/* * (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands. * See the copyright notice in the ACK home directory, in the file "Copyright". * */ #include #include #ifndef NORCSID static char rcsid[]= "$Id$" ; #endif int framesize; /* * machine dependent back end routines for the Zilog Z80. */ con_part(int sz, word w) { while (part_size % sz) part_size++; if (part_size == TEM_WSIZE) part_flush(); if (sz == 1) { w &= 0xFF; w <<= 8*(3-part_size); part_word |= w; } else if (sz == 2) { w &= 0xFFFF; if (part_size == 0) { /* Shift 8 for m68k2, 16 otherwise */ w <<= 4 * TEM_WSIZE; } part_word |= w; } else { assert(sz == TEM_WSIZE); part_word = w; } part_size += sz; } con_mult(word sz) { if (argval != 4) fatal("bad icon/ucon size"); fprintf(codefile,".data4 %s\n", str); } #define CODE_GENERATOR #define IEEEFLOAT #define FL_MSL_AT_LOW_ADDRESS 1 #define FL_MSW_AT_LOW_ADDRESS 1 #define FL_MSB_AT_LOW_ADDRESS 1 #include prolog(full nlocals) { int ss = nlocals + 8; fprintf(codefile, "addi sp, sp, %d\n", -ss); fprintf(codefile, "stw fp, %d(sp)\n", nlocals); fprintf(codefile, "mfspr r0, lr\n" "stw r0, %d(sp)\n", nlocals+4); fprintf(codefile, "addi fp, sp, %d\n", nlocals); framesize = nlocals; } mes(word type) { int argt ; switch ( (int)type ) { case ms_ext : for (;;) { switch ( argt=getarg( ptyp(sp_cend)|ptyp(sp_pnam)|sym_ptyp) ) { case sp_cend : return ; default: strarg(argt) ; fprintf(codefile,".define %s\n",argstr) ; break ; } } default : while ( getarg(any_ptyp) != sp_cend ) ; break ; } } char *segname[] = { ".sect .text", ".sect .data", ".sect .rom", ".sect .bss" }; #ifdef REGVARS static int savedregsi[32]; static int numsaved; /* Initialise regvar system for one function. */ i_regsave() { int i; fprintf(codefile, "! i_regsave()\n"); for (i=0; i<32; i++) savedregsi[i] = INT_MAX; numsaved = 0; } /* Mark a register as being saved. */ regsave(const char* regname, full offset, int size) { int regnum = atoi(regname+1); savedregsi[regnum] = offset; numsaved++; fprintf(codefile, "! %d is saved in %s\n", offset, regname); #if 0 fprintf(codefile, "stwu %s, -4(sp)\n", regname); if (offset >= 0) fprintf(codefile, "lwz %s, %d(fp)\n", regname, offset); #endif } /* Finish saving ragisters. */ void saveloadregs(const char* ops, const char* opm) { int offset = -(framesize + numsaved*4); int reg = 32; /* Check for the possibility of a multiple. */ do { reg--; } while ((reg > 0) && (savedregsi[reg] != INT_MAX)); if (reg < 31) { fprintf(codefile, "%s r%d, %d(fp)\n", opm, reg+1, offset); offset += (31-reg)*4; } /* Saved everything else singly. */ while (reg > 0) { if (savedregsi[reg] != INT_MAX) { fprintf(codefile, "%s r%d, %d(fp)\n", ops, reg, offset); offset += 4; } reg--; } } f_regsave() { int i; fprintf(codefile, "! f_regsave()\n"); fprintf(codefile, "addi sp, sp, %d\n", -numsaved*4); saveloadregs("stw", "stmw"); for (i=0; i<32; i++) if ((savedregsi[i] != INT_MAX) && (savedregsi[i] > 0)) fprintf(codefile, "lwz r%d, %d(fp)\n", i, savedregsi[i]); } /* Restore all saved registers. */ regreturn() { fprintf(codefile, "! regreturn()\n"); saveloadregs("lwz", "lmw"); } /* Calculate the score of a given register. */ int regscore(full offset, int size, int type, int frequency, int totype) { int score; fprintf(codefile, "! regscore(%ld, %d, %d, %d, %d)\n", offset, size, type, frequency, totype); if (size != 4) return -1; /* Per use: 6 bytes (on average) * Overhead in prologue: 4 bytes, plus 4 if a parameter * Overhead in epilogue: 0 bytes */ score = frequency*6 - 4 - ((offset>=0) ? 4 : 0); fprintf(codefile, "! local at offset %d has regvar score %d\n", offset, score); return score; } #endif