDKIDREG2PARM(1,0); + + /* TODO: Loong@ codea_snafu_03.0 */ + + if(e) { + if(KIDKID_VAL(1,0) != 0) { + printf("\tsubi %s,%s,%d\n", BN_REG, BN_REG, KIDKID_VAL(1,0)); + } + } else { + printf("\tsub %s,%s,%s\n", BN_REG, BN_REG, KIDKID_REG(1,0)); + } + if(e) KIDKIDREG2PARM(1,1); + printf("\tadd %s,%s,%s\n", BN_REG, BN_REG, KIDKID_REG(1,1)); +} + +void assign_var(struct treenode *bnode) +{ + printf("\t@assign_var\n"); + KIDREG2PARM(1); + if (strcmp(bnode->kids[0]->kids[0]->name, bnode->kids[1]->name) != 0) { + KIDKIDREG2PARM(0,0); + printf("\tmr %s,%s\n", KID_REG(1), KIDKID_REG(0,0)); + } /*else: x := x - 1 geht in einem befehl */ + printf("\tsubi %s,%s,%d\n", KID_REG(1), KID_REG(1), KIDKID_VAL(0,1)); +} + +/* ... dirty */ +static short sc[8] = {0}; +void make_call(struct treenode *bnode) +{ + int j; + printf("\t@params pushen\n"); + for(j = 0; j < bnode->soffset; j++) { + if(sc[j] == 1) { + printf("\tlwz 20,%d(1)\n", j*4); + printf("\tstw %s,%d(1)\n", param_reg(j), j*4); + printf("\tmr %s,20\n", param_reg(j)); + } else if (sc[j] == 0) { + printf("\tstw %s,%d(1)\n", param_reg(j), j*4); + } + } + printf("\t@vars pushen\n"); + for(j = bnode->soffset; j < bnode->soffset + bnode->vars; j++) { + printf("\tstw %s,%d(1)\n", param_reg(j), j*4); + } + + /* TODO: schoener machen... */ + if(strcmp(BN_REG, "14")!=0) { + printf("\t@tmp register pushen\n"); + printf("\tstw 14,52(1)\n"); + if(strcmp(BN_REG, "15")!=0) { + printf("\tstw 15,56(1)\n"); + if(strcmp(BN_REG, "16")!=0) { + printf("\tstw 16,60(1)\n"); + } + } + } + + printf("\tbl %s\n", bnode->name); + move("r0", BN_REG); + + if(strcmp(BN_REG, "14")!=0) { + printf("\t@tmp register poppen\n"); + if(strcmp(BN_REG, "15")!=0) { + if(strcmp(BN_REG, "16")!=0) { + printf("\tlwz 16,60(1)\n"); + } + printf("\tlwz 15,56(1)\n"); + } + printf("\tlwz 14,52(1)\n"); + } + + printf("\t@vars poppen\n"); + for(j = bnode->soffset + bnode->vars - 1; j > bnode->soffset - 1; j--) { + printf("\tlwz %s,%d(1)\n", param_reg(j), j*4); + } + + printf("\t@params poppen\n"); + for(j = bnode->soffset - 1; j >= 0; j--) { + if(sc[j] == 0) + printf("\tlwz %s,%d(1)\n", param_reg(j), j*4); + } + for(j = 0; j < bnode->soffset; j++) { + if(sc[j] > 0) + printf("\tlwz %s,%d(1)\n", param_reg(j), j*4); + } + + /* clear stack control array */ + for(j = 0; j < sizeof sc / sizeof sc[0]; j++) + sc[j] = 0; +} + +void prep_arg(struct treenode *bnode, int moveit) +{ + printf("\t@args-nr-> %i (%%%s) [moveit= %i]\n", bnode->soffset, param_reg(bnode->soffset), moveit); + sc[bnode->soffset] = 1; + if(moveit) { /* expr */ + if((BN_REG == (char *) NULL) || (bnode->kids[1] != TREENULL && bnode->kids[1]->op == O_ID && bnode->kids[1]->kids[0] == TREENULL && bnode->kids[1]->kids[1] == TREENULL)) { + if(bnode->kids[1]->name != (char *) NULL && strcmp(bnode->kids[1]->name,"this")!=0) { + KIDREG2PARM(1); + printf("\tstw %s,%d(1)\n", KID_REG(1),bnode->soffset*4); + } else { + printf("\tstw %s,%d(1)\n", param_reg(bnode->soffset), bnode->soffset*4); + sc[bnode->soffset] = 2; + } + } else { + printf("\tstw %s,%d(1)\n", BN_REG, bnode->soffset*4); + } + } else { /* just O_ID */ + KIDREG2PARM(0); + printf("\tstw %s,%d(1)\n", KID_REG(0), bnode->soffset*4); + } +} + +void field_lolbfefail(struct treenode *bnode) +{ + printf("\t@ field(expr)\n"); + KIDREG2PARM(0); + printf("\tldr %s, [%s, #%d]\n", BN_REG, KID_REG(0), bnode->soffset * 4); +} + +void field_lolbfefail_imm(struct treenode *bnode) +{ + printf("\t@ field(imm)\n"); + moveimm(KID_VAL(0), BN_REG); + printf("\tlwz %s, [%s, #%d]\n", BN_REG, BN_REG, bnode->soffset * 4); +} + +%} + +%start begin +%term O_RET=1 O_NULL=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 O_MTWO=12 O_MFOUR=13 O_MEIGHT=14 O_MONE=15 O_ASSIGN=16 O_IF=17 O_BOOL=18 O_CALL=19 O_ARG=20 O_NOTHING=21 O_EXPR=22 + +%% + +begin: ret # 0 # +begin: assign # 0 # +begin: ifstat # 0 # +begin: args # 0 # + + +assign: O_ASSIGN(expr, O_ID) # 1 # KIDREG2PARM(1); printf("\tmr %s,%s\n", KID_REG(1), BN_REG); +assign: O_ASSIGN(imm, O_ID) # 1 # KIDREG2PARM(1); moveimm(KID_VAL(0), KID_REG(1)); +assign: O_ASSIGN(O_ID, O_ID) # 1 # KIDREG2PARM(1); KIDREG2PARM(0); printf("\tmr %s,%s\n", KID_REG(1), KID_REG(0)); + +assign: O_ASSIGN(O_SUB(O_ID,O_NUM), O_ID) # 1 # assign_var(bnode); + +assign: O_ASSIGN(expr, O_FIELD(expr)) # 1 # KIDKIDREG2PARM(1,0); printf("\tstw %s,%d(%s)\n", BN_REG, bnode->kids[1]->soffset * 4, KIDKID_REG(1,0)); +assign: O_ASSIGN(O_ID, O_FIELD(expr)) # 1 # KIDREG2PARM(0); KIDKIDREG2PARM(1,0); printf("\tstw %s,%d(%s)\n", KID_REG(0), bnode->kids[1]->soffset * 4, KIDKID_REG(1,0)); + + +ifstat: O_IF(O_ID) # 1 # /* fuer faelle wie "if bla then" noetig */ KIDREG2PARM(0); printf("\tcmpwi %s,0\n", KID_REG(0)); +ifstat: O_IF(O_BOOL(imm)) # 1 # printf("\tcmpwi %s,0\n", BN_REG); +ifstat: O_IF(expr) # 2 # /* iburg beschummeln :/ */ printf("\tcmpwi %s,0\n", BN_REG); +ifstat: O_IF(O_BOOL(expr)) # 1 # /* dann braucht man kein test */ + + +ret: O_RET(retexpr) # 2 # printf("\t@ o_ret(expr)\n"); move(BN_REG, "r0"); +ret: O_EXPR(expr) # 0 # + +retexpr: O_ID # 1 # printf("\t@*retexpr*/\n"); if(bnode->param_index > -1) move(param_reg(bnode->param_index), BN_REG); +retexpr: expr + + +expr: O_ID # 0 # +expr: imm # 1 # moveimm(BN_VAL, BN_REG); +expr: O_BOOL(expr) # 0 # + +expr: O_CALL(expr) # 0 # make_call(bnode); +expr: O_ARG(expr,expr) # 1 # prep_arg(bnode, 1); +expr: O_ARG(O_ID,expr) # 1 # prep_arg(bnode, 0); +expr: O_NOTHING # 0 # + +expr: O_SUB(expr,expr) # 2 # gen_e_eno(bnode, "sub"); +expr: O_SUB(expr,imm) # 1 # gen_e_imm(bnode, "sub"); + +expr: O_SUB(expr,O_SUB(O_ID,expr)) # 2 # gen_subspecial(bnode, 0); +expr: O_SUB(expr,O_SUB(imm,expr)) # 2 # gen_subspecial(bnode, 1); + +expr: O_SUB(expr, O_ADD(O_ID,expr)) # 1 # gen_id_eno(bnode); + + +expr: O_ADD(expr,expr) # 1 # gen_e_eno(bnode, "add"); +expr: O_ADD(expr,imm) # 1 # gen_e_imm(bnode, "add"); +expr: O_ADD(imm,expr) # 1 # gen_imm_eno(bnode, "add"); + + +expr: O_MUL(expr,expr) # 1 # gen_e_eno(bnode, "mul"); +expr: O_MUL(expr,imm) # 1 # gen_e_imm(bnode, "mul"); +expr: O_MUL(imm,expr) # 1 # gen_imm_eno(bnode, "mul"); + + +expr: O_OR(expr,expr) # 1 # gen_e_eno(bnode, "orr"); +expr: O_OR(expr,imm) # 2 # gen_e_imm(bnode, "orr"); + + +expr: O_LESS(expr,expr) # 3 # gen_eqless(bnode, "l", 1, 1, 0); +expr: O_LESS(expr,imm) # 3 # gen_eqless(bnode, "l", 1, 0, 0); +expr: O_LESS(imm,expr) # 3 # gen_eqless(bnode, "g", 0, 1, 0); + + +expr: O_EQ(expr,expr) # 3 # gen_eqless(bnode, "e", 1, 1, 0); +expr: O_EQ(expr,imm) # 3 # gen_eqless(bnode, "e", 1, 0, 0); +expr: O_EQ(imm,expr) # 3 # gen_eqless(bnode, "e", 0, 1, 0); +expr: O_EQ(expr,O_NULL) # 3 # gen_eqless(bnode, "e", 1, 0, 0); + +expr: O_EQ(O_EQ(expr,O_NULL),O_NULL) # 3 # gen_eqless(bnode, "ne", 1, 0, 1); +expr: O_EQ(O_EQ(O_EQ(expr,O_NULL),O_NULL),O_NULL) # 3 # gen_eqless(bnode, "e", 1, 0, 2); + + +expr: O_FIELD(expr) # 1 # field_lolbfefail(bnode); +expr: O_FIELD(imm) # 1 # field_lolbfefail_imm(bnode); + + +imm: O_ADD(imm,imm) # 0 # BN_VAL = KID_VAL(0) + KID_VAL(1); +imm: O_SUB(imm,imm) # 0 # BN_VAL = KID_VAL(0) - KID_VAL(1); +imm: O_MUL(imm,imm) # 0 # BN_VAL = KID_VAL(0) * KID_VAL(1); +imm: O_LESS(imm,imm) # 0 # BN_VAL = KID_VAL(0) < KID_VAL(1) ? 1 : 0; +imm: O_EQ(imm,imm) # 0 # BN_VAL = KID_VAL(0) == KID_VAL(1) ? 1 : 0; +imm: O_OR(imm,imm) # 0 # BN_VAL = KID_VAL(0) | KID_VAL(1); +imm: O_NUM # 0 # +imm: O_MONE # 0 # +imm: O_MTWO # 0 # +imm: O_MFOUR # 0 # +imm: O_MEIGHT # 0 # +imm: O_NULL # 0 # + +%% + +/* vim: filetype=c + */