/* * Close out block partial/full explicit. */ static void blk_exp_close(MACRO_PROT_ARGS) { struct mdoc_node *body; /* Our own body. */ struct mdoc_node *endbody; /* Our own end marker. */ struct mdoc_node *itblk; /* An It block starting later. */ struct mdoc_node *later; /* A sub-block starting later. */ struct mdoc_node *n; /* Search back to our block. */ int j, lastarg, maxargs, nl; enum margserr ac; enum mdoct atok, ntok; char *p; nl = MDOC_NEWLINE & mdoc->flags; switch (tok) { case MDOC_Ec: maxargs = 1; break; case MDOC_Ek: mdoc->flags &= ~MDOC_KEEP; /* FALLTHROUGH */ default: maxargs = 0; break; } /* * Search backwards for beginnings of blocks, * both of our own and of pending sub-blocks. */ atok = rew_alt(tok); body = endbody = itblk = later = NULL; for (n = mdoc->last; n; n = n->parent) { if (n->flags & MDOC_ENDED) { if ( ! (n->flags & MDOC_VALID)) n->flags |= MDOC_BROKEN; continue; } /* Remember the start of our own body. */ if (n->type == MDOC_BODY && atok == n->tok) { if (n->end == ENDBODY_NOT) body = n; continue; } if (n->type != MDOC_BLOCK || n->tok == MDOC_Nm) continue; if (n->tok == MDOC_It) { itblk = n; continue; } if (atok == n->tok) { assert(body); /* * Found the start of our own block. * When there is no pending sub block, * just proceed to closing out. */ if (later == NULL || (tok == MDOC_El && itblk == NULL)) break; /* * When there is a pending sub block, postpone * closing out the current block until the * rew_pending() closing out the sub-block. * Mark the place where the formatting - but not * the scope - of the current block ends. */ mandoc_vmsg(MANDOCERR_BLK_NEST, mdoc->parse, line, ppos, "%s breaks %s", mdoc_macronames[atok], mdoc_macronames[later->tok]); endbody = mdoc_endbody_alloc(mdoc, line, ppos, atok, body, ENDBODY_SPACE); if (tok == MDOC_El) itblk->flags |= MDOC_ENDED | MDOC_BROKEN; /* * If a block closing macro taking arguments * breaks another block, put the arguments * into the end marker. */ if (maxargs) mdoc->next = MDOC_NEXT_CHILD; break; } /* Explicit blocks close out description lines. */ if (n->tok == MDOC_Nd) { rew_last(mdoc, n); continue; } /* Breaking an open sub block. */ n->flags |= MDOC_BROKEN; if (later == NULL) later = n; } if (body == NULL) { mandoc_msg(MANDOCERR_BLK_NOTOPEN, mdoc->parse, line, ppos, mdoc_macronames[tok]); if (maxargs && endbody == NULL) { /* * Stray .Ec without previous .Eo: * Break the output line, keep the arguments. */ mdoc_elem_alloc(mdoc, line, ppos, MDOC_br, NULL); rew_elem(mdoc, MDOC_br); } } else if (endbody == NULL) { rew_last(mdoc, body); if (maxargs) mdoc_tail_alloc(mdoc, line, ppos, atok); } if ( ! (mdoc_macros[tok].flags & MDOC_PARSED)) { if (buf[*pos] != '\0') mandoc_vmsg(MANDOCERR_ARG_SKIP, mdoc->parse, line, ppos, "%s %s", mdoc_macronames[tok], buf + *pos); if (endbody == NULL && n != NULL) rew_pending(mdoc, n); return; } if (endbody != NULL) n = endbody; for (j = 0; ; j++) { lastarg = *pos; if (j == maxargs && n != NULL) { rew_pending(mdoc, n); n = NULL; } ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ac == ARGS_PUNCT || ac == ARGS_EOLN) break; ntok = ac == ARGS_QWORD ? MDOC_MAX : lookup(mdoc, tok, line, lastarg, p); if (ntok == MDOC_MAX) { dword(mdoc, line, lastarg, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags); continue; } if (n != NULL) { rew_pending(mdoc, n); n = NULL; } mdoc->flags &= ~MDOC_NEWLINE; mdoc_macro(mdoc, ntok, line, lastarg, pos, buf); break; } if (n != NULL) rew_pending(mdoc, n); if (nl) append_delims(mdoc, line, pos, buf); }
static void in_line(MACRO_PROT_ARGS) { int la, scope, cnt, firstarg, mayopen, nc, nl; enum mdoct ntok; enum margserr ac; enum mdelim d; struct mdoc_arg *arg; char *p; nl = MDOC_NEWLINE & mdoc->flags; /* * Whether we allow ignored elements (those without content, * usually because of reserved words) to squeak by. */ switch (tok) { case MDOC_An: /* FALLTHROUGH */ case MDOC_Ar: /* FALLTHROUGH */ case MDOC_Fl: /* FALLTHROUGH */ case MDOC_Mt: /* FALLTHROUGH */ case MDOC_Nm: /* FALLTHROUGH */ case MDOC_Pa: nc = 1; break; default: nc = 0; break; } mdoc_argv(mdoc, line, tok, &arg, pos, buf); d = DELIM_NONE; firstarg = 1; mayopen = 1; for (cnt = scope = 0;; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); /* * At the end of a macro line, * opening delimiters do not suppress spacing. */ if (ac == ARGS_EOLN) { if (d == DELIM_OPEN) mdoc->last->flags &= ~MDOC_DELIMO; break; } /* * The rest of the macro line is only punctuation, * to be handled by append_delims(). * If there were no other arguments, * do not allow the first one to suppress spacing, * even if it turns out to be a closing one. */ if (ac == ARGS_PUNCT) { if (cnt == 0 && (nc == 0 || tok == MDOC_An)) mdoc->flags |= MDOC_NODELIMC; break; } ntok = (ac == ARGS_QWORD || (tok == MDOC_Fn && !cnt)) ? MDOC_MAX : lookup(mdoc, tok, line, la, p); /* * In this case, we've located a submacro and must * execute it. Close out scope, if open. If no * elements have been generated, either create one (nc) * or raise a warning. */ if (ntok != MDOC_MAX) { if (scope) rew_elem(mdoc, tok); if (nc && ! cnt) { mdoc_elem_alloc(mdoc, line, ppos, tok, arg); rew_last(mdoc, mdoc->last); } else if ( ! nc && ! cnt) { mdoc_argv_free(arg); mandoc_msg(MANDOCERR_MACRO_EMPTY, mdoc->parse, line, ppos, mdoc_macronames[tok]); } mdoc_macro(mdoc, ntok, line, la, pos, buf); if (nl) append_delims(mdoc, line, pos, buf); return; } /* * Non-quote-enclosed punctuation. Set up our scope, if * a word; rewind the scope, if a delimiter; then append * the word. */ d = ac == ARGS_QWORD ? DELIM_NONE : mdoc_isdelim(p); if (DELIM_NONE != d) { /* * If we encounter closing punctuation, no word * has been emitted, no scope is open, and we're * allowed to have an empty element, then start * a new scope. */ if ((d == DELIM_CLOSE || (d == DELIM_MIDDLE && tok == MDOC_Fl)) && !cnt && !scope && nc && mayopen) { mdoc_elem_alloc(mdoc, line, ppos, tok, arg); scope = 1; cnt++; if (tok == MDOC_Nm) mayopen = 0; } /* * Close out our scope, if one is open, before * any punctuation. */ if (scope) rew_elem(mdoc, tok); scope = 0; if (tok == MDOC_Fn) mayopen = 0; } else if (mayopen && !scope) { mdoc_elem_alloc(mdoc, line, ppos, tok, arg); scope = 1; cnt++; } dword(mdoc, line, la, p, d, MDOC_JOIN & mdoc_macros[tok].flags); /* * If the first argument is a closing delimiter, * do not suppress spacing before it. */ if (firstarg && d == DELIM_CLOSE && !nc) mdoc->last->flags &= ~MDOC_DELIMC; firstarg = 0; /* * `Fl' macros have their scope re-opened with each new * word so that the `-' can be added to each one without * having to parse out spaces. */ if (scope && tok == MDOC_Fl) { rew_elem(mdoc, tok); scope = 0; } } if (scope) rew_elem(mdoc, tok); /* * If no elements have been collected and we're allowed to have * empties (nc), open a scope and close it out. Otherwise, * raise a warning. */ if ( ! cnt) { if (nc) { mdoc_elem_alloc(mdoc, line, ppos, tok, arg); rew_last(mdoc, mdoc->last); } else { mdoc_argv_free(arg); mandoc_msg(MANDOCERR_MACRO_EMPTY, mdoc->parse, line, ppos, mdoc_macronames[tok]); } } if (nl) append_delims(mdoc, line, pos, buf); }
static void blk_part_imp(MACRO_PROT_ARGS) { int la, nl; enum margserr ac; char *p; struct mdoc_node *blk; /* saved block context */ struct mdoc_node *body; /* saved body context */ struct mdoc_node *n; nl = MDOC_NEWLINE & mdoc->flags; /* * A macro that spans to the end of the line. This is generally * (but not necessarily) called as the first macro. The block * has a head as the immediate child, which is always empty, * followed by zero or more opening punctuation nodes, then the * body (which may be empty, depending on the macro), then zero * or more closing punctuation nodes. */ blk = mdoc_block_alloc(mdoc, line, ppos, tok, NULL); rew_last(mdoc, mdoc_head_alloc(mdoc, line, ppos, tok)); /* * Open the body scope "on-demand", that is, after we've * processed all our the leading delimiters (open parenthesis, * etc.). */ for (body = NULL; ; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ac == ARGS_EOLN || ac == ARGS_PUNCT) break; if (body == NULL && ac != ARGS_QWORD && mdoc_isdelim(p) == DELIM_OPEN) { dword(mdoc, line, la, p, DELIM_OPEN, 0); continue; } if (body == NULL) body = mdoc_body_alloc(mdoc, line, ppos, tok); if (macro_or_word(mdoc, tok, line, la, pos, buf, 1)) break; } if (body == NULL) body = mdoc_body_alloc(mdoc, line, ppos, tok); /* * If there is an open sub-block requiring explicit close-out, * postpone closing out the current block until the * rew_pending() call closing out the sub-block. */ for (n = mdoc->last; n && n != body && n != blk->parent; n = n->parent) { if (n->flags & MDOC_ENDED) { if ( ! (n->flags & MDOC_VALID)) n->flags |= MDOC_BROKEN; continue; } if (n->type == MDOC_BLOCK && mdoc_macros[n->tok].flags & MDOC_EXPLICIT) { n->flags |= MDOC_BROKEN; if ( ! (body->flags & MDOC_ENDED)) { mandoc_vmsg(MANDOCERR_BLK_NEST, mdoc->parse, line, ppos, "%s breaks %s", mdoc_macronames[tok], mdoc_macronames[n->tok]); mdoc_endbody_alloc(mdoc, line, ppos, tok, body, ENDBODY_NOSPACE); } } } assert(n == body); if (body->flags & MDOC_ENDED) return; rew_last(mdoc, body); if (nl) append_delims(mdoc, line, pos, buf); rew_pending(mdoc, blk); /* Move trailing .Ns out of scope. */ for (n = body->child; n && n->next; n = n->next) /* Do nothing. */ ; if (n && n->tok == MDOC_Ns) mdoc_node_relink(mdoc, n); }
static void in_line_argn(MACRO_PROT_ARGS) { struct mdoc_arg *arg; char *p; enum margserr ac; enum mdoct ntok; int state; /* arg#; -1: not yet open; -2: closed */ int la, maxargs, nl; nl = mdoc->flags & MDOC_NEWLINE; /* * A line macro that has a fixed number of arguments (maxargs). * Only open the scope once the first non-leading-punctuation is * found (unless MDOC_IGNDELIM is noted, like in `Pf'), then * keep it open until the maximum number of arguments are * exhausted. */ switch (tok) { case MDOC_Ap: /* FALLTHROUGH */ case MDOC_Ns: /* FALLTHROUGH */ case MDOC_Ux: maxargs = 0; break; case MDOC_Bx: /* FALLTHROUGH */ case MDOC_Es: /* FALLTHROUGH */ case MDOC_Xr: maxargs = 2; break; default: maxargs = 1; break; } mdoc_argv(mdoc, line, tok, &arg, pos, buf); state = -1; p = NULL; for (;;) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ac == ARGS_WORD && state == -1 && ! (mdoc_macros[tok].flags & MDOC_IGNDELIM) && mdoc_isdelim(p) == DELIM_OPEN) { dword(mdoc, line, la, p, DELIM_OPEN, 0); continue; } if (state == -1 && tok != MDOC_In && tok != MDOC_St && tok != MDOC_Xr) { mdoc_elem_alloc(mdoc, line, ppos, tok, arg); state = 0; } if (ac == ARGS_PUNCT || ac == ARGS_EOLN) { if (abs(state) < 2 && tok == MDOC_Pf) mandoc_vmsg(MANDOCERR_PF_SKIP, mdoc->parse, line, ppos, "Pf %s", p == NULL ? "at eol" : p); break; } if (state == maxargs) { rew_elem(mdoc, tok); state = -2; } ntok = (ac == ARGS_QWORD || (tok == MDOC_Pf && state == 0)) ? MDOC_MAX : lookup(mdoc, tok, line, la, p); if (ntok != MDOC_MAX) { if (state >= 0) { rew_elem(mdoc, tok); state = -2; } mdoc_macro(mdoc, ntok, line, la, pos, buf); break; } if (ac == ARGS_QWORD || mdoc_macros[tok].flags & MDOC_IGNDELIM || mdoc_isdelim(p) == DELIM_NONE) { if (state == -1) { mdoc_elem_alloc(mdoc, line, ppos, tok, arg); state = 1; } else if (state >= 0) state++; } else if (state >= 0) { rew_elem(mdoc, tok); state = -2; } dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags); } if (state == -1) { mandoc_msg(MANDOCERR_MACRO_EMPTY, mdoc->parse, line, ppos, mdoc_macronames[tok]); return; } if (state == 0 && tok == MDOC_Pf) append_delims(mdoc, line, pos, buf); if (state >= 0) rew_elem(mdoc, tok); if (nl) append_delims(mdoc, line, pos, buf); }
CProcInfo() { KeWaitForSymbol(Sm_InitStage2); m_TickCount = 0; m_KernelTime = 0; m_VisualProgressIndex = 6; m_SurfaceActivated = true; m_X = 20; m_Y = 20; m_Width = 236; m_Height = m_Margin * 4 + (m_VisibleProcCount + 4) * m_FontH; char Digit = '0'; KeRequestCall(ClFont_GetTextWidth, PB(&Digit), 1, PB(&m_DigitW), 4); m_SurfaceID = CreateSurface(m_X, m_Y, m_Width, m_Height); DrawActiveBorder(); DrawRect(m_SurfaceID, 1, 1, m_Width - 2, m_Margin * 3 + m_FontH * 4 - 1, m_BGColor); OutText(m_SurfaceID, m_Margin, m_Margin + m_FontH * 0, 0xFFA020A0, "Page Usage:"); OutText(m_SurfaceID, m_Margin, m_Margin + m_FontH * 1, 0xFFA020A0, "Heap Usage:"); OutText(m_SurfaceID, m_Margin, m_Margin + m_FontH * 2, 0xFFA020A0, "Kernel Time:"); OutText(m_SurfaceID, m_Margin+4, m_Margin*2 + m_FontH * 3, 0xFF2020A0, "ID"); OutText(m_SurfaceID, m_Margin+18, m_Margin*2 + m_FontH * 3, 0xFF20A020, "Mem"); OutText(m_SurfaceID, m_Margin+52, m_Margin*2 + m_FontH * 3, 0xFFA0A020, "Nf"); OutText(m_SurfaceID, m_Margin+74, m_Margin*2 + m_FontH * 3, 0xFF20A0A0, "Usr"); OutText(m_SurfaceID, m_Margin+104, m_Margin*2 + m_FontH * 3, 0xFF20A0A0, "Krn"); OutText(m_SurfaceID, m_Margin+128, m_Margin*2 + m_FontH * 3, 0xFFA02020, "Name"); KeEnableNotification(NfKe_TimerTick); KeEnableNotification(Nf_SurfaceActivated); KeEnableNotification(NfKe_TerminateProcess); CNotification<4> N; for (;;) { KeWaitFor(1); N.Recv(); if (N.GetID() == Nf_SurfaceActivated) { dword activatedSurfaceID = N.GetDword(0); if (activatedSurfaceID == m_SurfaceID) { if (!m_SurfaceActivated) { m_SurfaceActivated = true; DrawActiveBorder(); } } else { if (m_SurfaceActivated) { m_SurfaceActivated = false; DrawActiveBorder(); } } } else if (N.GetID() == NfKe_TimerTick) { if (m_TickCount % 144 == 0) { m_ProcList.Clear(); CProcData PD; char Name[128]; dword PrevPID = 0; for (;;) { dword PID = KeGetNextProcessInfo(PrevPID, PD.m_UsedPageCount, PD.m_NotificationCount, PD.m_UserPerfData, PD.m_KernelPerfData, Name); if (PID == 0xFFFFFFFF) break; PD.m_PID = PID; PD.m_Name = CStringA(Name); m_ProcList.PushBack(PD); PrevPID = PID; } qword UserTotalG = 0; qword KernelTotalG = 0; for (dword i = 0; i < m_ProcList.Size(); i++) { qword UserTotalL = 0; qword KernelTotalL = 0; for (dword j = 0; j < 128; j++) { UserTotalL += m_ProcList[i].m_UserPerfData[j]; KernelTotalL += m_ProcList[i].m_KernelPerfData[j]; } m_ProcList[i].m_UserTotal = UserTotalL; m_ProcList[i].m_KernelTotal = KernelTotalL; UserTotalG += UserTotalL; KernelTotalG += KernelTotalL; } for (dword i = 0; i < m_ProcList.Size(); i++) { m_ProcList[i].m_UserPercent = (m_ProcList[i].m_UserTotal << 16) / UserTotalG; m_ProcList[i].m_KernelPercent = (m_ProcList[i].m_KernelTotal << 16) / KernelTotalG; } m_KernelTime = (KernelTotalG << 16) / (KernelTotalG + UserTotalG); DrawRect(m_SurfaceID, 1, m_Margin * 3 + m_FontH * 4, m_Width - 2, m_Height - (m_Margin * 3 + m_FontH * 4) - 1, m_BGColor); dword VisibleProcCount = m_ProcList.Size(); if (VisibleProcCount > m_VisibleProcCount) VisibleProcCount = m_VisibleProcCount; for (dword i = 0; i < VisibleProcCount; i++) { char CharBuf[5] = {0}; dword XOffset = m_Margin + 14; dword YOffset = m_Margin * 3 + m_FontH * (4 + i); OutDecimal(XOffset, YOffset, m_ProcList[i].m_PID, 0xFF2020A0); XOffset += 24; OutDecimal(XOffset, YOffset, m_ProcList[i].m_UsedPageCount, 0xFF20A020); XOffset += 22; OutDecimal(XOffset, YOffset, m_ProcList[i].m_NotificationCount, 0xFFA0A020); XOffset += 0; OutPercent(XOffset, YOffset, m_ProcList[i].m_UserPercent, 0xFF20A0A0); XOffset += 32; OutPercent(XOffset, YOffset, m_ProcList[i].m_KernelPercent, 0xFF20A0A0); XOffset += 36; OutText(m_SurfaceID, XOffset, YOffset, 0xFFA02020, m_ProcList[i].m_Name._ptr()); } } if (m_TickCount % 24 == 0) { dword HeapUsed; dword HeapTotal; dword PageUsed; dword PageTotal; KeGetMemInfo(HeapUsed, HeapTotal, PageUsed, PageTotal); dword PageUsage = dword((qword(PageUsed) * 0x10000) / PageTotal); dword HeapUsage = dword((qword(HeapUsed) * 0x10000) / HeapTotal); dword KernelTime = 0; dword HeapColor = 0xFF20A0A0; if (HeapUsage > 0x9999) HeapColor = 0xFFF8BF16; if (HeapUsage > 0xB333) HeapColor = 0xFFFA5914; DrawRect(m_SurfaceID, m_Margin + 74, m_Margin, 48, m_FontH * 3, m_BGColor); OutPercent(m_Margin + 74, m_Margin + m_FontH * 0, PageUsage, 0xFF20A0A0, true); OutPercent(m_Margin + 74, m_Margin + m_FontH * 1, HeapUsage, HeapColor, true); OutPercent(m_Margin + 74, m_Margin + m_FontH * 2, m_KernelTime, 0xFF20A0A0, true); dword PrevVP = m_VisualProgressIndex; m_VisualProgressIndex++; if (m_VisualProgressIndex >= 6) m_VisualProgressIndex = 0; dword C1 = 0xFFB0B8FF; dword C2 = 0xFFD0D4FF; if (m_VisualProgressIndex == 0) { C1 = 0xFFFFA393; C2 = 0xFFFFCCC4; } DrawRect(m_SurfaceID, 140 + PrevVP * 12, m_FontH + m_Margin + 4, 8, 8, m_BGColor); DrawRect(m_SurfaceID, 140 + m_VisualProgressIndex * 12, m_FontH + m_Margin + 4, 8, 8, C1); DrawRect(m_SurfaceID, 140 + m_VisualProgressIndex * 12 + 1, m_FontH + m_Margin + 4 + 1, 6, 6, C2); } if (m_TickCount == 0) { ShowSurface(m_SurfaceID); } m_TickCount++; } else if (N.GetID() == NfKe_TerminateProcess) { return; } } }
void codegen(xJIT *xjit) { xOperand *pputc, *pgetc, *stack; char c; const void *code; int lstack[100], *lcur = lstack, lno = 0; pputc = rbx; pgetc = rbp; stack = r12; push(rbx); push(rbp); push(r12); mov(pputc, rdi); /* putchar */ mov(pgetc, rsi); /* getchar */ mov(stack, rdx); /* stack */ while (~(c = getchar())) { switch (c) { case '+': case '-': { int cnt; cnt = countc(c); if (cnt == 1) { c == '+' ? inc(dword(stack)) : dec(dword(stack)); } else { addi(dword(stack), c == '+' ? cnt : -cnt); } } break; case '>': case '<': { int cnt; cnt = countc(c); addi(stack, 4 * (c == '>' ? cnt : -cnt)); } break; case '.': { mov(rdi, dword(stack)); call(pputc,XJIT_CALL_OPERAND); } break; case ',': { call(pgetc,XJIT_CALL_OPERAND); mov(dword(stack), eax); } break; case '[': { L(numl(lno, 'B')); /* backward label */ mov(eax, dword(stack)); test(eax, eax); jz(numl(lno, 'F'), XJIT_LABEL_NEAR); *lcur++ = lno++; } break; case ']': { int no; no = *--lcur; jmp(numl(no, 'B'), XJIT_JMP_LABEL); L(numl(no, 'F')); /* forward label */ } break; default: break; } } pop(r12); pop(rbp); pop(rbx); ret(); }
void rbBytecode::ParseFunc( dword token ) { rbToken* t = new rbToken(NULL,token); wxString& name = t->Name; wxString& output = t->Output; wxString code; dword flags = 0; try{ //wxLogMessage( wxT("%sFUNC %x"), GetPrefix(), dword(token) ); PrintPreOutput(t); switch( token ) { case 0x0070: // $ { RB_TOKEN_CODE("29A001000029A10100000B53"); RB_TOKEN_NAME("$"); flags=0x00023401; break; } case 0x0071: // GotoState { RB_TOKEN_CODE("299D000000299E000000299F00000029A00000000B53"); RB_TOKEN_NAME("GotoState"); flags=0x00020401; break; } case 0x0072: // == { RB_TOKEN_CODE("293B010000293C0100000B53"); RB_TOKEN_NAME("=="); flags=0x00023401; break; } case 0x0073: // < { RB_TOKEN_CODE("299801000029990100000B53"); RB_TOKEN_NAME("<"); flags=0x00023401; break; } case 0x0074: // > { RB_TOKEN_CODE("299401000029950100000B53"); RB_TOKEN_NAME(">"); flags=0x00023401; break; } case 0x0075: // Enable { RB_TOKEN_CODE("29830000000B53"); RB_TOKEN_NAME("Enable"); flags=0x00020401; break; } case 0x0076: // Disable { RB_TOKEN_CODE("29810000000B53"); RB_TOKEN_NAME("Disable"); flags=0x00020401; break; } case 0x0077: // != { RB_TOKEN_CODE("293701000029380100000B53"); RB_TOKEN_NAME("!="); flags=0x00023401; break; } case 0x0078: // <= { RB_TOKEN_CODE("299001000029910100000B53"); RB_TOKEN_NAME("<="); flags=0x00023401; break; } case 0x0079: // >= { RB_TOKEN_CODE("298C010000298D0100000B53"); RB_TOKEN_NAME(">="); flags=0x00023401; break; } case 0x007A: // == { RB_TOKEN_CODE("298801000029890100000B53"); RB_TOKEN_NAME("=="); flags=0x00023401; break; } case 0x007B: // != { RB_TOKEN_CODE("298401000029850100000B53"); RB_TOKEN_NAME("!="); flags=0x00023401; break; } case 0x007C: // ~= { RB_TOKEN_CODE("298001000029810100000B53"); RB_TOKEN_NAME("~="); flags=0x00023401; break; } case 0x007D: // Len { RB_TOKEN_CODE("29730100000B53"); RB_TOKEN_NAME("Len"); flags=0x00022401; break; } case 0x007E: // InStr { RB_TOKEN_CODE("296F01000029700100000B53"); RB_TOKEN_NAME("InStr"); flags=0x00022401; break; } case 0x007F: // Mid { RB_TOKEN_CODE("296A010000296B010000296C0100000B53"); RB_TOKEN_NAME("Mid"); flags=0x00022401; break; } case 0x0080: // Left { RB_TOKEN_CODE("296601000029670100000B53"); RB_TOKEN_NAME("Left"); flags=0x00022401; break; } case 0x0081: // ! { RB_TOKEN_CODE("29B70300000B53"); RB_TOKEN_NAME("!"); flags=0x00023411; break; } case 0x0082: // && { RB_TOKEN_CODE("29AB03000029AC0300000B53"); RB_TOKEN_NAME("&&"); flags=0x00023401; break; } case 0x0083: // ^^ { RB_TOKEN_CODE("29A703000029A80300000B53"); RB_TOKEN_NAME("^^"); flags=0x00023401; break; } case 0x0084: // || { RB_TOKEN_CODE("29A303000029A40300000B53"); RB_TOKEN_NAME("||"); flags=0x00023401; break; } case 0x0085: // *= { RB_TOKEN_CODE("299F03000029A00300000B53"); RB_TOKEN_NAME("*="); flags=0x00423401; break; } case 0x0086: // /= { RB_TOKEN_CODE("299B030000299C0300000B53"); RB_TOKEN_NAME("/="); flags=0x00423401; break; } case 0x0087: // += { RB_TOKEN_CODE("299703000029980300000B53"); RB_TOKEN_NAME("+="); flags=0x00423401; break; } case 0x0088: // -= { RB_TOKEN_CODE("299303000029940300000B53"); RB_TOKEN_NAME("-="); flags=0x00423401; break; } case 0x0089: // ++ { RB_TOKEN_CODE("29900300000B53"); RB_TOKEN_NAME("++"); flags=0x00423411; break; } case 0x008A: // -- { RB_TOKEN_CODE("298D0300000B53"); RB_TOKEN_NAME("--"); flags=0x00423411; break; } case 0x008B: // ++ { RB_TOKEN_CODE("298A0300000B53"); RB_TOKEN_NAME("++"); flags=0x00423401; break; } case 0x008C: // -- { RB_TOKEN_CODE("29870300000B53"); RB_TOKEN_NAME("--"); flags=0x00423401; break; } case 0x008D: // ~ { RB_TOKEN_CODE("29840300000B53"); RB_TOKEN_NAME("~"); flags=0x00023411; break; } case 0x008E: // == { RB_TOKEN_CODE("290D020000290E0200000B53"); RB_TOKEN_NAME("=="); flags=0x00023401; break; } case 0x008F: // - { RB_TOKEN_CODE("29810300000B53"); RB_TOKEN_NAME("-"); flags=0x00023411; break; } case 0x0090: // * { RB_TOKEN_CODE("297D030000297E0300000B53"); RB_TOKEN_NAME("*"); flags=0x00023401; break; } case 0x0091: // / { RB_TOKEN_CODE("2979030000297A0300000B53"); RB_TOKEN_NAME("/"); flags=0x00023401; break; } case 0x0092: // + { RB_TOKEN_CODE("297503000029760300000B53"); RB_TOKEN_NAME("+"); flags=0x00023401; break; } case 0x0093: // - { RB_TOKEN_CODE("297103000029720300000B53"); RB_TOKEN_NAME("-"); flags=0x00023401; break; } case 0x0094: // << { RB_TOKEN_CODE("296D030000296E0300000B53"); RB_TOKEN_NAME("<<"); flags=0x00023401; break; } case 0x0095: // >> { RB_TOKEN_CODE("2969030000296A0300000B53"); RB_TOKEN_NAME(">>"); flags=0x00023401; break; } case 0x0096: // < { RB_TOKEN_CODE("296103000029620300000B53"); RB_TOKEN_NAME("<"); flags=0x00023401; break; } case 0x0097: // > { RB_TOKEN_CODE("295D030000295E0300000B53"); RB_TOKEN_NAME(">"); flags=0x00023401; break; } case 0x0098: // <= { RB_TOKEN_CODE("2959030000295A0300000B53"); RB_TOKEN_NAME("<="); flags=0x00023401; break; } case 0x0099: // >= { RB_TOKEN_CODE("295503000029560300000B53"); RB_TOKEN_NAME(">="); flags=0x00023401; break; } case 0x009A: // == { RB_TOKEN_CODE("295103000029520300000B53"); RB_TOKEN_NAME("=="); flags=0x00023401; break; } case 0x009B: // != { RB_TOKEN_CODE("294D030000294E0300000B53"); RB_TOKEN_NAME("!="); flags=0x00023401; break; } case 0x009C: // & { RB_TOKEN_CODE("2949030000294A0300000B53"); RB_TOKEN_NAME("&"); flags=0x00023401; break; } case 0x009D: // ^ { RB_TOKEN_CODE("294503000029460300000B53"); RB_TOKEN_NAME("^"); flags=0x00023401; break; } case 0x009E: // | { RB_TOKEN_CODE("294103000029420300000B53"); RB_TOKEN_NAME("|"); flags=0x00023401; break; } case 0x009F: // *= { RB_TOKEN_CODE("293D030000293E0300000B53"); RB_TOKEN_NAME("*="); flags=0x00423401; break; } case 0x00A0: // /= { RB_TOKEN_CODE("2939030000293A0300000B53"); RB_TOKEN_NAME("/="); flags=0x00423401; break; } case 0x00A1: // += { RB_TOKEN_CODE("293503000029360300000B53"); RB_TOKEN_NAME("+="); flags=0x00423401; break; } case 0x00A2: // -= { RB_TOKEN_CODE("293103000029320300000B53"); RB_TOKEN_NAME("-="); flags=0x00423401; break; } case 0x00A3: // ++ { RB_TOKEN_CODE("292E0300000B53"); RB_TOKEN_NAME("++"); flags=0x00423411; break; } case 0x00A4: // -- { RB_TOKEN_CODE("292B0300000B53"); RB_TOKEN_NAME("--"); flags=0x00423411; break; } case 0x00A5: // ++ { RB_TOKEN_CODE("29280300000B53"); RB_TOKEN_NAME("++"); flags=0x00423401; break; } case 0x00A6: // -- { RB_TOKEN_CODE("29250300000B53"); RB_TOKEN_NAME("--"); flags=0x00423401; break; } case 0x00A7: // Rand { RB_TOKEN_CODE("29220300000B53"); RB_TOKEN_NAME("Rand"); flags=0x00022401; break; } case 0x00A8: // @ { RB_TOKEN_CODE("299C010000299D0100000B53"); RB_TOKEN_NAME("@"); flags=0x00023401; break; } case 0x00A9: // - { RB_TOKEN_CODE("29120300000B53"); RB_TOKEN_NAME("-"); flags=0x00023411; break; } case 0x00AA: // ** { RB_TOKEN_CODE("290E030000290F0300000B53"); RB_TOKEN_NAME("**"); flags=0x00023401; break; } case 0x00AB: // * { RB_TOKEN_CODE("290A030000290B0300000B53"); RB_TOKEN_NAME("*"); flags=0x00023401; break; } case 0x00AC: // / { RB_TOKEN_CODE("290603000029070300000B53"); RB_TOKEN_NAME("/"); flags=0x00023401; break; } case 0x00AD: // % { RB_TOKEN_CODE("290203000029030300000B53"); RB_TOKEN_NAME("%"); flags=0x00023401; break; } case 0x00AE: // + { RB_TOKEN_CODE("29FE02000029FF0200000B53"); RB_TOKEN_NAME("+"); flags=0x00023401; break; } case 0x00AF: // - { RB_TOKEN_CODE("29FA02000029FB0200000B53"); RB_TOKEN_NAME("-"); flags=0x00023401; break; } case 0x00B0: // < { RB_TOKEN_CODE("29F602000029F70200000B53"); RB_TOKEN_NAME("<"); flags=0x00023401; break; } case 0x00B1: // > { RB_TOKEN_CODE("29F202000029F30200000B53"); RB_TOKEN_NAME(">"); flags=0x00023401; break; } case 0x00B2: // <= { RB_TOKEN_CODE("29EE02000029EF0200000B53"); RB_TOKEN_NAME("<="); flags=0x00023401; break; } case 0x00B3: // >= { RB_TOKEN_CODE("29EA02000029EB0200000B53"); RB_TOKEN_NAME(">="); flags=0x00023401; break; } case 0x00B4: // == { RB_TOKEN_CODE("29E602000029E70200000B53"); RB_TOKEN_NAME("=="); flags=0x00023401; break; } case 0x00B5: // != { RB_TOKEN_CODE("29DE02000029DF0200000B53"); RB_TOKEN_NAME("!="); flags=0x00023401; break; } case 0x00B6: // *= { RB_TOKEN_CODE("29DA02000029DB0200000B53"); RB_TOKEN_NAME("*="); flags=0x00423401; break; } case 0x00B7: // /= { RB_TOKEN_CODE("29D602000029D70200000B53"); RB_TOKEN_NAME("/="); flags=0x00423401; break; } case 0x00B8: // += { RB_TOKEN_CODE("29D202000029D30200000B53"); RB_TOKEN_NAME("+="); flags=0x00423401; break; } case 0x00B9: // -= { RB_TOKEN_CODE("29CE02000029CF0200000B53"); RB_TOKEN_NAME("-="); flags=0x00423401; break; } case 0x00BA: // Abs { RB_TOKEN_CODE("29CB0200000B53"); RB_TOKEN_NAME("Abs"); flags=0x00022401; break; } case 0x00BB: // Sin { RB_TOKEN_CODE("29C80200000B53"); RB_TOKEN_NAME("Sin"); flags=0x00022401; break; } case 0x00BC: // Cos { RB_TOKEN_CODE("29C20200000B53"); RB_TOKEN_NAME("Cos"); flags=0x00022401; break; } case 0x00BD: // Tan { RB_TOKEN_CODE("29BC0200000B53"); RB_TOKEN_NAME("Tan"); flags=0x00022401; break; } case 0x00BE: // Atan { RB_TOKEN_CODE("29B902000029BA0200000B53"); RB_TOKEN_NAME("Atan"); flags=0x00022401; break; } case 0x00BF: // Exp { RB_TOKEN_CODE("29B60200000B53"); RB_TOKEN_NAME("Exp"); flags=0x00022401; break; } case 0x00C0: // Loge { RB_TOKEN_CODE("29B30200000B53"); RB_TOKEN_NAME("Loge"); flags=0x00022401; break; } case 0x00C1: // Sqrt { RB_TOKEN_CODE("29B00200000B53"); RB_TOKEN_NAME("Sqrt"); flags=0x00022401; break; } case 0x00C2: // Square { RB_TOKEN_CODE("29AD0200000B53"); RB_TOKEN_NAME("Square"); flags=0x00022401; break; } case 0x00C3: // FRand { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("FRand"); flags=0x00022401; break; } case 0x00C4: // >>> { RB_TOKEN_CODE("296503000029660300000B53"); RB_TOKEN_NAME(">>>"); flags=0x00023401; break; } case 0x00C5: // IsA { RB_TOKEN_CODE("29280100000B53"); RB_TOKEN_NAME("IsA"); flags=0x00020401; break; } case 0x00C9: // Repl { RB_TOKEN_CODE("29500100002951010000295201000029530100000B53"); RB_TOKEN_NAME("Repl"); flags=0x00022401; break; } case 0x00CB: // != { RB_TOKEN_CODE("2909020000290A0200000B53"); RB_TOKEN_NAME("!="); flags=0x00023401; break; } case 0x00D2: // ~= { RB_TOKEN_CODE("29E202000029E30200000B53"); RB_TOKEN_NAME("~="); flags=0x00023401; break; } case 0x00D3: // - { RB_TOKEN_CODE("29800200000B53"); RB_TOKEN_NAME("-"); flags=0x00023411; break; } case 0x00D4: // * { RB_TOKEN_CODE("297D020000297E0200000B53"); RB_TOKEN_NAME("*"); flags=0x00023401; break; } case 0x00D5: // * { RB_TOKEN_CODE("2979020000297A0200000B53"); RB_TOKEN_NAME("*"); flags=0x00023401; break; } case 0x00D6: // / { RB_TOKEN_CODE("297102000029720200000B53"); RB_TOKEN_NAME("/"); flags=0x00023401; break; } case 0x00D7: // + { RB_TOKEN_CODE("296D020000296E0200000B53"); RB_TOKEN_NAME("+"); flags=0x00023401; break; } case 0x00D8: // - { RB_TOKEN_CODE("2969020000296A0200000B53"); RB_TOKEN_NAME("-"); flags=0x00023401; break; } case 0x00D9: // == { RB_TOKEN_CODE("295D020000295E0200000B53"); RB_TOKEN_NAME("=="); flags=0x00023401; break; } case 0x00DA: // != { RB_TOKEN_CODE("2959020000295A0200000B53"); RB_TOKEN_NAME("!="); flags=0x00023401; break; } case 0x00DB: // Dot { RB_TOKEN_CODE("295502000029560200000B53"); RB_TOKEN_NAME("Dot"); flags=0x00023401; break; } case 0x00DC: // Cross { RB_TOKEN_CODE("295102000029520200000B53"); RB_TOKEN_NAME("Cross"); flags=0x00023401; break; } case 0x00DD: // *= { RB_TOKEN_CODE("294D020000294E0200000B53"); RB_TOKEN_NAME("*="); flags=0x00423401; break; } case 0x00DE: // /= { RB_TOKEN_CODE("294502000029460200000B53"); RB_TOKEN_NAME("/="); flags=0x00423401; break; } case 0x00DF: // += { RB_TOKEN_CODE("294102000029420200000B53"); RB_TOKEN_NAME("+="); flags=0x00423401; break; } case 0x00E0: // -= { RB_TOKEN_CODE("293D020000293E0200000B53"); RB_TOKEN_NAME("-="); flags=0x00423401; break; } case 0x00E1: // VSize { RB_TOKEN_CODE("293A0200000B53"); RB_TOKEN_NAME("VSize"); flags=0x00022401; break; } case 0x00E2: // Normal { RB_TOKEN_CODE("292E0200000B53"); RB_TOKEN_NAME("Normal"); flags=0x00022401; break; } case 0x00E5: // GetAxes { RB_TOKEN_CODE("29DC01000029DD01000029DE01000029DF0100000B53"); RB_TOKEN_NAME("GetAxes"); flags=0x00422401; break; } case 0x00E6: // GetUnAxes { RB_TOKEN_CODE("29D701000029D801000029D901000029DA0100000B53"); RB_TOKEN_NAME("GetUnAxes"); flags=0x00422401; break; } case 0x00E7: // LogInternal { RB_TOKEN_CODE("29AC00000029AD0000000B53"); RB_TOKEN_NAME("LogInternal"); flags=0x00022401; break; } case 0x00E8: // WarnInternal { RB_TOKEN_CODE("29AA0000000B53"); RB_TOKEN_NAME("WarnInternal"); flags=0x00022401; break; } case 0x00EA: // Right { RB_TOKEN_CODE("296201000029630100000B53"); RB_TOKEN_NAME("Right"); flags=0x00022401; break; } case 0x00EB: // Caps { RB_TOKEN_CODE("295F0100000B53"); RB_TOKEN_NAME("Caps"); flags=0x00022401; break; } case 0x00EC: // Chr { RB_TOKEN_CODE("29590100000B53"); RB_TOKEN_NAME("Chr"); flags=0x00022401; break; } case 0x00ED: // Asc { RB_TOKEN_CODE("29560100000B53"); RB_TOKEN_NAME("Asc"); flags=0x00022401; break; } case 0x00EE: // Locs { RB_TOKEN_CODE("295C0100000B53"); RB_TOKEN_NAME("Locs"); flags=0x00022401; break; } case 0x00F2: // == { RB_TOKEN_CODE("29B303000029B40300000B53"); RB_TOKEN_NAME("=="); flags=0x00023401; break; } case 0x00F3: // != { RB_TOKEN_CODE("29AF03000029B00300000B53"); RB_TOKEN_NAME("!="); flags=0x00023401; break; } case 0x00F4: // FMin { RB_TOKEN_CODE("29A702000029A80200000B53"); RB_TOKEN_NAME("FMin"); flags=0x00022401; break; } case 0x00F5: // FMax { RB_TOKEN_CODE("29A302000029A40200000B53"); RB_TOKEN_NAME("FMax"); flags=0x00022401; break; } case 0x00F6: // FClamp { RB_TOKEN_CODE("299E020000299F02000029A00200000B53"); RB_TOKEN_NAME("FClamp"); flags=0x00022401; break; } case 0x00F7: // Lerp { RB_TOKEN_CODE("2999020000299A020000299B0200000B53"); RB_TOKEN_NAME("Lerp"); flags=0x00022401; break; } case 0x00F9: // Min { RB_TOKEN_CODE("291E030000291F0300000B53"); RB_TOKEN_NAME("Min"); flags=0x00022401; break; } case 0x00FA: // Max { RB_TOKEN_CODE("291A030000291B0300000B53"); RB_TOKEN_NAME("Max"); flags=0x00022401; break; } case 0x00FB: // Clamp { RB_TOKEN_CODE("2915030000291603000029170300000B53"); RB_TOKEN_NAME("Clamp"); flags=0x00022401; break; } case 0x00FC: // VRand { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("VRand"); flags=0x00022401; break; } case 0x00FE: // == { RB_TOKEN_CODE("292401000029250100000B53"); RB_TOKEN_NAME("=="); flags=0x00023401; break; } case 0x00FF: // != { RB_TOKEN_CODE("292001000029210100000B53"); RB_TOKEN_NAME("!="); flags=0x00023401; break; } case 0x0100: // Sleep { RB_TOKEN_CODE("294C0D00000B53"); RB_TOKEN_NAME("Sleep"); flags=0x00020409; break; } case 0x0102: // ClassIsChildOf { RB_TOKEN_CODE("292B010000292C0100000B53"); RB_TOKEN_NAME("ClassIsChildOf"); flags=0x00022401; break; } case 0x0105: // FinishAnim { RB_TOKEN_CODE("294B0D00000B53"); RB_TOKEN_NAME("FinishAnim"); flags=0x00020409; break; } case 0x0106: // SetCollision { RB_TOKEN_CODE("29470D000029480D000029490D00000B53"); RB_TOKEN_NAME("SetCollision"); flags=0x00020401; break; } case 0x010A: // Move { RB_TOKEN_CODE("293D0D00000B53"); RB_TOKEN_NAME("Move"); flags=0x00020401; break; } case 0x010B: // SetLocation { RB_TOKEN_CODE("293A0D00000B53"); RB_TOKEN_NAME("SetLocation"); flags=0x00020401; break; } case 0x010E: // + { RB_TOKEN_CODE("29F900000029FA0000000B53"); RB_TOKEN_NAME("+"); flags=0x00023401; break; } case 0x010F: // - { RB_TOKEN_CODE("29F000000029F10000000B53"); RB_TOKEN_NAME("-"); flags=0x00023401; break; } case 0x0110: // SetOwner { RB_TOKEN_CODE("29230D00000B53"); RB_TOKEN_NAME("SetOwner"); flags=0x00020401; break; } case 0x0113: // << { RB_TOKEN_CODE("296502000029660200000B53"); RB_TOKEN_NAME("<<"); flags=0x00023401; break; } case 0x0114: // >> { RB_TOKEN_CODE("296102000029620200000B53"); RB_TOKEN_NAME(">>"); flags=0x00023401; break; } case 0x0115: // Trace { RB_TOKEN_CODE("29940C000029950C000029960C000029970C000029980C000029990C0000299A0C0000299B0C00000B53"); RB_TOKEN_NAME("Trace"); flags=0x00420401; break; } case 0x0116: // Spawn { RB_TOKEN_CODE("29730C000029740C000029750C000029760C000029770C000029780C000029790C00000B53"); RB_TOKEN_NAME("Spawn"); flags=0x00020401; break; } case 0x0117: // Destroy { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("Destroy"); flags=0x00020401; break; } case 0x0118: // SetTimer { RB_TOKEN_CODE("296B0C0000296C0C0000296D0C0000296E0C00000B53"); RB_TOKEN_NAME("SetTimer"); flags=0x00020401; break; } case 0x0119: // IsInState { RB_TOKEN_CODE("2999000000299A0000000B53"); RB_TOKEN_NAME("IsInState"); flags=0x00020401; break; } case 0x011B: // SetCollisionSize { RB_TOKEN_CODE("29440D000029450D00000B53"); RB_TOKEN_NAME("SetCollisionSize"); flags=0x00020401; break; } case 0x011C: // GetStateName { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("GetStateName"); flags=0x00020401; break; } case 0x011F: // * { RB_TOKEN_CODE("290502000029060200000B53"); RB_TOKEN_NAME("*"); flags=0x00023401; break; } case 0x0120: // * { RB_TOKEN_CODE("290102000029020200000B53"); RB_TOKEN_NAME("*"); flags=0x00023401; break; } case 0x0121: // / { RB_TOKEN_CODE("29FD01000029FE0100000B53"); RB_TOKEN_NAME("/"); flags=0x00023401; break; } case 0x0122: // *= { RB_TOKEN_CODE("29F901000029FA0100000B53"); RB_TOKEN_NAME("*="); flags=0x00423401; break; } case 0x0123: // /= { RB_TOKEN_CODE("29F501000029F60100000B53"); RB_TOKEN_NAME("/="); flags=0x00423401; break; } case 0x0128: // * { RB_TOKEN_CODE("297502000029760200000B53"); RB_TOKEN_NAME("*"); flags=0x00023401; break; } case 0x0129: // *= { RB_TOKEN_CODE("2949020000294A0200000B53"); RB_TOKEN_NAME("*="); flags=0x00423401; break; } case 0x012A: // SetBase { RB_TOKEN_CODE("29250D000029260D000029270D000029280D00000B53"); RB_TOKEN_NAME("SetBase"); flags=0x00020401; break; } case 0x012B: // SetRotation { RB_TOKEN_CODE("29370D00000B53"); RB_TOKEN_NAME("SetRotation"); flags=0x00020401; break; } case 0x012C: // MirrorVectorByNormal { RB_TOKEN_CODE("291E020000291F0200000B53"); RB_TOKEN_NAME("MirrorVectorByNormal"); flags=0x00022401; break; } case 0x0130: // AllActors { RB_TOKEN_CODE("29360C000029370C00000B53"); RB_TOKEN_NAME("AllActors"); flags=0x00420405; break; } case 0x0131: // ChildActors { RB_TOKEN_CODE("29300C000029310C00000B53"); RB_TOKEN_NAME("ChildActors"); flags=0x00420405; break; } case 0x0132: // BasedActors { RB_TOKEN_CODE("292D0C0000292E0C00000B53"); RB_TOKEN_NAME("BasedActors"); flags=0x00420405; break; } case 0x0133: // TouchingActors { RB_TOKEN_CODE("292A0C0000292B0C00000B53"); RB_TOKEN_NAME("TouchingActors"); flags=0x00420405; break; } case 0x0135: // TraceActors { RB_TOKEN_CODE("29210C000029220C000029230C000029240C000029250C000029260C000029270C000029280C00000B53"); RB_TOKEN_NAME("TraceActors"); flags=0x00420405; break; } case 0x0137: // VisibleActors { RB_TOKEN_CODE("291C0C0000291D0C0000291E0C0000291F0C00000B53"); RB_TOKEN_NAME("VisibleActors"); flags=0x00420405; break; } case 0x0138: // VisibleCollidingActors { RB_TOKEN_CODE("29160C000029170C000029180C000029190C0000291A0C00000B53"); RB_TOKEN_NAME("VisibleCollidingActors"); flags=0x00420405; break; } case 0x0139: // DynamicActors { RB_TOKEN_CODE("29330C000029340C00000B53"); RB_TOKEN_NAME("DynamicActors"); flags=0x00420405; break; } case 0x013C: // + { RB_TOKEN_CODE("29F101000029F20100000B53"); RB_TOKEN_NAME("+"); flags=0x00023401; break; } case 0x013D: // - { RB_TOKEN_CODE("29ED01000029EE0100000B53"); RB_TOKEN_NAME("-"); flags=0x00023401; break; } case 0x013E: // += { RB_TOKEN_CODE("29E901000029EA0100000B53"); RB_TOKEN_NAME("+="); flags=0x00423401; break; } case 0x013F: // -= { RB_TOKEN_CODE("29E501000029E60100000B53"); RB_TOKEN_NAME("-="); flags=0x00423401; break; } case 0x0140: // RotRand { RB_TOKEN_CODE("29D40100000B53"); RB_TOKEN_NAME("RotRand"); flags=0x00022401; break; } case 0x0141: // CollidingActors { RB_TOKEN_CODE("29100C000029110C000029120C000029130C000029140C00000B53"); RB_TOKEN_NAME("CollidingActors"); flags=0x00420405; break; } case 0x0142: // $= { RB_TOKEN_CODE("297D010000297E0100000B53"); RB_TOKEN_NAME("$="); flags=0x00423401; break; } case 0x0143: // @= { RB_TOKEN_CODE("2979010000297A0100000B53"); RB_TOKEN_NAME("@="); flags=0x00423401; break; } case 0x0144: // -= { RB_TOKEN_CODE("297601000029770100000B53"); RB_TOKEN_NAME("-="); flags=0x00423401; break; } case 0x01D0: // StrLen { RB_TOKEN_CODE("29262C000029272C000029282C00000B53"); RB_TOKEN_NAME("StrLen"); flags=0x00420401; break; } case 0x01D1: // DrawText { RB_TOKEN_CODE("291F2C000029202C00000B53"); RB_TOKEN_NAME("DrawText"); flags=0x00020401; break; } case 0x01D2: // DrawTile { RB_TOKEN_CODE("29312C000029322C000029332C000029342C000029352C000029362C000029372C00000B53"); RB_TOKEN_NAME("DrawTile"); flags=0x00020401; break; } case 0x01D5: // DrawTextClipped { RB_TOKEN_CODE("291C2C0000291D2C00000B53"); RB_TOKEN_NAME("DrawTextClipped"); flags=0x00020401; break; } case 0x01D6: // TextSize { RB_TOKEN_CODE("29222C000029232C000029242C00000B53"); RB_TOKEN_NAME("TextSize"); flags=0x00420401; break; } case 0x01F4: // MoveTo { RB_TOKEN_CODE("2916260000291726000029182600000B53"); RB_TOKEN_NAME("MoveTo"); flags=0x00020409; break; } case 0x01F6: // MoveToward { RB_TOKEN_CODE("291026000029112600002912260000291326000029142600000B53"); RB_TOKEN_NAME("MoveToward"); flags=0x00020409; break; } case 0x01FC: // FinishRotation { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("FinishRotation"); flags=0x00020409; break; } case 0x0200: // MakeNoise { RB_TOKEN_CODE("294F0C000029500C00000B53"); RB_TOKEN_NAME("MakeNoise"); flags=0x00020401; break; } case 0x0202: // LineOfSightTo { RB_TOKEN_CODE("293326000029342600000B53"); RB_TOKEN_NAME("LineOfSightTo"); flags=0x00020401; break; } case 0x0205: // FindPathToward { RB_TOKEN_CODE("29032600002904260000290526000029062600000B53"); RB_TOKEN_NAME("FindPathToward"); flags=0x00020401; break; } case 0x0206: // FindPathTo { RB_TOKEN_CODE("2909260000290A260000290B2600000B53"); RB_TOKEN_NAME("FindPathTo"); flags=0x00020401; break; } case 0x0208: // ActorReachable { RB_TOKEN_CODE("29EE2500000B53"); RB_TOKEN_NAME("ActorReachable"); flags=0x00020401; break; } case 0x0209: // PointReachable { RB_TOKEN_CODE("29F12500000B53"); RB_TOKEN_NAME("PointReachable"); flags=0x00020401; break; } case 0x020C: // FindStairRotation { RB_TOKEN_CODE("294F2B00000B53"); RB_TOKEN_NAME("FindStairRotation"); flags=0x00020401; break; } case 0x020D: // FindRandomDest { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("FindRandomDest"); flags=0x00020401; break; } case 0x020E: // PickWallAdjust { RB_TOKEN_CODE("29E82500000B53"); RB_TOKEN_NAME("PickWallAdjust"); flags=0x00020401; break; } case 0x020F: // WaitForLanding { RB_TOKEN_CODE("29E62500000B53"); RB_TOKEN_NAME("WaitForLanding"); flags=0x00020409; break; } case 0x0213: // PickTarget { RB_TOKEN_CODE("2923260000292426000029252600002926260000292726000029282600000B53"); RB_TOKEN_NAME("PickTarget"); flags=0x00420401; break; } case 0x0214: // PlayerCanSeeMe { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("PlayerCanSeeMe"); flags=0x00020401; break; } case 0x0215: // CanSee { RB_TOKEN_CODE("29302600000B53"); RB_TOKEN_NAME("CanSee"); flags=0x00020401; break; } case 0x0218: // SaveConfig { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("SaveConfig"); flags=0x00020401; break; } case 0x0219: // CanSeeByPoints { RB_TOKEN_CODE("292B260000292C260000292D2600000B53"); RB_TOKEN_NAME("CanSeeByPoints"); flags=0x00020401; break; } case 0x0222: // UpdateURL { RB_TOKEN_CODE("29642B000029652B000029662B00000B53"); RB_TOKEN_NAME("UpdateURL"); flags=0x00020401; break; } case 0x0223: // GetURLMap { RB_TOKEN_CODE("0B53"); RB_TOKEN_NAME("GetURLMap"); flags=0x00020401; break; } case 0x0224: // FastTrace { RB_TOKEN_CODE("29860C000029870C000029880C00000B53"); RB_TOKEN_NAME("FastTrace"); flags=0x00020401; break; } case 0x05DC: // ProjectOnTo { RB_TOKEN_CODE("291A020000291B0200000B53"); RB_TOKEN_NAME("ProjectOnTo"); flags=0x00022401; break; } case 0x05DD: // IsZero { RB_TOKEN_CODE("29170200000B53"); RB_TOKEN_NAME("IsZero"); flags=0x00022401; break; } case 0x0F81: // MoveSmooth { RB_TOKEN_CODE("292D0D00000B53"); RB_TOKEN_NAME("MoveSmooth"); flags=0x00020401; break; } case 0x0F82: // SetPhysics { RB_TOKEN_CODE("29E20C00000B53"); RB_TOKEN_NAME("SetPhysics"); flags=0x00020401; break; } case 0x0F83: // AutonomousPhysics { RB_TOKEN_CODE("292C0D00000B53"); RB_TOKEN_NAME("AutonomousPhysics"); flags=0x00020401; break; } default: { throw upexception(wxString::Format(wxT("Unknown Function Token %x at %s"),dword(token),Arc.DebugInfo().c_str())); } } output = name; AddToken(t); PushStack(t); if( rbHasFlag(flags,0x1000) ) { if( rbHasFlag(flags,0x10) ) { // preoperator //wxLogMessage( wxT("%x %x preoperator"),token,flags); output = name; PrintOutput(output); for( dword x=0; x!=0xFF; ++x ) if( LoadToken() == 0x16 ) break; } else { // post/operator //wxLogMessage( wxT("%x %x post/operator"),token,flags); output = wxString::Format( wxT(" %s "), PF_SAFESTR(name) ); for( dword x=0; x!=0xFF; ++x ) { if( LoadToken() == 0x16 ) break; if( x == 0 ) { PrintOutput(output); } } } } else { output = wxString::Format( wxT("%s"), PF_SAFESTR(name) ); ParseAndOutputFunction( output ); } PopStack(); PrintPostOutput(t); /* static final preoperator byte #(byte a){return a;} // 00000000000000100011000000010010 static final postoperator byte #(byte a){return a;} // 00000000000000100011000000000011 static final operator(1) byte #(byte a, byte b){return a;} // 00000000000000100011000000000011 // 0072 == // 00000000000000100011010000000001 // 00000000000000000001000000000000 FUNC_Operator = 0x00001000, // Operator function. FUNC_PreOperator = 0x00000010, // Unary operator is a prefix operator. FUNC_Final = 0x00000001, // Function is final (prebindable, non-overridable function). FUNC_Defined = 0x00000002, // Function has been defined (not just declared). FUNC_Iterator = 0x00000004, // Function is an iterator. FUNC_Latent = 0x00000008, // Function is a latent state function. FUNC_Singular = 0x00000020, // Function cannot be reentered. FUNC_Net = 0x00000040, // Function is network-replicated. FUNC_NetReliable = 0x00000080, // Function should be sent reliably on the network. FUNC_Simulated = 0x00000100, // Function executed on the client side. FUNC_Exec = 0x00000200, // Executable from command line. FUNC_Native = 0x00000400, // Native function. FUNC_Event = 0x00000800, // Event function. FUNC_Static = 0x00002000, // Static function. FUNC_NoExport = 0x00004000, // Don't export intrinsic function to C++. FUNC_Const = 0x00008000, // Function doesn't modify this object. FUNC_Invariant = 0x00010000, // Return value is purely dependent on parameters; no state dependencies or internal state changes. FUNC_Public = 0x00020000, // Function is accessible in all classes (if overridden, parameters much remain unchanged). FUNC_Private = 0x00040000, // Function is accessible only in the class it is defined in (cannot be overriden, but function name may be reused in subclasses. IOW: if overridden, parameters don't need to match, and Super.Func() cannot be accessed since it's private.) FUNC_Protected = 0x00080000, // Function is accessible only in the class it is defined in and subclasses (if overridden, parameters much remain unchanged). FUNC_Delegate = 0x00100000, // Function is actually a delegate. */ /*if( !t ) { t = new rbToken(token,name,output); AddToken(t); } dword idx = 0; dword param = 0; while( idx < code.Length() ) { unsigned long val; if( !code.Mid(idx,2).ToULong(&val,16) ) throw upexception(wxString::Format(wxT("Unknown Function Token code %x at %s"),dword(token),Arc.DebugInfo().c_str())); idx += 2; if( val == 0x29 ) { ++param; if( !code.Mid(idx,4).ToULong(&val,16) ) throw upexception(wxString::Format(wxT("Unknown Function Token code 2 %x at %s"),dword(token),Arc.DebugInfo().c_str())); //val = wxUINT32_SWAP_ALWAYS(val); idx += 4; wxLogMessage( wxString::Format(wxT("LOAD param %d for %s"),param,PF_SAFESTR(name))); AddToken(LoadToken(true)); } else if( val == 0x0b ) { // should be 0x16 = endparams AddToken(LoadToken(true)); wxLogMessage( wxString::Format(wxT("END param for %s"),PF_SAFESTR(name))); } } */ } catch( upexception& e ) { throw upexception( wxString::Format(wxT(" [%.4x]%s -- %s"), token, PF_SAFESTR(name), e.wwhat().c_str() )); } catch( exception& e ) { throw exception( wxString::Format(wxT(" [%.4x]%s -- %hs"), token, PF_SAFESTR(name), e.what()).ToAscii()); } }
static int blk_part_exp(MACRO_PROT_ARGS) { int la, nl; enum margserr ac; struct mdoc_node *head; /* keep track of head */ struct mdoc_node *body; /* keep track of body */ char *p; enum mdoct ntok; nl = MDOC_NEWLINE & mdoc->flags; /* * The opening of an explicit macro having zero or more leading * punctuation nodes; a head with optional single element (the * case of `Eo'); and a body that may be empty. */ if ( ! mdoc_block_alloc(mdoc, line, ppos, tok, NULL)) return(0); for (head = body = NULL; ; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_PUNCT == ac) break; if (ARGS_EOLN == ac) break; /* Flush out leading punctuation. */ if (NULL == head && ARGS_QWORD != ac && DELIM_OPEN == mdoc_isdelim(p)) { assert(NULL == body); if ( ! dword(mdoc, line, la, p, DELIM_OPEN, 0)) return(0); continue; } if (NULL == head) { assert(NULL == body); if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); head = mdoc->last; } /* * `Eo' gobbles any data into the head, but most other * macros just immediately close out and begin the body. */ if (NULL == body) { assert(head); /* No check whether it's a macro! */ if (MDOC_Eo == tok) if ( ! dword(mdoc, line, la, p, DELIM_MAX, 0)) return(0); if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; if (MDOC_Eo == tok) continue; } assert(NULL != head && NULL != body); ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); break; } /* Clean-up to leave in a consistent state. */ if (NULL == head) if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); if (NULL == body) { if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); } /* Standard appending of delimiters. */ if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); }
static int in_line(MACRO_PROT_ARGS) { int la, scope, cnt, nc, nl; enum margverr av; enum mdoct ntok; enum margserr ac; enum mdelim d; struct mdoc_arg *arg; char *p; nl = MDOC_NEWLINE & mdoc->flags; /* * Whether we allow ignored elements (those without content, * usually because of reserved words) to squeak by. */ switch (tok) { case (MDOC_An): /* FALLTHROUGH */ case (MDOC_Ar): /* FALLTHROUGH */ case (MDOC_Fl): /* FALLTHROUGH */ case (MDOC_Mt): /* FALLTHROUGH */ case (MDOC_Nm): /* FALLTHROUGH */ case (MDOC_Pa): nc = 1; break; default: nc = 0; break; } for (arg = NULL;; ) { la = *pos; av = mdoc_argv(mdoc, line, tok, &arg, pos, buf); if (ARGV_WORD == av) { *pos = la; break; } if (ARGV_EOLN == av) break; if (ARGV_ARG == av) continue; mdoc_argv_free(arg); return(0); } for (cnt = scope = 0;; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) break; if (ARGS_PUNCT == ac) break; ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); /* * In this case, we've located a submacro and must * execute it. Close out scope, if open. If no * elements have been generated, either create one (nc) * or raise a warning. */ if (MDOC_MAX != ntok) { if (scope && ! rew_elem(mdoc, tok)) return(0); if (nc && 0 == cnt) { if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); if ( ! rew_last(mdoc, mdoc->last)) return(0); } else if ( ! nc && 0 == cnt) { mdoc_argv_free(arg); mdoc_pmsg(mdoc, line, ppos, MANDOCERR_MACROEMPTY); } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); } /* * Non-quote-enclosed punctuation. Set up our scope, if * a word; rewind the scope, if a delimiter; then append * the word. */ d = ARGS_QWORD == ac ? DELIM_NONE : mdoc_isdelim(p); if (DELIM_NONE != d) { /* * If we encounter closing punctuation, no word * has been omitted, no scope is open, and we're * allowed to have an empty element, then start * a new scope. `Ar', `Fl', and `Li', only do * this once per invocation. There may be more * of these (all of them?). */ if (0 == cnt && (nc || MDOC_Li == tok) && DELIM_CLOSE == d && ! scope) { if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); if (MDOC_Ar == tok || MDOC_Li == tok || MDOC_Fl == tok) cnt++; scope = 1; } /* * Close out our scope, if one is open, before * any punctuation. */ if (scope && ! rew_elem(mdoc, tok)) return(0); scope = 0; } else if ( ! scope) { if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); scope = 1; } if (DELIM_NONE == d) cnt++; if ( ! dword(mdoc, line, la, p, d, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); /* * `Fl' macros have their scope re-opened with each new * word so that the `-' can be added to each one without * having to parse out spaces. */ if (scope && MDOC_Fl == tok) { if ( ! rew_elem(mdoc, tok)) return(0); scope = 0; } } if (scope && ! rew_elem(mdoc, tok)) return(0); /* * If no elements have been collected and we're allowed to have * empties (nc), open a scope and close it out. Otherwise, * raise a warning. */ if (nc && 0 == cnt) { if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); if ( ! rew_last(mdoc, mdoc->last)) return(0); } else if ( ! nc && 0 == cnt) { mdoc_argv_free(arg); mdoc_pmsg(mdoc, line, ppos, MANDOCERR_MACROEMPTY); } if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); }
dword In::Read32() { byte data[4]; Read( data, 4 ); return data[0] | uint(data[1]) << 8 | dword(data[2]) << 16 | dword(data[3]) << 24; }
/* * Close out block partial/full explicit. */ static int blk_exp_close(MACRO_PROT_ARGS) { struct mdoc_node *body; /* Our own body. */ struct mdoc_node *later; /* A sub-block starting later. */ struct mdoc_node *n; /* For searching backwards. */ int j, lastarg, maxargs, flushed, nl; enum margserr ac; enum mdoct atok, ntok; char *p; nl = MDOC_NEWLINE & mdoc->flags; switch (tok) { case (MDOC_Ec): maxargs = 1; break; case (MDOC_Ek): mdoc->flags &= ~MDOC_KEEP; default: maxargs = 0; break; } /* * Search backwards for beginnings of blocks, * both of our own and of pending sub-blocks. */ atok = rew_alt(tok); body = later = NULL; for (n = mdoc->last; n; n = n->parent) { if (MDOC_VALID & n->flags) continue; /* Remember the start of our own body. */ if (MDOC_BODY == n->type && atok == n->tok) { if (ENDBODY_NOT == n->end) body = n; continue; } if (MDOC_BLOCK != n->type || MDOC_Nm == n->tok) continue; if (atok == n->tok) { assert(body); /* * Found the start of our own block. * When there is no pending sub block, * just proceed to closing out. */ if (NULL == later) break; /* * When there is a pending sub block, * postpone closing out the current block * until the rew_sub() closing out the sub-block. */ make_pending(later, tok, mdoc, line, ppos); /* * Mark the place where the formatting - but not * the scope - of the current block ends. */ if ( ! mdoc_endbody_alloc(mdoc, line, ppos, atok, body, ENDBODY_SPACE)) return(0); break; } /* * When finding an open sub block, remember the last * open explicit block, or, in case there are only * implicit ones, the first open implicit block. */ if (later && MDOC_EXPLICIT & mdoc_macros[later->tok].flags) continue; if (MDOC_It != n->tok) later = n; } if ( ! (MDOC_CALLABLE & mdoc_macros[tok].flags)) { /* FIXME: do this in validate */ if (buf[*pos]) mdoc_pmsg(mdoc, line, ppos, MANDOCERR_ARGSLOST); if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); return(rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)); } if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); if (NULL == later && maxargs > 0) if ( ! mdoc_tail_alloc(mdoc, line, ppos, rew_alt(tok))) return(0); for (flushed = j = 0; ; j++) { lastarg = *pos; if (j == maxargs && ! flushed) { if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); flushed = 1; } ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_PUNCT == ac) break; if (ARGS_EOLN == ac) break; ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, lastarg, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! flushed) { if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); flushed = 1; } mdoc->flags &= ~MDOC_NEWLINE; if ( ! mdoc_macro(mdoc, ntok, line, lastarg, pos, buf)) return(0); break; } if ( ! flushed && ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); }
static int in_line_eoln(MACRO_PROT_ARGS) { int la; enum margserr ac; enum margverr av; struct mdoc_arg *arg; char *p; enum mdoct ntok; assert( ! (MDOC_PARSED & mdoc_macros[tok].flags)); if (tok == MDOC_Pp) rew_sub(MDOC_BLOCK, mdoc, MDOC_Nm, line, ppos); /* Parse macro arguments. */ for (arg = NULL; ; ) { la = *pos; av = mdoc_argv(mdoc, line, tok, &arg, pos, buf); if (ARGV_WORD == av) { *pos = la; break; } if (ARGV_EOLN == av) break; if (ARGV_ARG == av) continue; mdoc_argv_free(arg); return(0); } /* Open element scope. */ if ( ! mdoc_elem_alloc(mdoc, line, ppos, tok, arg)) return(0); /* Parse argument terms. */ for (;;) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) break; ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! rew_elem(mdoc, tok)) return(0); return(mdoc_macro(mdoc, ntok, line, la, pos, buf)); } /* Close out (no delimiters). */ return(rew_elem(mdoc, tok)); }
/* ARGSUSED */ static int in_line_argn(MACRO_PROT_ARGS) { int la, flushed, j, maxargs, nl; enum margserr ac; enum margverr av; struct mdoc_arg *arg; char *p; enum mdoct ntok; nl = MDOC_NEWLINE & mdoc->flags; /* * A line macro that has a fixed number of arguments (maxargs). * Only open the scope once the first non-leading-punctuation is * found (unless MDOC_IGNDELIM is noted, like in `Pf'), then * keep it open until the maximum number of arguments are * exhausted. */ switch (tok) { case (MDOC_Ap): /* FALLTHROUGH */ case (MDOC_No): /* FALLTHROUGH */ case (MDOC_Ns): /* FALLTHROUGH */ case (MDOC_Ux): maxargs = 0; break; case (MDOC_Bx): /* FALLTHROUGH */ case (MDOC_Xr): maxargs = 2; break; default: maxargs = 1; break; } for (arg = NULL; ; ) { la = *pos; av = mdoc_argv(mdoc, line, tok, &arg, pos, buf); if (ARGV_WORD == av) { *pos = la; break; } if (ARGV_EOLN == av) break; if (ARGV_ARG == av) continue; mdoc_argv_free(arg); return(0); } for (flushed = j = 0; ; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_PUNCT == ac) break; if (ARGS_EOLN == ac) break; if ( ! (MDOC_IGNDELIM & mdoc_macros[tok].flags) && ARGS_QWORD != ac && 0 == j && DELIM_OPEN == mdoc_isdelim(p)) { if ( ! dword(mdoc, line, la, p, DELIM_OPEN, 0)) return(0); continue; } else if (0 == j) if ( ! mdoc_elem_alloc(mdoc, line, la, tok, arg)) return(0); if (j == maxargs && ! flushed) { if ( ! rew_elem(mdoc, tok)) return(0); flushed = 1; } ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX != ntok) { if ( ! flushed && ! rew_elem(mdoc, tok)) return(0); flushed = 1; if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); j++; break; } if ( ! (MDOC_IGNDELIM & mdoc_macros[tok].flags) && ARGS_QWORD != ac && ! flushed && DELIM_NONE != mdoc_isdelim(p)) { if ( ! rew_elem(mdoc, tok)) return(0); flushed = 1; } if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); j++; } if (0 == j && ! mdoc_elem_alloc(mdoc, line, la, tok, arg)) return(0); /* Close out in a consistent state. */ if ( ! flushed && ! rew_elem(mdoc, tok)) return(0); if ( ! nl) return(1); return(append_delims(mdoc, line, pos, buf)); }
static void blk_full(MACRO_PROT_ARGS) { int la, nl, parsed; struct mdoc_arg *arg; struct mdoc_node *blk; /* Our own or a broken block. */ struct mdoc_node *head; /* Our own head. */ struct mdoc_node *body; /* Our own body. */ struct mdoc_node *n; enum margserr ac, lac; char *p; nl = MDOC_NEWLINE & mdoc->flags; if (buf[*pos] == '\0' && (tok == MDOC_Sh || tok == MDOC_Ss)) { mandoc_msg(MANDOCERR_MACRO_EMPTY, mdoc->parse, line, ppos, mdoc_macronames[tok]); return; } if ( ! (mdoc_macros[tok].flags & MDOC_EXPLICIT)) { /* Here, tok is one of Sh Ss Nm Nd It. */ blk = NULL; for (n = mdoc->last; n != NULL; n = n->parent) { if (n->flags & MDOC_ENDED) { if ( ! (n->flags & MDOC_VALID)) n->flags |= MDOC_BROKEN; continue; } if (n->type != MDOC_BLOCK) continue; if (tok == MDOC_It && n->tok == MDOC_Bl) { if (blk != NULL) { mandoc_vmsg(MANDOCERR_BLK_BROKEN, mdoc->parse, line, ppos, "It breaks %s", mdoc_macronames[blk->tok]); rew_pending(mdoc, blk); } break; } if (mdoc_macros[n->tok].flags & MDOC_EXPLICIT) { switch (tok) { case MDOC_Sh: /* FALLTHROUGH */ case MDOC_Ss: mandoc_vmsg(MANDOCERR_BLK_BROKEN, mdoc->parse, line, ppos, "%s breaks %s", mdoc_macronames[tok], mdoc_macronames[n->tok]); rew_pending(mdoc, n); n = mdoc->last; continue; case MDOC_It: /* Delay in case it's astray. */ blk = n; continue; default: break; } break; } /* Here, n is one of Sh Ss Nm Nd It. */ if (tok != MDOC_Sh && (n->tok == MDOC_Sh || (tok != MDOC_Ss && (n->tok == MDOC_Ss || (tok != MDOC_It && n->tok == MDOC_It))))) break; /* Item breaking an explicit block. */ if (blk != NULL) { mandoc_vmsg(MANDOCERR_BLK_BROKEN, mdoc->parse, line, ppos, "It breaks %s", mdoc_macronames[blk->tok]); rew_pending(mdoc, blk); blk = NULL; } /* Close out prior implicit scopes. */ rew_last(mdoc, n); } /* Skip items outside lists. */ if (tok == MDOC_It && (n == NULL || n->tok != MDOC_Bl)) { mandoc_vmsg(MANDOCERR_IT_STRAY, mdoc->parse, line, ppos, "It %s", buf + *pos); mdoc_elem_alloc(mdoc, line, ppos, MDOC_br, NULL); rew_elem(mdoc, MDOC_br); return; } } /* * This routine accommodates implicitly- and explicitly-scoped * macro openings. Implicit ones first close out prior scope * (seen above). Delay opening the head until necessary to * allow leading punctuation to print. Special consideration * for `It -column', which has phrase-part syntax instead of * regular child nodes. */ mdoc_argv(mdoc, line, tok, &arg, pos, buf); blk = mdoc_block_alloc(mdoc, line, ppos, tok, arg); head = body = NULL; /* * Exception: Heads of `It' macros in `-diag' lists are not * parsed, even though `It' macros in general are parsed. */ parsed = tok != MDOC_It || mdoc->last->parent->tok != MDOC_Bl || mdoc->last->parent->norm->Bl.type != LIST_diag; /* * The `Nd' macro has all arguments in its body: it's a hybrid * of block partial-explicit and full-implicit. Stupid. */ if (tok == MDOC_Nd) { head = mdoc_head_alloc(mdoc, line, ppos, tok); rew_last(mdoc, head); body = mdoc_body_alloc(mdoc, line, ppos, tok); } if (tok == MDOC_Bk) mdoc->flags |= MDOC_KEEP; ac = ARGS_PEND; for (;;) { la = *pos; lac = ac; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ac == ARGS_EOLN) { if (lac != ARGS_PPHRASE && lac != ARGS_PHRASE) break; /* * This is necessary: if the last token on a * line is a `Ta' or tab, then we'll get * ARGS_EOLN, so we must be smart enough to * reopen our scope if the last parse was a * phrase or partial phrase. */ if (body != NULL) rew_last(mdoc, body); body = mdoc_body_alloc(mdoc, line, ppos, tok); break; } if (tok == MDOC_Bd || tok == MDOC_Bk) { mandoc_vmsg(MANDOCERR_ARG_EXCESS, mdoc->parse, line, la, "%s ... %s", mdoc_macronames[tok], buf + la); break; } if (tok == MDOC_Rs) { mandoc_vmsg(MANDOCERR_ARG_SKIP, mdoc->parse, line, la, "Rs %s", buf + la); break; } if (ac == ARGS_PUNCT) break; /* * Emit leading punctuation (i.e., punctuation before * the MDOC_HEAD) for non-phrase types. */ if (head == NULL && ac != ARGS_PEND && ac != ARGS_PHRASE && ac != ARGS_PPHRASE && ac != ARGS_QWORD && mdoc_isdelim(p) == DELIM_OPEN) { dword(mdoc, line, la, p, DELIM_OPEN, 0); continue; } /* Open a head if one hasn't been opened. */ if (head == NULL) head = mdoc_head_alloc(mdoc, line, ppos, tok); if (ac == ARGS_PHRASE || ac == ARGS_PEND || ac == ARGS_PPHRASE) { /* * If we haven't opened a body yet, rewind the * head; if we have, rewind that instead. */ rew_last(mdoc, body == NULL ? head : body); body = mdoc_body_alloc(mdoc, line, ppos, tok); /* * Process phrases: set whether we're in a * partial-phrase (this effects line handling) * then call down into the phrase parser. */ if (ac == ARGS_PPHRASE) mdoc->flags |= MDOC_PPHRASE; if (ac == ARGS_PEND && lac == ARGS_PPHRASE) mdoc->flags |= MDOC_PPHRASE; parse_rest(mdoc, MDOC_MAX, line, &la, buf); mdoc->flags &= ~MDOC_PPHRASE; continue; } if (macro_or_word(mdoc, tok, line, la, pos, buf, parsed)) break; } if (blk->flags & MDOC_VALID) return; if (head == NULL) head = mdoc_head_alloc(mdoc, line, ppos, tok); if (nl && tok != MDOC_Bd && tok != MDOC_Bl && tok != MDOC_Rs) append_delims(mdoc, line, pos, buf); if (body != NULL) goto out; /* * If there is an open (i.e., unvalidated) sub-block requiring * explicit close-out, postpone switching the current block from * head to body until the rew_pending() call closing out that * sub-block. */ for (n = mdoc->last; n && n != head; n = n->parent) { if (n->flags & MDOC_ENDED) { if ( ! (n->flags & MDOC_VALID)) n->flags |= MDOC_BROKEN; continue; } if (n->type == MDOC_BLOCK && mdoc_macros[n->tok].flags & MDOC_EXPLICIT) { n->flags = MDOC_BROKEN; head->flags = MDOC_ENDED; } } if (head->flags & MDOC_ENDED) return; /* Close out scopes to remain in a consistent state. */ rew_last(mdoc, head); body = mdoc_body_alloc(mdoc, line, ppos, tok); out: if (mdoc->flags & MDOC_FREECOL) { rew_last(mdoc, body); rew_last(mdoc, blk); mdoc->flags &= ~MDOC_FREECOL; } }
///////////////////////////////////////// // aes crypt ///////////////////////////////////////// int process_aes_crypt(char *globalptr, char *data, int datalen, int usekey, int blkseq, int need_xor){ static u8 zero[32]; static u32 ks[60]; u32 blk[0x10]; int j; int k; char *ptr; struct global_s *global; global=(struct global_s *)globalptr; memset(ks,0,sizeof(ks)); // if no key, use zero memset(zero,0,sizeof(zero)); // use real key if (usekey){ memcpy(zero,global->AES_KEY,0x20); }; // setup key aes_256_setkey (zero, ks); // for debug aes encoding // print key material if (0) { ptr=(char *)ks; show_memory(ptr, 60*4, "KeyMat"); }; // setup control block memset (blk, 0, 0x10); //if using key, control block have local and remote session id data. if (usekey){ blk[0]=global->LOCAL_SESSION_ID * 0x10000 + global->REMOTE_SESSION_ID; }; // need xor session id in control block if (need_xor){ blk[0]=blk[0] ^ 0xFFFFFFFF; }; blk[1]=blk[0]; blk[3]=blk[3] + (blkseq * 0x10000); show_memory(data, datalen, "Before AES crypt"); // process aes crypt for (j = 0; j+16 < datalen; j += 16){ aes_256_encrypt (blk, blk+4, ks); dword(data+j+ 0) ^= bswap32(blk[4]); dword(data+j+ 4) ^= bswap32(blk[5]); dword(data+j+ 8) ^= bswap32(blk[6]); dword(data+j+12) ^= bswap32(blk[7]); blk[3]++; }; if (j < datalen){ aes_256_encrypt (blk, blk+4, ks); for (k = 0; j < datalen; j++, k++) data[j] ^= ((u8 *)(blk+4))[k^3]; }; show_memory(data, datalen, "After AES crypt"); return 0; };
static int blk_part_imp(MACRO_PROT_ARGS) { int la, nl; enum mdoct ntok; enum margserr ac; char *p; struct mdoc_node *blk; /* saved block context */ struct mdoc_node *body; /* saved body context */ struct mdoc_node *n; nl = MDOC_NEWLINE & mdoc->flags; /* * A macro that spans to the end of the line. This is generally * (but not necessarily) called as the first macro. The block * has a head as the immediate child, which is always empty, * followed by zero or more opening punctuation nodes, then the * body (which may be empty, depending on the macro), then zero * or more closing punctuation nodes. */ if ( ! mdoc_block_alloc(mdoc, line, ppos, tok, NULL)) return(0); blk = mdoc->last; if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); /* * Open the body scope "on-demand", that is, after we've * processed all our the leading delimiters (open parenthesis, * etc.). */ for (body = NULL; ; ) { la = *pos; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) break; if (ARGS_PUNCT == ac) break; if (NULL == body && ARGS_QWORD != ac && DELIM_OPEN == mdoc_isdelim(p)) { if ( ! dword(mdoc, line, la, p, DELIM_OPEN)) return(0); continue; } if (NULL == body) { if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; } ntok = ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX)) return(0); continue; } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); break; } /* Clean-ups to leave in a consistent state. */ if (NULL == body) { if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; } for (n = body->child; n && n->next; n = n->next) /* Do nothing. */ ; /* * End of sentence spacing: if the last node is a text node and * has a trailing period, then mark it as being end-of-sentence. */ if (n && MDOC_TEXT == n->type && n->string) if (mandoc_eos(n->string, strlen(n->string), 1)) n->flags |= MDOC_EOS; /* Up-propagate the end-of-space flag. */ if (n && (MDOC_EOS & n->flags)) { body->flags |= MDOC_EOS; body->parent->flags |= MDOC_EOS; } /* * If there is an open sub-block requiring explicit close-out, * postpone closing out the current block * until the rew_sub() call closing out the sub-block. */ for (n = mdoc->last; n && n != body && n != blk->parent; n = n->parent) { if (MDOC_BLOCK == n->type && MDOC_EXPLICIT & mdoc_macros[n->tok].flags && ! (MDOC_VALID & n->flags)) { make_pending(n, tok, mdoc, line, ppos); if ( ! mdoc_endbody_alloc(mdoc, line, ppos, tok, body, ENDBODY_NOSPACE)) return(0); return(1); } } /* * If we can't rewind to our body, then our scope has already * been closed by another macro (like `Oc' closing `Op'). This * is ugly behaviour nodding its head to OpenBSD's overwhelming * crufty use of `Op' breakage. */ if (n != body) mandoc_vmsg(MANDOCERR_SCOPENEST, mdoc->parse, line, ppos, "%s broken", mdoc_macronames[tok]); if (n && ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); /* Standard appending of delimiters. */ if (nl && ! append_delims(mdoc, line, pos, buf)) return(0); /* Rewind scope, if applicable. */ if (n && ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); /* Move trailing .Ns out of scope. */ for (n = body->child; n && n->next; n = n->next) /* Do nothing. */ ; if (n && MDOC_Ns == n->tok) mdoc_node_relink(mdoc, n); return(1); }
static int blk_full(MACRO_PROT_ARGS) { int la, nl, nparsed; struct mdoc_arg *arg; struct mdoc_node *head; /* save of head macro */ struct mdoc_node *body; /* save of body macro */ struct mdoc_node *n; enum mdoc_type mtt; enum mdoct ntok; enum margserr ac, lac; enum margverr av; char *p; nl = MDOC_NEWLINE & mdoc->flags; /* Close out prior implicit scope. */ if ( ! (MDOC_EXPLICIT & mdoc_macros[tok].flags)) { if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); } /* * This routine accommodates implicitly- and explicitly-scoped * macro openings. Implicit ones first close out prior scope * (seen above). Delay opening the head until necessary to * allow leading punctuation to print. Special consideration * for `It -column', which has phrase-part syntax instead of * regular child nodes. */ for (arg = NULL;; ) { la = *pos; av = mdoc_argv(mdoc, line, tok, &arg, pos, buf); if (ARGV_WORD == av) { *pos = la; break; } if (ARGV_EOLN == av) break; if (ARGV_ARG == av) continue; mdoc_argv_free(arg); return(0); } if ( ! mdoc_block_alloc(mdoc, line, ppos, tok, arg)) return(0); head = body = NULL; /* * Exception: Heads of `It' macros in `-diag' lists are not * parsed, even though `It' macros in general are parsed. */ nparsed = MDOC_It == tok && MDOC_Bl == mdoc->last->parent->tok && LIST_diag == mdoc->last->parent->norm->Bl.type; /* * The `Nd' macro has all arguments in its body: it's a hybrid * of block partial-explicit and full-implicit. Stupid. */ if (MDOC_Nd == tok) { if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); head = mdoc->last; if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; } if (MDOC_Bk == tok) mdoc->flags |= MDOC_KEEP; ac = ARGS_ERROR; for ( ; ; ) { la = *pos; /* Initialise last-phrase-type with ARGS_PEND. */ lac = ARGS_ERROR == ac ? ARGS_PEND : ac; ac = mdoc_args(mdoc, line, pos, buf, tok, &p); if (ARGS_PUNCT == ac) break; if (ARGS_ERROR == ac) return(0); if (ARGS_EOLN == ac) { if (ARGS_PPHRASE != lac && ARGS_PHRASE != lac) break; /* * This is necessary: if the last token on a * line is a `Ta' or tab, then we'll get * ARGS_EOLN, so we must be smart enough to * reopen our scope if the last parse was a * phrase or partial phrase. */ if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; break; } /* * Emit leading punctuation (i.e., punctuation before * the MDOC_HEAD) for non-phrase types. */ if (NULL == head && ARGS_PEND != ac && ARGS_PHRASE != ac && ARGS_PPHRASE != ac && ARGS_QWORD != ac && DELIM_OPEN == mdoc_isdelim(p)) { if ( ! dword(mdoc, line, la, p, DELIM_OPEN, 0)) return(0); continue; } /* Open a head if one hasn't been opened. */ if (NULL == head) { if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); head = mdoc->last; } if (ARGS_PHRASE == ac || ARGS_PEND == ac || ARGS_PPHRASE == ac) { /* * If we haven't opened a body yet, rewind the * head; if we have, rewind that instead. */ mtt = body ? MDOC_BODY : MDOC_HEAD; if ( ! rew_sub(mtt, mdoc, tok, line, ppos)) return(0); /* Then allocate our body context. */ if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); body = mdoc->last; /* * Process phrases: set whether we're in a * partial-phrase (this effects line handling) * then call down into the phrase parser. */ if (ARGS_PPHRASE == ac) mdoc->flags |= MDOC_PPHRASE; if (ARGS_PEND == ac && ARGS_PPHRASE == lac) mdoc->flags |= MDOC_PPHRASE; if ( ! phrase(mdoc, line, la, buf)) return(0); mdoc->flags &= ~MDOC_PPHRASE; continue; } ntok = nparsed || ARGS_QWORD == ac ? MDOC_MAX : lookup(tok, p); if (MDOC_MAX == ntok) { if ( ! dword(mdoc, line, la, p, DELIM_MAX, MDOC_JOIN & mdoc_macros[tok].flags)) return(0); continue; } if ( ! mdoc_macro(mdoc, ntok, line, la, pos, buf)) return(0); break; } if (NULL == head) { if ( ! mdoc_head_alloc(mdoc, line, ppos, tok)) return(0); head = mdoc->last; } if (nl && ! append_delims(mdoc, line, pos, buf)) return(0); /* If we've already opened our body, exit now. */ if (NULL != body) goto out; /* * If there is an open (i.e., unvalidated) sub-block requiring * explicit close-out, postpone switching the current block from * head to body until the rew_sub() call closing out that * sub-block. */ for (n = mdoc->last; n && n != head; n = n->parent) { if (MDOC_BLOCK == n->type && MDOC_EXPLICIT & mdoc_macros[n->tok].flags && ! (MDOC_VALID & n->flags)) { n->pending = head; return(1); } } /* Close out scopes to remain in a consistent state. */ if ( ! rew_sub(MDOC_HEAD, mdoc, tok, line, ppos)) return(0); if ( ! mdoc_body_alloc(mdoc, line, ppos, tok)) return(0); out: if ( ! (MDOC_FREECOL & mdoc->flags)) return(1); if ( ! rew_sub(MDOC_BODY, mdoc, tok, line, ppos)) return(0); if ( ! rew_sub(MDOC_BLOCK, mdoc, tok, line, ppos)) return(0); mdoc->flags &= ~MDOC_FREECOL; return(1); }