X-Git-Url: http://j8takagi.net/cgi-bin/gitweb.cgi?p=YACASL2.git;a=blobdiff_plain;f=src%2Fexec.c;h=07e4fcde970fb376493734f9675bbab29100d6f1;hp=353dc24b8cdb649d730655c64adaa8167802133a;hb=4ee27a568fb9222907a566e59aaefe248f08a8e4;hpb=d34c08f567db33d340b06aa48997cd8109c1d9a7 diff --git a/src/exec.c b/src/exec.c index 353dc24..07e4fcd 100644 --- a/src/exec.c +++ b/src/exec.c @@ -1,6 +1,21 @@ #include "casl2.h" #include "exec.h" +/* 実行のエラー定義 */ +CERR cerr_exec[] = { + { 202, "SVC input - out of Input memory" }, + { 203, "SVC output - out of COMET II memory" }, + { 204, "Program Register (PR) - out of COMET II memory" }, + { 205, "Stack Pointer (SP) - cannot allocate stack buffer" }, + { 206, "Address - out of COMET II memory" }, + { 207, "Stack Pointer (SP) - out of COMET II memory" }, +}; + +bool addcerrlist_exec() +{ + return addcerrlist(ARRAYSIZE(cerr_exec), cerr_exec); +} + /* 実行モード: trace, logical, dump */ EXECMODE execmode = {false, false, false}; @@ -8,25 +23,24 @@ EXECMODE execmode = {false, false, false}; void svcin() { int i; - char *buffer = malloc(INSIZE + 1); + char *buffer = malloc_chk(INSIZE + 1,"svcin.buffer"); if(fgets(buffer, INSIZE, stdin) == NULL) { - memory[GR[1]] = 0x0; - memory[GR[2]] = 0x0; + memory[cpu->gr[1]] = memory[cpu->gr[2]] = 0x0; return; } - for(i = 0; i < GR[1] && i < INSIZE; i++) { + for(i = 0; i < INSIZE; i++) { if(*(buffer + i) == '\0' || *(buffer + i) == '\n') { --i; break; } - if(GR[1] + i >= memsize - 1) { + if(cpu->gr[1] + i >= memsize - 1) { setcerr(202, NULL); /* SVC input - out of Input memory */ break; } - memory[GR[1]+i] = *(buffer + i); + memory[cpu->gr[1]+i] = *(buffer + i); } - memory[GR[2]] = i + 1; + memory[cpu->gr[2]] = i + 1; } /* 標準出力へ文字データを書出(SVC 2) */ @@ -35,17 +49,14 @@ void svcout() int i; WORD w; - for(i = 0; i < memory[GR[2]]; i++) { - if(GR[1] + i >= memsize - 1) { + for(i = 0; i < memory[cpu->gr[2]]; i++) { + if(cpu->gr[1] + i >= memsize - 1) { setcerr(203, NULL); /* SVC output - out of Comet II memory */ return; } - if((w = memory[GR[1]+i]) == '\0') { - break; - } /* 「文字の組」の符号表に記載された文字と、改行(CR)/タブを表示 */ /* それ以外の文字は、「.」で表す */ - if((w >= 0x20 && w <= 0x7E) || w == 0xA || w == '\t') { + if(((w = memory[cpu->gr[1]+i]) >= 0x20 && w <= 0x7E) || w == 0xA || w == '\t') { putchar((char)w); } else { putchar('.'); @@ -56,14 +67,14 @@ void svcout() /* ロード/論理積/論理和/排他的論理和のフラグ設定。OFは常に0 */ void setfr(WORD val) { - FR = 0x0; + cpu->fr = 0x0; /* 第15ビットが1のとき、SFは1 */ if((val & 0x8000) > 0x0) { - FR += SF; + cpu->fr += SF; } /* 演算結果が0のとき、ZFは1 */ if(val == 0x0) { - FR += ZF; + cpu->fr += ZF; } } @@ -72,16 +83,16 @@ WORD adda(WORD val0, WORD val1) { WORD res; long temp; - FR = 0x0; + cpu->fr = 0x0; temp = (signed short)val0 + (signed short)val1; if(temp > 32767 || temp < -32768) { - FR += OF; + cpu->fr += OF; } if(((res = (WORD)(temp & 0xFFFF)) & 0x8000) == 0x8000) { - FR += SF; + cpu->fr += SF; } else if(res == 0x0) { - FR += ZF; + cpu->fr += ZF; } return res; } @@ -97,15 +108,15 @@ WORD addl(WORD val0, WORD val1) { long temp; WORD res; - FR = 0x0; + cpu->fr = 0x0; if((temp = val0 + val1) < 0 || temp > 65535) { - FR += OF; + cpu->fr += OF; } if(((res = (WORD)(temp & 0xFFFF)) & 0x8000) == 0x8000) { - FR += SF; + cpu->fr += SF; } else if(res == 0x0) { - FR += ZF; + cpu->fr += ZF; } return res; } @@ -119,22 +130,22 @@ WORD subl(WORD val0, WORD val1) /* 算術比較のフラグ設定。OFは常に0 */ void cpa(WORD val0, WORD val1) { - FR = 0x0; + cpu->fr = 0x0; if((short)val0 < (short)val1) { - FR = SF; + cpu->fr = SF; } else if(val0 == val1) { - FR = ZF; + cpu->fr = ZF; } } /* 論理比較のフラグ設定。OFは常に0 */ void cpl(WORD val0, WORD val1) { - FR = 0x0; + cpu->fr = 0x0; if(val0 < val1) { - FR = SF; + cpu->fr = SF; } else if(val0 == val1) { - FR = ZF; + cpu->fr = ZF; } } @@ -142,10 +153,10 @@ void cpl(WORD val0, WORD val1) /* 算術演算なので、第15ビットは送り出されない */ WORD sla(WORD val0, WORD val1) { - WORD sign, res, last; + WORD sign, res, last = 0x0; int i; - FR = 0x0; + cpu->fr = 0x0; sign = val0 & 0x8000; res = val0 & 0x7FFF; for(i = 0; i < val1; i++) { @@ -155,15 +166,15 @@ WORD sla(WORD val0, WORD val1) res = sign | (res & 0x7FFF); /* OFに、レジスタから最後に送り出されたビットの値を設定 */ if(last > 0x0) { - FR += OF; + cpu->fr += OF; } /* 符号(第15ビット)が1のとき、SFは1 */ if(sign > 0x0) { - FR += SF; + cpu->fr += SF; } /* 演算結果が0のとき、ZFは1 */ if(res == 0x0) { - FR += ZF; + cpu->fr += ZF; } return res; } @@ -173,10 +184,10 @@ WORD sla(WORD val0, WORD val1) /* 空いたビット位置には符号と同じものが入る */ WORD sra(WORD val0, WORD val1) { - WORD sign, res, last; + WORD sign, res, last = 0x0; int i; - FR = 0x0; + cpu->fr = 0x0; sign = val0 & 0x8000; res = val0 & 0x7FFF; for(i = 0; i < val1; i++) { @@ -189,15 +200,15 @@ WORD sra(WORD val0, WORD val1) res = sign | res; /* OFに、レジスタから最後に送り出されたビットの値を設定 */ if(last > 0x0) { - FR += OF; + cpu->fr += OF; } /* 符号(第15ビット)が1のとき、SFは1 */ if(sign > 0x0) { - FR += SF; + cpu->fr += SF; } /* 演算結果が0のとき、ZFは1 */ if(res == 0x0) { - FR += ZF; + cpu->fr += ZF; } return res; } @@ -205,25 +216,25 @@ WORD sra(WORD val0, WORD val1) /* 論理左シフト。フラグを設定して値を返す */ WORD sll(WORD val0, WORD val1) { - WORD res = val0, last; + WORD res = val0, last = 0x0; int i; - FR = 0x0; + cpu->fr = 0x0; for(i = 0; i < val1; i++) { last = res & 0x8000; res <<= 1; } /* OFに、レジスタから最後に送り出されたビットの値を設定 */ if(last > 0x0) { - FR += OF; + cpu->fr += OF; } /* 第15ビットが1のとき、SFは1 */ if((res & 0x8000) > 0x0) { - FR += SF; + cpu->fr += SF; } /* 演算結果が0のとき、ZFは1 */ if(res == 0x0) { - FR += ZF; + cpu->fr += ZF; } return res; } @@ -231,115 +242,104 @@ WORD sll(WORD val0, WORD val1) /* 論理右シフト。フラグを設定して値を返す */ WORD srl(WORD val0, WORD val1) { - WORD res = val0, last; + WORD res = val0, last = 0x0; int i; - FR = 0x0; + cpu->fr = 0x0; for(i = 0; i < val1; i++) { last = res & 0x0001; res >>= 1; } /* OFに、レジスタから最後に送り出されたビットの値を設定 */ if(last > 0x0) { - FR += OF; + cpu->fr += OF; } /* 第15ビットが1のとき、SFは1 */ if((res & 0x8000) > 0x0) { - FR += SF; + cpu->fr += SF; } /* 演算結果が0のとき、ZFは1 */ if(res == 0x0) { - FR += ZF; + cpu->fr += ZF; } return res; } -/* COMET II仮想マシンのリセット */ -void reset() -{ - int i; - for(i = 0; i < REGSIZE; i++) { - GR[i] = 0x0; - } - SP = PR = FR = 0x0; - memory = malloc(memsize); - for(i = 0; i < memsize; i++) { - memory[i] = 0x0; - } -} - -/* コードの実行 */ -void exec() +/* 仮想マシンCOMET IIでの実行 */ +bool exec() { WORD op, r_r1, x_r2, val; CMDTYPE cmdtype; - char *errpr = malloc(8); + char *errpr = malloc_chk(CERRSTRSIZE + 1, "exec.errpr"); clock_t clock_begin, clock_end; - if((&execmode)->trace) { + addcerrlist_exec(); + if(execmode.trace) { fprintf(stdout, "\nExecuting machine codes\n"); } - /* フラグレジスタの初期値設定 */ - FR = 0x0; - SP = memsize; - PR = startptr; - if(create_code_type() == false) { - goto execerr; - } + /* レジスタの初期化 */ + cpu->sp = memsize; + cpu->pr = progprop->start; /* 機械語の実行 */ for (; ; ) { clock_begin = clock(); /* プログラムレジスタのアドレスが主記憶の範囲外の場合はエラー */ - if(PR >= memsize) { - sprintf(errpr, "PR:#%04X", PR); + if(cpu->pr >= memsize) { + sprintf(errpr, "PR:#%04X", cpu->pr); setcerr(204, errpr); /* Program Register (PR) - out of COMET II memory */ } /* スタック領域のアドレスが主記憶の範囲外の場合はエラー */ - if(SP > memsize) { - sprintf(errpr, "PR:#%04X", PR); + if(cpu->sp > memsize) { + sprintf(errpr, "PR:#%04X", cpu->pr); setcerr(207, errpr); /* Stack Pointer (SP) - out of COMET II memory */ } /* スタック領域を確保できない場合はエラー */ - if(SP <= endptr) { - sprintf(errpr, "PR:#%04X", PR); + if(cpu->sp <= progprop->end) { + sprintf(errpr, "PR:#%04X", cpu->pr); setcerr(205, errpr); /* Stack Pointer (SP) - cannot allocate stack buffer */ } - op = memory[PR] & 0xFF00; + /* 命令の取り出し */ + op = memory[cpu->pr] & 0xFF00; + /* 命令の解読 */ cmdtype = getcmdtype(op); - r_r1 = (memory[PR] >> 4) & 0xF; - x_r2 = memory[PR] & 0xF; + r_r1 = (memory[cpu->pr] >> 4) & 0xF; + x_r2 = memory[cpu->pr] & 0xF; /* エラー発生時は終了 */ - if(cerrno > 0) { + if(cerr->num > 0) { goto execerr; } - if((&execmode)->trace){ - fprintf(stdout, "#%04X: Register::::\n", PR); + /* traceオプション指定時、レジスタを出力 */ + if(execmode.trace){ + fprintf(stdout, "#%04X: Register::::\n", cpu->pr); dspregister(); } - if((&execmode)->dump){ - fprintf(stdout, "#%04X: Memory::::\n", PR); + /* dumpオプション指定時、メモリを出力 */ + if(execmode.dump){ + fprintf(stdout, "#%04X: Memory::::\n", cpu->pr); dumpmemory(); } - if((&execmode)->dump || (&execmode)->trace) { + /* どちらかのオプション指定時、改行を出力 */ + if(execmode.dump || execmode.trace) { fprintf(stdout, "\n"); } - PR++; - /* 処理対象の値を取得 */ + cpu->pr++; + /* オペランドの取り出し */ if(cmdtype == R1_R2) { - assert(x_r2 < REGSIZE); - val = GR[x_r2]; + assert(x_r2 < GRSIZE); + val = cpu->gr[x_r2]; } else if(cmdtype == R_ADR_X || cmdtype == R_ADR_X_ || cmdtype == ADR_X) { + assert(x_r2 < GRSIZE); /* 実効アドレス(値または値が示す番地)を取得 */ - val = memory[PR++]; + val = memory[cpu->pr++]; /* 指標アドレスを加算 */ if(x_r2 > 0x0) { - val += GR[x_r2]; + val += cpu->gr[x_r2]; } /* ロード/算術論理演算命令/比較演算命令では、アドレスに格納されている内容を取得 */ if(cmdtype == R_ADR_X_) { if(val >= memsize) { - sprintf(errpr, "PR:#%04X", PR-1); + sprintf(errpr, "PR:#%04X", cpu->pr-1); setcerr(206, errpr); /* Address - out of COMET II memory */ goto execerr; } @@ -350,113 +350,113 @@ void exec() if(op >= 0x1000 && op <= 0x4FFF) { op &= 0xFB00; } - /* 命令ごとの処理を実行 */ + /* 命令の実行 */ switch(op) { - case 0x0: /* NOP */ + case 0x0: /* NOP */ break; case 0x1000: /* LD */ - setfr(GR[r_r1] = val); + setfr(cpu->gr[r_r1] = val); break; case 0x1100: /* ST */ - memory[val] = GR[r_r1]; + memory[val] = cpu->gr[r_r1]; break; case 0x1200: /* LAD */ - GR[r_r1] = val; + cpu->gr[r_r1] = val; break; - case 0x2000: /* ADDA */ - GR[r_r1] = adda(GR[r_r1], val); + case 0x2000: /* ADDA */ + cpu->gr[r_r1] = adda(cpu->gr[r_r1], val); break; - case 0x2100: /* SUBA */ - GR[r_r1] = suba(GR[r_r1], val); + case 0x2100: /* SUBA */ + cpu->gr[r_r1] = suba(cpu->gr[r_r1], val); break; - case 0x2200: /* ADDL */ - GR[r_r1] = addl(GR[r_r1], val); + case 0x2200: /* ADDL */ + cpu->gr[r_r1] = addl(cpu->gr[r_r1], val); break; - case 0x2300: /* SUBL */ - GR[r_r1] = subl(GR[r_r1], val); + case 0x2300: /* SUBL */ + cpu->gr[r_r1] = subl(cpu->gr[r_r1], val); break; - case 0x3000: /* AND */ - setfr(GR[r_r1] &= val); + case 0x3000: /* AND */ + setfr(cpu->gr[r_r1] &= val); break; - case 0x3100: /* OR */ - setfr(GR[r_r1] |= val); + case 0x3100: /* OR */ + setfr(cpu->gr[r_r1] |= val); break; - case 0x3200: /* XOR */ - setfr(GR[r_r1] ^= val); + case 0x3200: /* XOR */ + setfr(cpu->gr[r_r1] ^= val); break; - case 0x4000: /* CPA */ - cpa(GR[r_r1], val); + case 0x4000: /* CPA */ + cpa(cpu->gr[r_r1], val); break; - case 0x4100: /* CPL */ - cpl(GR[r_r1], val); + case 0x4100: /* CPL */ + cpl(cpu->gr[r_r1], val); break; - case 0x5000: /* SLA */ - GR[r_r1] = sla(GR[r_r1], val); + case 0x5000: /* SLA */ + cpu->gr[r_r1] = sla(cpu->gr[r_r1], val); break; - case 0x5100: /* SRA */ - GR[r_r1] = sra(GR[r_r1], val); + case 0x5100: /* SRA */ + cpu->gr[r_r1] = sra(cpu->gr[r_r1], val); break; - case 0x5200: /* SLL */ - GR[r_r1] = sll(GR[r_r1], val); + case 0x5200: /* SLL */ + cpu->gr[r_r1] = sll(cpu->gr[r_r1], val); break; - case 0x5300: /* SRL */ - GR[r_r1] = srl(GR[r_r1], val); + case 0x5300: /* SRL */ + cpu->gr[r_r1] = srl(cpu->gr[r_r1], val); break; - case 0x6100: /* JMI */ - if((FR & SF) > 0) { - PR = val; + case 0x6100: /* JMI */ + if((cpu->fr & SF) > 0) { + cpu->pr = val; } break; - case 0x6200: /* JNZ */ - if((FR & ZF) == 0) { - PR = val; + case 0x6200: /* JNZ */ + if((cpu->fr & ZF) == 0) { + cpu->pr = val; } break; - case 0x6300: /* JZE */ - if((FR & ZF) > 0) { - PR = val; + case 0x6300: /* JZE */ + if((cpu->fr & ZF) > 0) { + cpu->pr = val; } break; - case 0x6400: /* JUMP */ - PR = val; + case 0x6400: /* JUMP */ + cpu->pr = val; break; - case 0x6500: /* JPL */ - if((FR & (SF | ZF)) == 0) { - PR = val; + case 0x6500: /* JPL */ + if((cpu->fr & (SF | ZF)) == 0) { + cpu->pr = val; } break; - case 0x6600: /* JOV */ - if((FR & OF) > 0) { - PR = val; + case 0x6600: /* JOV */ + if((cpu->fr & OF) > 0) { + cpu->pr = val; } break; - case 0x7000: /* PUSH */ - assert(SP > endptr && SP <= memsize); - memory[--SP] = val; + case 0x7000: /* PUSH */ + assert(cpu->sp > progprop->end && cpu->sp <= memsize); + memory[--cpu->sp] = val; break; - case 0x7100: /* POP */ - assert(SP > endptr && SP <= memsize); - GR[r_r1] = memory[SP++]; + case 0x7100: /* POP */ + assert(cpu->sp > progprop->end && cpu->sp <= memsize); + cpu->gr[r_r1] = memory[cpu->sp++]; break; - case 0x8000: /* CALL */ - assert(SP > endptr && SP <= memsize); - memory[--SP] = PR; - PR = val; + case 0x8000: /* CALL */ + assert(cpu->sp > progprop->end && cpu->sp <= memsize); + memory[--(cpu->sp)] = cpu->pr; + cpu->pr = val; break; - case 0x8100: /* RET */ - assert(SP > endptr && SP <= memsize); - if(SP == memsize) { - return; + case 0x8100: /* RET */ + assert(cpu->sp > progprop->end && cpu->sp <= memsize); + if(cpu->sp == memsize) { + return false; } else { - PR = memory[SP++]; + cpu->pr = memory[(cpu->sp)++]; break; } - case 0xf000: /* SVC */ + case 0xF000: /* SVC */ switch(val) { case 0x0: /* EXIT */ - return; + return true; case 0x1: /* IN */ svcin(); break; @@ -470,8 +470,9 @@ void exec() do { clock_end = clock(); } while(clock_end - clock_begin < CLOCKS_PER_SEC / clocks); -/* printf("PR:%04X; time: %f\n", PR, (double)((clock_end - clock_begin) * CLOCKS_PER_SEC)); */ } + return true; execerr: - fprintf(stderr, "Execute error - %d: %s\n", cerrno, cerrmsg); + fprintf(stderr, "Execute error - %d: %s\n", cerr->num, cerr->msg); + return false; }