ref: 4e83633b055cf9d8b411994d3ceb27d6341c34cf
dir: /cc2/cgen.c/
#include <assert.h> #include <stdarg.h> #include <stdint.h> #include <stdlib.h> #include <cc.h> #include "cc2.h" #include <stdio.h> /* TODO: Change emit to code */ enum { PUSH, POP, LD, ADD, RET, ADDI, LDI, ADDR, ADDX, ADCX, LDX, LDFX }; enum { A = 1, B, C, D, E, H, L, IYL, IYH, NREGS, IXL, IXH, F, I, SP, AF, HL, DE, BC, IX, IY }; static char *opnames[] = { [PUSH] = "PUSH", [POP] = "POP", [LD] = "LD", [ADD] = "ADD", [RET] = "RET" , [ADDI]= "ADD", [LDI] = "LD", [ADDX] = "ADD", [ADCX] = "ADC" , [LDX] = "LD" , [LDFX] = "LD" }; static char *regnames[] = { [AF] = "AF", [HL] = "HL", [DE] = "DE", [BC] = "BC", [IX] = "IX", [IY] = "IY", [SP] = "SP", [A] = "A", [F] = "F", [B] = "B", [C] = "C", [D] = "D", [E] = "E", [H] = "H", [L] = "L", [IXL]= "IXL",[IXH]= "IXH",[IYL]= "IYL",[IYH]= "IYH", [I] = "I" }; static bool reguse[NREGS]; static char upper[] = {[DE] = D, [HL] = H, [BC] = B, [IX] = IXH, [IY] = IYH}; static char lower[] = {[DE] = E, [HL] = L, [BC] = C, [IX] = IXL, [IY] = IYL}; void emit(char op, ...) { va_list va; uint8_t reg1, reg2; TINT imm; short off; char *label; va_start(va, op); switch (op) { case RET: printf("\t%s\n", opnames[op]); break; case PUSH: case POP: reg1 = va_arg(va, int); printf("\t%s\t%s\n", opnames[op], regnames[reg1]); break; case ADD: case LD: reg1 = va_arg(va, int); reg2 = va_arg(va, int); printf("\t%s\t%s,%s\n", opnames[op], regnames[reg1], regnames[reg2]); break; case ADDI: case LDI: reg1 = va_arg(va, int); imm = va_arg(va, int); printf("\t%s\t%s,%d\n", opnames[op], regnames[reg1], imm); break; case LDFX: reg1 = va_arg(va, int); reg2 = va_arg(va, int); off = va_arg(va, int); printf("\t%s\t%s,(%s%+d)\n", opnames[op], regnames[reg1], regnames[reg2], off); break; case LDX: reg1 = va_arg(va, int); off = va_arg(va, int); reg2 = va_arg(va, int); printf("\t%s\t(%s%+d),%s\n", opnames[op], regnames[reg1], off, regnames[reg2]); break; case ADDX: case ADCX: reg1 = va_arg(va, int); reg2 = va_arg(va, int); off = va_arg(va, int); printf("\t%s\t%s,(%s%+d)\n", opnames[op], regnames[reg1], regnames[reg2], off); break; case ADDR: label = va_arg(va, char *); printf("%s:\n", label); break; } va_end(va); } static char allocreg(Node *np) { char reg8[] = {A, B, C, D, E, H, L, IYL, IY, 0}; char reg16[] = {BC, HL, DE, IY, 0}; char *bp, c; switch (np->type->size) { case 1: for (bp = reg8; (c = *bp); ++bp) { if (reguse[c]) continue; reguse[c] = 1; return c; } /* TODO: Move variable to stack using PUSH/POP */ break; case 2: for (bp = reg16; (c = *bp); ++bp) { char u = upper[c], l = lower[c]; if (reguse[u] || reguse[l]) continue; reguse[l] = 1; reguse[u]; return c; } /* TODO: Move variable to stack using PUSH/POP */ break; } abort(); } static void move(Node *np) { Type *tp = np->type; Symbol *sym; char reg; reg = allocreg(np); switch (np->op) { case AUTO: sym = np->u.sym; switch (tp->size) { case 1: emit(LDFX, reg, IX, sym->u.v.off); break; case 2: emit(LDFX, lower[reg], IX, sym->u.v.off); emit(LDFX, upper[reg], IX, sym->u.v.off+1); break; case 4: case 8: default: abort(); } break; default: abort(); } /* TODO: Update symbol if necessary */ np->op = REG; np->u.reg = reg; } static void conmute(Node *np) { Node *p, *q; p = np->left; q = np->right; np->left = q; np->right = p; } static void cgen(Node *np) { Node *lp, *rp; TINT imm; if (!np) return; lp = np->left; rp = np->right; if (np->addable >= ADDABLE) { move(np); return; } if (!lp) { cgen(rp); } else if (!rp) { cgen(lp); } else { Node *p, *q; if (lp->complex > rp->complex) p = lp, q = rp; else p = rp, q = lp; cgen(p); cgen(q); } assert(lp && lp->op == REG || rp && rp->op == REG); switch (np->op) { case OADD: switch (np->type->size) { case 1: if (rp->u.reg == A) { conmute(np); lp = np->left; rp = np->right; } else if (lp->u.reg != A) { /* TODO: Move A to variable */ emit(PUSH, AF); emit(LD, A, lp->u.reg); } emit(ADD, A, rp->u.reg); break; case 2: if (rp->u.reg == HL || rp->u.reg == IY) { conmute(np); lp = np->left; rp = np->right; } else if (lp->u.reg != HL && lp->u.reg != IY) { /* TODO: Move HL to variable */ emit(PUSH, HL); emit(LD, H, upper[lp->u.reg]); emit(LD, L, lower[lp->u.reg]); } emit(ADD, lp->u.reg, rp->u.reg); break; case 4: case 8: abort(); } break; default: abort(); } } void generate(Symbol *sym, Node *list[]) { extern char odebug; Node *np; char frame = sym->u.f.locals != 0 || odebug; emit(ADDR, sym->name); if (frame) { emit(PUSH, IX); emit(LD, IX, SP); emit(LDI, HL, -sym->u.f.locals); emit(ADD, HL, SP); emit(LD, SP, HL); } while (np = *list++) cgen(np); if (frame) { emit(LD, SP, IX); emit(POP, IX); emit(RET); } } /* * calculate addresability as follows * AUTO => 11 value+fp * REGISTER => 13 register * STATIC => 12 (value) * CONST => 20 $value */ static void xaddable(Node *np) { Node *lp, *rp; if (!np) return; np->complex = 0; np->addable = 0; lp = np->left; rp = np->right; switch (np->op) { case AUTO: np->addable = 11; break; case REG: np->addable = 13; break; case MEM: np->addable = 12; break; case CONST: np->addable = 20; break; default: if (lp) xaddable(lp); if (rp) xaddable(rp); break; } if (np->addable > 10) return; if (lp) np->complex = lp->complex; if (rp) { int8_t 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; } void genaddable(Node *list[]) { Node *np; while (np = *list++) xaddable(np); }