/**************************************************************************** * * * Project64 - A Nintendo 64 emulator. * * http://www.pj64-emu.com/ * * Copyright (C) 2012 Project64. All rights reserved. * * * * License: * * GNU/GPLv2 http://www.gnu.org/licenses/gpl-2.0.html * * * ****************************************************************************/ #include "stdafx.h" #include "DebuggerUI.h" #include "Symbols.h" #include "Breakpoints.h" #include "Assembler.h" #include "OpInfo.h" #include void CCommandList::Attach(HWND hWndNew) { CListViewCtrl::Attach(hWndNew); ModifyStyle(LVS_OWNERDRAWFIXED, 0, 0); SetExtendedListViewStyle(LVS_EX_FULLROWSELECT | LVS_EX_DOUBLEBUFFER | LVS_EX_LABELTIP); AddColumn("", COL_ARROWS); SetColumnWidth(COL_ARROWS, 30); AddColumn("Address", COL_ADDRESS); SetColumnWidth(COL_ADDRESS, 65); AddColumn("Command", COL_COMMAND); SetColumnWidth(COL_COMMAND, 60); AddColumn("Parameters", COL_PARAMETERS); SetColumnWidth(COL_PARAMETERS, 120); AddColumn("Symbol", COL_SYMBOL); SetColumnWidth(COL_SYMBOL, 140); } CDebugCommandsView* CDebugCommandsView::_this = NULL; HHOOK CDebugCommandsView::hWinMessageHook = NULL; CDebugCommandsView::CDebugCommandsView(CDebuggerUI * debugger, SyncEvent &StepEvent) : CDebugDialog(debugger), CToolTipDialog(), m_StepEvent(StepEvent) { m_HistoryIndex = -1; m_bIgnoreAddrChange = false; m_StartAddress = 0x80000000; m_Breakpoints = m_Debugger->Breakpoints(); m_bEditing = false; m_CommandListRows = 39; m_RowHeight = 13; } CDebugCommandsView::~CDebugCommandsView() { } LRESULT CDebugCommandsView::OnInitDialog(UINT /*uMsg*/, WPARAM /*wParam*/, LPARAM /*lParam*/, BOOL& /*bHandled*/) { g_Settings->RegisterChangeCB(Debugger_WaitingForStep, this, (CSettings::SettingChangedFunc)StaticWaitingForStepChanged); g_Settings->RegisterChangeCB(Debugger_SteppingOps, this, (CSettings::SettingChangedFunc)StaticSteppingOpsChanged); m_CommandList.Attach(GetDlgItem(IDC_CMD_LIST)); m_BreakpointList.Attach(GetDlgItem(IDC_BP_LIST)); m_AddressEdit.Attach(GetDlgItem(IDC_ADDR_EDIT)); m_PCEdit.Attach(GetDlgItem(IDC_PC_EDIT)); m_ViewPCButton.Attach(GetDlgItem(IDC_VIEWPC_BTN)); m_StepButton.Attach(GetDlgItem(IDC_STEP_BTN)); m_SkipButton.Attach(GetDlgItem(IDC_SKIP_BTN)); m_GoButton.Attach(GetDlgItem(IDC_GO_BTN)); m_RegisterTabs.Attach(GetDlgItem(IDC_REG_TABS)); m_Scrollbar.Attach(GetDlgItem(IDC_SCRL_BAR)); m_BackButton.Attach(GetDlgItem(IDC_BACK_BTN)); m_ForwardButton.Attach(GetDlgItem(IDC_FORWARD_BTN)); m_OpEdit.Attach(GetDlgItem(IDC_OP_EDIT)); DlgResize_Init(false, true); DlgToolTip_Init(); CheckCPUType(); GetWindowRect(&m_DefaultWindowRect); // Setup address input m_AddressEdit.SetDisplayType(CEditNumber32::DisplayHex); m_AddressEdit.SetLimitText(8); // Setup PC register input m_PCEdit.SetDisplayType(CEditNumber32::DisplayHex); m_PCEdit.SetLimitText(8); m_bIgnorePCChange = true; m_PCEdit.SetValue(0x80000180, false, true); // Setup View PC button m_ViewPCButton.EnableWindow(FALSE); m_StepButton.EnableWindow(FALSE); m_SkipButton.EnableWindow(FALSE); m_GoButton.EnableWindow(FALSE); // Setup breakpoint list m_BreakpointList.ModifyStyle(NULL, LBS_NOTIFY); RefreshBreakpointList(); // Setup list scrollbar m_Scrollbar.SetScrollRange(0, 100, FALSE); m_Scrollbar.SetScrollPos(50, TRUE); // Setup history buttons ToggleHistoryButtons(); // Op editor m_OpEdit.SetCommandsWindow(this); m_bIgnoreAddrChange = true; m_AddressEdit.SetValue(0x80000000, false, true); ShowAddress(0x80000000, TRUE); if (isStepping()) { m_ViewPCButton.EnableWindow(TRUE); m_StepButton.EnableWindow(TRUE); m_SkipButton.EnableWindow(TRUE); m_GoButton.EnableWindow(TRUE); } _this = this; DWORD dwThreadID = ::GetCurrentThreadId(); hWinMessageHook = SetWindowsHookEx(WH_GETMESSAGE, (HOOKPROC)HookProc, NULL, dwThreadID); WindowCreated(); return TRUE; } LRESULT CDebugCommandsView::OnDestroy(void) { g_Settings->UnregisterChangeCB(Debugger_SteppingOps, this, (CSettings::SettingChangedFunc)StaticSteppingOpsChanged); g_Settings->UnregisterChangeCB(Debugger_WaitingForStep, this, (CSettings::SettingChangedFunc)StaticWaitingForStepChanged); UnhookWindowsHookEx(hWinMessageHook); m_OpEdit.Detach(); m_ForwardButton.Detach(); m_BackButton.Detach(); m_Scrollbar.Detach(); m_RegisterTabs.Detach(); m_GoButton.Detach(); m_SkipButton.Detach(); m_StepButton.Detach(); m_ViewPCButton.Detach(); m_PCEdit.Detach(); m_AddressEdit.Detach(); m_BreakpointList.Detach(); m_CommandList.Detach(); return 0; } void CDebugCommandsView::InterceptKeyDown(WPARAM wParam, LPARAM /*lParam*/) { switch (wParam) { case VK_F1: CPUSkip(); break; case VK_F2: if (WaitingForStep()) { m_StepEvent.Trigger(); } break; case VK_F3: // reserved step over break; case VK_F4: CPUResume(); break; } } void CDebugCommandsView::InterceptMouseWheel(WPARAM wParam, LPARAM /*lParam*/) { uint32_t newAddress = m_StartAddress - ((short)HIWORD(wParam) / WHEEL_DELTA) * 4; m_StartAddress = newAddress; m_AddressEdit.SetValue(m_StartAddress, false, true); } LRESULT CALLBACK CDebugCommandsView::HookProc(int nCode, WPARAM wParam, LPARAM lParam) { MSG *pMsg = (MSG*)lParam; if (pMsg->message == WM_KEYDOWN) { _this->InterceptKeyDown(pMsg->wParam, pMsg->lParam); } else if (pMsg->message == WM_MOUSEWHEEL) { _this->InterceptMouseWheel(pMsg->wParam, pMsg->lParam); } if (nCode < 0) { return CallNextHookEx(hWinMessageHook, nCode, wParam, lParam); } return 0; } LRESULT CDebugCommandsView::OnOpKeyDown(UINT /*uMsg*/, WPARAM wParam, LPARAM /*lParam*/, BOOL& bHandled) { if (wParam == VK_UP) { m_SelectedAddress -= 4; BeginOpEdit(m_SelectedAddress); bHandled = TRUE; } else if (wParam == VK_DOWN) { m_SelectedAddress += 4; BeginOpEdit(m_SelectedAddress); bHandled = TRUE; } else if (wParam == VK_RETURN) { char text[256] = { 0 }; m_OpEdit.GetWindowTextA(text, sizeof(text) - 1); uint32_t op; bool bValid = CAssembler::AssembleLine(text, &op, m_SelectedAddress); if (bValid) { m_OpEdit.SetWindowTextA(""); EditOp(m_SelectedAddress, op); m_SelectedAddress += 4; BeginOpEdit(m_SelectedAddress); } bHandled = TRUE; } else if (wParam == VK_ESCAPE) { EndOpEdit(); bHandled = TRUE; } return 1; } void CDebugCommandsView::CheckCPUType() { CPU_TYPE cpuType; if (g_Settings->LoadBool(Setting_ForceInterpreterCPU)) { cpuType = CPU_Interpreter; } else { cpuType = g_System->CpuType(); } if (cpuType != CPU_Interpreter) { MessageBox("Interpreter mode required", "Invalid CPU Type", MB_OK); } } // Check if KSEG0 addr is out of bounds bool CDebugCommandsView::AddressSafe(uint32_t vaddr) { if (g_MMU == NULL) { return false; } if (vaddr >= 0x80000000 && vaddr <= 0x9FFFFFFF) { if ((vaddr & 0x1FFFFFFF) >= g_MMU->RdramSize()) { return false; } } return true; } void CDebugCommandsView::ClearBranchArrows() { m_BranchArrows.clear(); } void CDebugCommandsView::AddBranchArrow(int startPos, int endPos) { int startMargin = 0; int endMargin = 0; int margin = 0; for (size_t j = 0; j < m_BranchArrows.size(); j++) { BRANCHARROW arrow = m_BranchArrows[j]; // Arrow's start or end pos within another arrow's stride if ((startPos >= arrow.startPos && startPos <= arrow.endPos) || (endPos >= arrow.startPos && endPos <= arrow.endPos) || (arrow.startPos <= startPos && arrow.startPos >= endPos)) { if (margin <= arrow.margin) { margin = arrow.margin + 1; } } if (startPos == arrow.startPos) { startMargin = arrow.startMargin + 1; } if (startPos == arrow.endPos) { startMargin = arrow.endMargin + 1; } if (endPos == arrow.startPos) { endMargin = arrow.startMargin + 1; } if (endPos == arrow.endPos) { endMargin = arrow.endMargin + 1; } } m_BranchArrows.push_back({ startPos, endPos, startMargin, endMargin, margin }); } void CDebugCommandsView::HistoryPushState() { m_History.push_back(m_StartAddress); m_HistoryIndex = m_History.size() - 1; ToggleHistoryButtons(); } const char* CDebugCommandsView::GetDataAddressNotes(uint32_t vAddr) { switch (vAddr) { case 0xA3F00000: return "RDRAM_CONFIG_REG/RDRAM_DEVICE_TYPE_REG"; case 0xA3F00004: return "RDRAM_DEVICE_ID_REG"; case 0xA3F00008: return "RDRAM_DELAY_REG"; case 0xA3F0000C: return "RDRAM_MODE_REG"; case 0xA3F00010: return "RDRAM_REF_INTERVAL_REG"; case 0xA3F00014: return "RDRAM_REF_ROW_REG"; case 0xA3F00018: return "RDRAM_RAS_INTERVAL_REG"; case 0xA3F0001C: return "RDRAM_MIN_INTERVAL_REG"; case 0xA3F00020: return "RDRAM_ADDR_SELECT_REG"; case 0xA3F00024: return "RDRAM_DEVICE_MANUF_REG"; case 0xA4040000: return "SP_MEM_ADDR_REG"; case 0xA4040004: return "SP_DRAM_ADDR_REG"; case 0xA4040008: return "SP_RD_LEN_REG"; case 0xA404000C: return "SP_WR_LEN_REG"; case 0xA4040010: return "SP_STATUS_REG"; case 0xA4040014: return "SP_DMA_FULL_REG"; case 0xA4040018: return "SP_DMA_BUSY_REG"; case 0xA404001C: return "SP_SEMAPHORE_REG"; case 0xA4080000: return "SP_PC"; case 0xA4100000: return "DPC_START_REG"; case 0xA4100004: return "DPC_END_REG"; case 0xA4100008: return "DPC_CURRENT_REG"; case 0xA410000C: return "DPC_STATUS_REG"; case 0xA4100010: return "DPC_CLOCK_REG"; case 0xA4100014: return "DPC_BUFBUSY_REG"; case 0xA4100018: return "DPC_PIPEBUSY_REG"; case 0xA410001C: return "DPC_TMEM_REG"; case 0xA4300000: return "MI_INIT_MODE_REG/MI_MODE_REG"; case 0xA4300004: return "MI_VERSION_REG/MI_NOOP_REG"; case 0xA4300008: return "MI_INTR_REG"; case 0xA430000C: return "MI_INTR_MASK_REG"; case 0xA4400000: return "VI_STATUS_REG/VI_CONTROL_REG"; case 0xA4400004: return "VI_ORIGIN_REG/VI_DRAM_ADDR_REG"; case 0xA4400008: return "VI_WIDTH_REG/VI_H_WIDTH_REG"; case 0xA440000C: return "VI_INTR_REG/VI_V_INTR_REG"; case 0xA4400010: return "VI_CURRENT_REG/VI_V_CURRENT_LINE_REG"; case 0xA4400014: return "VI_BURST_REG/VI_TIMING_REG"; case 0xA4400018: return "VI_V_SYNC_REG"; case 0xA440001C: return "VI_H_SYNC_REG"; case 0xA4400020: return "VI_LEAP_REG/VI_H_SYNC_LEAP_REG"; case 0xA4400024: return "VI_H_START_REG/VI_H_VIDEO_REG"; case 0xA4400028: return "VI_V_START_REG/VI_V_VIDEO_REG"; case 0xA440002C: return "VI_V_BURST_REG"; case 0xA4400030: return "VI_X_SCALE_REG"; case 0xA4400034: return "VI_Y_SCALE_REG"; case 0xA4500000: return "AI_DRAM_ADDR_REG"; case 0xA4500004: return "AI_LEN_REG"; case 0xA4500008: return "AI_CONTROL_REG"; case 0xA450000C: return "AI_STATUS_REG"; case 0xA4500010: return "AI_DACRATE_REG"; case 0xA4500014: return "AI_BITRATE_REG"; case 0xA4600000: return "PI_DRAM_ADDR_REG"; case 0xA4600004: return "PI_CART_ADDR_REG"; case 0xA4600008: return "PI_RD_LEN_REG"; case 0xA460000C: return "PI_WR_LEN_REG"; case 0xA4600010: return "PI_STATUS_REG"; case 0xA4600014: return "PI_BSD_DOM1_LAT_REG"; case 0xA4600018: return "PI_BSD_DOM1_PWD_REG"; case 0xA460001C: return "PI_BSD_DOM1_PGS_REG"; case 0xA4600020: return "PI_BSD_DOM1_RLS_REG"; case 0xA4600024: return "PI_BSD_DOM2_LAT_REG"; case 0xA4600028: return "PI_BSD_DOM2_PWD_REG"; case 0xA460002C: return "PI_BSD_DOM2_PGS_REG"; case 0xA4600030: return "PI_BSD_DOM2_RLS_REG"; case 0xA4700000: return "RI_MODE_REG"; case 0xA4700004: return "RI_CONFIG_REG"; case 0xA4700008: return "RI_CURRENT_LOAD_REG"; case 0xA470000C: return "RI_SELECT_REG"; case 0xA4700010: return "RI_REFRESH_REG/RI_COUNT_REG"; case 0xA4700014: return "RI_LATENCY_REG"; case 0xA4700018: return "RI_RERROR_REG"; case 0xA470001C: return "RI_WERROR_REG"; case 0xA4800000: return "SI_DRAM_ADDR_REG"; case 0xA4800004: return "SI_PIF_ADDR_RD64B_REG"; case 0xA4800010: return "SI_PIF_ADDR_WR64B_REG"; case 0xA4800018: return "SI_STATUS_REG"; case 0xA5000500: return "ASIC_DATA"; case 0xA5000504: return "ASIC_MISC_REG"; case 0xA5000508: return "ASIC_STATUS"; case 0xA500050C: return "ASIC_CUR_TK"; case 0xA5000510: return "ASIC_BM_STATUS"; case 0xA5000514: return "ASIC_ERR_SECTOR"; case 0xA5000518: return "ASIC_SEQ_STATUS"; case 0xA500051C: return "ASIC_CUR_SECTOR"; case 0xA5000520: return "ASIC_HARD_RESET"; case 0xA5000524: return "ASIC_C1_S0"; case 0xA5000528: return "ASIC_HOST_SECBYTE"; case 0xA500052C: return "ASIC_C1_S2"; case 0xA5000530: return "ASIC_SEC_BYTE"; case 0xA5000534: return "ASIC_C1_S4"; case 0xA5000538: return "ASIC_C1_S6"; case 0xA500053C: return "ASIC_CUR_ADDR"; case 0xA5000540: return "ASIC_ID_REG"; case 0xA5000544: return "ASIC_TEST_REG"; case 0xA5000548: return "ASIC_TEST_PIN_SEL"; case 0xB0000004: return "Header: Clock rate"; case 0xB0000008: return "Header: Game entry point"; case 0xB000000C: return "Header: Release"; case 0xB0000010: return "Header: CRC1"; case 0xB0000014: return "Header: CRC2"; } return NULL; } const char* CDebugCommandsView::GetCodeAddressNotes(uint32_t vAddr) { switch (vAddr) { case 0x80000000: return "Exception: TLB Refill"; case 0x80000080: return "Exception: XTLB Refill"; case 0x80000100: return "Exception: Cache error (See A0000100)"; case 0x80000180: return "Exception: General"; case 0xA0000100: return "Exception: Cache error"; case 0xBFC00000: return "Exception: Reset/NMI"; case 0xBFC00200: return "Exception: TLB Refill (boot)"; case 0xBFC00280: return "Exception: XTLB Refill (boot)"; case 0xBFC00300: return "Exception: Cache error (boot)"; case 0xBFC00380: return "Exception: General (boot)"; } if (g_MMU == NULL) { return NULL; } uint8_t* rom = g_Rom->GetRomAddress(); uint32_t gameEntryPoint = *(uint32_t*)&rom[0x08]; if (vAddr == gameEntryPoint) { return "Game entry point"; } return NULL; } void CDebugCommandsView::ShowAddress(DWORD address, BOOL top) { if (top == TRUE) { m_StartAddress = address; if (!isStepping()) { // Disable buttons m_ViewPCButton.EnableWindow(FALSE); m_StepButton.EnableWindow(FALSE); m_SkipButton.EnableWindow(FALSE); m_GoButton.EnableWindow(FALSE); m_RegisterTabs.SetColorsEnabled(false); } } else { bool bOutOfView = address < m_StartAddress || address > m_StartAddress + (m_CommandListRows - 1) * 4; if (bOutOfView) { m_StartAddress = address; m_bIgnoreAddrChange = true; m_AddressEdit.SetValue(address, false, true); } if (m_History.size() == 0 || m_History[m_HistoryIndex] != m_StartAddress) { HistoryPushState(); } m_bIgnorePCChange = true; m_PCEdit.SetValue(g_Reg->m_PROGRAM_COUNTER, false, true); // Enable buttons m_ViewPCButton.EnableWindow(TRUE); m_StepButton.EnableWindow(TRUE); m_SkipButton.EnableWindow(TRUE); m_GoButton.EnableWindow(TRUE); m_RegisterTabs.SetColorsEnabled(true); } m_CommandList.SetRedraw(FALSE); m_CommandList.DeleteAllItems(); ClearBranchArrows(); m_bvAnnotatedLines.clear(); CSymbols::EnterCriticalSection(); for (int i = 0; i < m_CommandListRows; i++) { uint32_t opAddr = m_StartAddress + i * 4; m_CommandList.AddItem(i, CCommandList::COL_ARROWS, " "); char addrStr[9]; sprintf(addrStr, "%08X", opAddr); m_CommandList.AddItem(i, CCommandList::COL_ADDRESS, addrStr); COpInfo OpInfo; OPCODE& OpCode = OpInfo.m_OpCode; bool bAddrOkay = false; if (AddressSafe(opAddr)) { bAddrOkay = g_MMU->LW_VAddr(opAddr, OpCode.Hex); } if (!bAddrOkay) { m_CommandList.AddItem(i, CCommandList::COL_COMMAND, "***"); m_bvAnnotatedLines.push_back(false); continue; } char* command = (char*)R4300iOpcodeName(OpCode.Hex, opAddr); char* cmdName = strtok((char*)command, "\t"); char* cmdArgs = strtok(NULL, "\t"); // Show subroutine symbol name for JAL target if (OpCode.op == R4300i_JAL) { uint32_t targetAddr = (0x80000000 | (OpCode.target << 2)); // todo move symbols management to CDebuggerUI const char* targetSymbolName = CSymbols::GetNameByAddress(targetAddr); if (targetSymbolName != NULL) { cmdArgs = (char*)targetSymbolName; } } // Detect reads and writes to mapped registers, cart header data, etc const char* annotation = NULL; bool bLoadStoreAnnotation = false; if (OpInfo.IsLoadStore()) { for (int offset = -4; offset > -24; offset -= 4) { if (!AddressSafe(opAddr + offset)) { break; } OPCODE OpCodeTest; bAddrOkay = g_MMU->LW_VAddr(opAddr + offset, OpCodeTest.Hex); if (!bAddrOkay) { break; } if (OpCodeTest.op != R4300i_LUI) { continue; } if (OpCodeTest.rt != OpCode.rs) { continue; } uint32_t memAddr = (OpCodeTest.immediate << 16) + (short)OpCode.offset; annotation = CSymbols::GetNameByAddress(memAddr); if (annotation == NULL) { annotation = GetDataAddressNotes(memAddr); } break; } } if (annotation == NULL) { annotation = GetCodeAddressNotes(opAddr); } else { bLoadStoreAnnotation = true; } m_CommandList.AddItem(i, CCommandList::COL_COMMAND, cmdName); m_CommandList.AddItem(i, CCommandList::COL_PARAMETERS, cmdArgs); // Show routine symbol name for this address const char* routineSymbolName = CSymbols::GetNameByAddress(opAddr); if (routineSymbolName != NULL) { m_CommandList.AddItem(i, CCommandList::COL_SYMBOL, routineSymbolName); m_bvAnnotatedLines.push_back(false); } else if (annotation != NULL) { const char* annotationFormat = bLoadStoreAnnotation ? "// (%s)" : "// %s"; m_CommandList.AddItem(i, CCommandList::COL_SYMBOL, stdstr_f(annotationFormat, annotation).c_str()); m_bvAnnotatedLines.push_back(true); } else { m_bvAnnotatedLines.push_back(false); } // Add arrow for branch instruction if (OpInfo.IsBranch()) { int startPos = i; int endPos = startPos + (int16_t)OpCode.offset + 1; AddBranchArrow(startPos, endPos); } // Branch arrow for close J if (OpCode.op == R4300i_J) { uint32_t target = (OpCode.target << 2); int dist = target - (opAddr & 0x3FFFFFF); if (abs(dist) < 0x10000) { int startPos = i; int endPos = startPos + (dist / 4); AddBranchArrow(startPos, endPos); } } } CSymbols::LeaveCriticalSection(); if (!top) // update registers when called via breakpoint/stepping { m_RegisterTabs.RefreshEdits(); } RefreshBreakpointList(); m_CommandList.SetRedraw(TRUE); } // Highlight command list items & draw branch arrows LRESULT CDebugCommandsView::OnCustomDrawList(NMHDR* pNMHDR) { NMLVCUSTOMDRAW* pLVCD = reinterpret_cast(pNMHDR); DWORD drawStage = pLVCD->nmcd.dwDrawStage; HDC hDC = pLVCD->nmcd.hdc; switch (drawStage) { case CDDS_PREPAINT: return (CDRF_NOTIFYITEMDRAW | CDRF_NOTIFYPOSTPAINT); case CDDS_POSTPAINT: DrawBranchArrows(hDC); return CDRF_DODEFAULT; case CDDS_ITEMPREPAINT: return CDRF_NOTIFYSUBITEMDRAW; case (CDDS_ITEMPREPAINT | CDDS_SUBITEM): break; default: return CDRF_DODEFAULT; } DWORD nItem = pLVCD->nmcd.dwItemSpec; DWORD nSubItem = pLVCD->iSubItem; uint32_t address = m_StartAddress + (nItem * 4); uint32_t pc = (g_Reg != NULL) ? g_Reg->m_PROGRAM_COUNTER : 0; OPCODE pcOpcode; if (g_MMU != NULL) { g_MMU->LW_VAddr(pc, pcOpcode.Hex); } else { pcOpcode.Hex = 0; } if (nSubItem == CCommandList::COL_ARROWS) { return CDRF_DODEFAULT; } if (nSubItem == CCommandList::COL_ADDRESS) // addr { CBreakpoints::BPSTATE bpState = m_Breakpoints->ExecutionBPExists(address); if (bpState == CBreakpoints::BP_SET) { // breakpoint pLVCD->clrTextBk = RGB(0x44, 0x00, 0x00); pLVCD->clrText = (address == pc) ? RGB(0xFF, 0xFF, 0x00) : // breakpoint & current pc RGB(0xFF, 0xCC, 0xCC); } else if (bpState == CBreakpoints::BP_SET_TEMP) { // breakpoint pLVCD->clrTextBk = RGB(0x66, 0x44, 0x00); pLVCD->clrText = (address == pc) ? RGB(0xFF, 0xFF, 0x00) : // breakpoint & current pc RGB(0xFF, 0xEE, 0xCC); } else if (address == pc && isStepping()) { // pc pLVCD->clrTextBk = RGB(0x88, 0x88, 0x88); pLVCD->clrText = RGB(0xFF, 0xFF, 0); } else { //default pLVCD->clrTextBk = RGB(0xEE, 0xEE, 0xEE); pLVCD->clrText = RGB(0x44, 0x44, 0x44); } return CDRF_DODEFAULT; } // (nSubItem == 1 || nSubItem == 2) // cmd & args COpInfo OpInfo; OPCODE& OpCode = OpInfo.m_OpCode; bool bAddrOkay = false; if (AddressSafe(address)) { bAddrOkay = g_MMU->LW_VAddr(address, OpCode.Hex); } struct { COLORREF bg; COLORREF fg; } colors; if (!bAddrOkay) { colors = { 0xFFFFFF, 0xFF0000 }; } else if (address == pc && isStepping()) { colors = { 0xFFFFAA, 0x222200 }; } else if (IsOpEdited(address)) { colors = { 0xFFEEFF, 0xFF00FF }; } else if (OpInfo.IsStackAlloc()) { colors = { 0xCCDDFF, 0x001144 }; } else if (OpInfo.IsStackFree()) { colors = { 0xFFDDDD, 0x440000 }; } else if (OpInfo.IsNOP()) { colors = { 0xFFFFFF, 0x888888 }; } else if (OpInfo.IsJump()) { colors = { 0xEEFFEE, 0x006600 }; } else if (OpInfo.IsBranch()) { colors = { 0xFFFFFF, 0x337700 }; } else { colors = { 0xFFFFFF, 0x0000000 }; } // Gray annotations if (nSubItem == CCommandList::COL_SYMBOL) { if (m_bvAnnotatedLines[nItem]) { colors.fg = 0x666666; } } pLVCD->clrTextBk = _byteswap_ulong(colors.bg) >> 8; pLVCD->clrText = _byteswap_ulong(colors.fg) >> 8; if (!isStepping()) { return CDRF_DODEFAULT; } // color register usage // todo localise to temp register context (dont look before/after jumps and frame shifts) COLORREF clrUsedRegister = RGB(0xF5, 0xF0, 0xFF); // light purple COLORREF clrAffectedRegister = RGB(0xFF, 0xF0, 0xFF); // light pink int pcUsedRegA = 0, pcUsedRegB = 0, pcChangedReg = 0; int curUsedRegA = 0, curUsedRegB = 0, curChangedReg = 0; if (pcOpcode.op == R4300i_SPECIAL) { pcUsedRegA = pcOpcode.rs; pcUsedRegB = pcOpcode.rt; pcChangedReg = pcOpcode.rd; } else { pcUsedRegA = pcOpcode.rs; pcChangedReg = pcOpcode.rt; } if (OpCode.op == R4300i_SPECIAL) { curUsedRegA = OpCode.rs; curUsedRegB = OpCode.rt; curChangedReg = OpCode.rd; } else { curUsedRegA = OpCode.rs; curChangedReg = OpCode.rt; } if (address < pc) { if (curChangedReg != 0 && (pcUsedRegA == curChangedReg || pcUsedRegB == curChangedReg)) { pLVCD->clrTextBk = clrUsedRegister; } } else if (address > pc) { if (pcChangedReg != 0 && (curUsedRegA == pcChangedReg || curUsedRegB == pcChangedReg)) { pLVCD->clrTextBk = clrAffectedRegister; } } return CDRF_DODEFAULT; } LRESULT CDebugCommandsView::OnMeasureItem(UINT /*uMsg*/, WPARAM wParam, LPARAM lParam, BOOL& /*bHandled*/) { if (wParam == IDC_CMD_LIST) { CClientDC dc(m_hWnd); dc.SelectFont(GetFont()); TEXTMETRIC tm; dc.GetTextMetrics(&tm); m_RowHeight = tm.tmHeight + tm.tmExternalLeading; MEASUREITEMSTRUCT* lpMeasureItem = (MEASUREITEMSTRUCT*)lParam; lpMeasureItem->itemHeight = m_RowHeight; } return FALSE; } // Draw branch arrows void CDebugCommandsView::DrawBranchArrows(HDC listDC) { COLORREF colors[] = { RGB(240, 240, 240), // white RGB(30, 135, 255), // blue RGB(255, 0, 200), // pink RGB(215, 155, 0), // yellow RGB(100, 180, 0), // green RGB(200, 100, 255), // purple RGB(120, 120, 120), // gray RGB(0, 220, 160), // cyan RGB(255, 100, 0), // orange RGB(255, 255, 0), // yellow }; int nColors = sizeof(colors) / sizeof(COLORREF); CRect listRect; m_CommandList.GetWindowRect(&listRect); ScreenToClient(&listRect); CRect headRect; m_CommandList.GetHeader().GetWindowRect(&headRect); ScreenToClient(&headRect); int colWidth = m_CommandList.GetColumnWidth(CCommandList::COL_ARROWS); int baseX = colWidth - 4; int baseY = headRect.bottom + 7; CRect paneRect; paneRect.top = headRect.bottom; paneRect.left = 0; paneRect.right = colWidth; paneRect.bottom = listRect.bottom; COLORREF bgColor = RGB(30, 30, 30); CBrush hBrushBg(CreateSolidBrush(bgColor)); FillRect(listDC, &paneRect, hBrushBg); for (size_t i = 0; i < m_BranchArrows.size(); i++) { int colorIdx = i % nColors; COLORREF color = colors[colorIdx]; BRANCHARROW arrow = m_BranchArrows[i]; int begX = baseX - arrow.startMargin * 3; int endX = baseX - arrow.endMargin * 3; int begY = baseY + arrow.startPos * m_RowHeight; int endY = baseY + arrow.endPos * m_RowHeight; bool bEndVisible = true; if (endY < headRect.bottom) { endY = headRect.bottom + 1; bEndVisible = false; } else if (endY > listRect.bottom) { endY = listRect.bottom - 2; bEndVisible = false; } int marginX = baseX - (4 + arrow.margin * 3); // draw start pointer SetPixel(listDC, begX + 0, begY - 1, color); SetPixel(listDC, begX + 1, begY - 2, color); SetPixel(listDC, begX + 0, begY + 1, color); SetPixel(listDC, begX + 1, begY + 2, color); // draw outline CPen hPenOutline(CreatePen(PS_SOLID, 3, bgColor)); SelectObject(listDC, hPenOutline); MoveToEx(listDC, begX - 1, begY, NULL); LineTo(listDC, marginX, begY); LineTo(listDC, marginX, endY); if (bEndVisible) { LineTo(listDC, endX + 2, endY); } // draw fill line CPen hPen(CreatePen(PS_SOLID, 1, color)); SelectObject(listDC, hPen); MoveToEx(listDC, begX - 1, begY, NULL); LineTo(listDC, marginX, begY); LineTo(listDC, marginX, endY); if (bEndVisible) { LineTo(listDC, endX + 2, endY); } // draw end pointer if (bEndVisible) { SetPixel(listDC, endX - 0, endY - 1, color); SetPixel(listDC, endX - 1, endY - 2, color); SetPixel(listDC, endX - 1, endY - 1, color); SetPixel(listDC, endX - 0, endY + 1, color); SetPixel(listDC, endX - 1, endY + 2, color); SetPixel(listDC, endX - 1, endY + 1, color); SetPixel(listDC, endX - 1, endY + 3, RGB(30, 30, 30)); SetPixel(listDC, endX - 1, endY - 3, RGB(30, 30, 30)); } } } void CDebugCommandsView::RefreshBreakpointList() { m_BreakpointList.ResetContent(); char rowStr[16]; CBreakpoints::breakpoints_t ReadBreakPoints = m_Breakpoints->ReadMem(); for (CBreakpoints::breakpoints_t::iterator itr = ReadBreakPoints.begin(); itr != ReadBreakPoints.end(); itr++) { sprintf(rowStr, "R %s%08X", itr->second ? "T " : "", itr->first); int index = m_BreakpointList.AddString(rowStr); m_BreakpointList.SetItemData(index, itr->first); } CBreakpoints::breakpoints_t WriteBreakPoints = m_Breakpoints->WriteMem(); for (CBreakpoints::breakpoints_t::iterator itr = WriteBreakPoints.begin(); itr != WriteBreakPoints.end(); itr++) { sprintf(rowStr, "W %s%08X", itr->second ? "T " : "", itr->first); int index = m_BreakpointList.AddString(rowStr); m_BreakpointList.SetItemData(index, itr->first); } CBreakpoints::breakpoints_t ExecutionBreakPoints = m_Breakpoints->Execution(); for (CBreakpoints::breakpoints_t::iterator itr = ExecutionBreakPoints.begin(); itr != ExecutionBreakPoints.end(); itr++) { sprintf(rowStr, "E %s%08X", itr->second ? "T " : "", itr->first); int index = m_BreakpointList.AddString(rowStr); m_BreakpointList.SetItemData(index, itr->first); } } void CDebugCommandsView::RemoveSelectedBreakpoints() { int nItem = m_BreakpointList.GetCurSel(); if (nItem == LB_ERR) { return; } char itemText[32]; m_BreakpointList.GetText(nItem, itemText); uint32_t address = m_BreakpointList.GetItemData(nItem); switch (itemText[0]) { case 'E': m_Breakpoints->RemoveExecution(address); break; case 'W': m_Breakpoints->WBPRemove(address); break; case 'R': m_Breakpoints->RBPRemove(address); break; } RefreshBreakpointList(); } void CDebugCommandsView::CPUSkip() { g_Settings->SaveBool(Debugger_SkipOp, true); if (WaitingForStep()) { m_StepEvent.Trigger(); } } void CDebugCommandsView::CPUResume() { g_Settings->SaveBool(Debugger_SteppingOps, false); if (WaitingForStep()) { m_StepEvent.Trigger(); } } LRESULT CDebugCommandsView::OnBackButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { if (m_HistoryIndex > 0) { m_HistoryIndex--; m_AddressEdit.SetValue(m_History[m_HistoryIndex], false, true); ToggleHistoryButtons(); } return FALSE; } LRESULT CDebugCommandsView::OnForwardButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { if (m_History.size() > 0 && m_HistoryIndex < (int)m_History.size() - 1) { m_HistoryIndex++; m_AddressEdit.SetValue(m_History[m_HistoryIndex], false, true); ToggleHistoryButtons(); } return FALSE; } LRESULT CDebugCommandsView::OnViewPCButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { if (g_Reg != NULL && isStepping()) { ShowAddress(g_Reg->m_PROGRAM_COUNTER, TRUE); } return FALSE; } LRESULT CDebugCommandsView::OnSymbolsButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { m_Debugger->OpenSymbolsWindow(); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuRunTo(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { // Add temp bp and resume m_Breakpoints->AddExecution(m_SelectedAddress, true); return FALSE; } LRESULT CDebugCommandsView::OnGoButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { CPUResume(); m_AddressEdit.SetFocus(); return FALSE; } LRESULT CDebugCommandsView::OnStepButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { if (WaitingForStep()) { m_StepEvent.Trigger(); } return FALSE; } LRESULT CDebugCommandsView::OnSkipButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { CPUSkip(); m_AddressEdit.SetFocus(); return FALSE; } LRESULT CDebugCommandsView::OnClearBPButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { m_Breakpoints->BPClear(); RefreshBreakpointList(); ShowAddress(m_StartAddress, TRUE); return FALSE; } LRESULT CDebugCommandsView::OnAddBPButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { m_AddBreakpointDlg.DoModal(m_Debugger); RefreshBreakpointList(); ShowAddress(m_StartAddress, TRUE); return FALSE; } LRESULT CDebugCommandsView::OnRemoveBPButton(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { RemoveSelectedBreakpoints(); ShowAddress(m_StartAddress, TRUE); return FALSE; } LRESULT CDebugCommandsView::OnCancel(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { EndDialog(0); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuEdit(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { BeginOpEdit(m_SelectedAddress); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuInsertNOP(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { EditOp(m_SelectedAddress, 0x00000000); ShowAddress(m_StartAddress, TRUE); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuRestore(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { RestoreOp(m_SelectedAddress); ShowAddress(m_StartAddress, TRUE); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuRestoreAll(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { RestoreAllOps(); ShowAddress(m_StartAddress, TRUE); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuAddSymbol(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { m_AddSymbolDlg.DoModal(m_Debugger, m_SelectedAddress, CSymbols::TYPE_CODE); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuFollowJump(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { HistoryPushState(); ShowAddress(m_FollowAddress, TRUE); HistoryPushState(); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuViewMemory(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { m_Debugger->Debug_ShowMemoryLocation(m_FollowAddress, true); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuToggleBP(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { m_Breakpoints->EBPToggle(m_SelectedAddress); ShowAddress(m_StartAddress, TRUE); return FALSE; } LRESULT CDebugCommandsView::OnPopupmenuClearBP(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hwnd*/, BOOL& /*bHandled*/) { m_Breakpoints->EBPClear(); ShowAddress(m_StartAddress, TRUE); return FALSE; } void CDebugCommandsView::GotoEnteredAddress() { char text[9]; m_AddressEdit.GetWindowTextA(text, 9); DWORD address = strtoul(text, NULL, 16); address = address - address % 4; ShowAddress(address, TRUE); } void CDebugCommandsView::BeginOpEdit(uint32_t address) { CRect listRect; m_CommandList.GetWindowRect(&listRect); ScreenToClient(&listRect); m_bEditing = true; //ShowAddress(address, FALSE); int nItem = (address - m_StartAddress) / 4; CRect itemRect; m_CommandList.GetSubItemRect(nItem, CCommandList::COL_COMMAND, 0, &itemRect); //itemRect.bottom += 0; itemRect.left += listRect.left + 3; itemRect.right += 100; uint32_t opcode; g_MMU->LW_VAddr(address, opcode); char* command = (char*)R4300iOpcodeName(opcode, address); m_OpEdit.ShowWindow(SW_SHOW); m_OpEdit.MoveWindow(&itemRect); m_OpEdit.BringWindowToTop(); m_OpEdit.SetWindowTextA(command); m_OpEdit.SetFocus(); m_OpEdit.SetSelAll(); m_CommandList.RedrawWindow(); m_OpEdit.RedrawWindow(); } void CDebugCommandsView::EndOpEdit() { m_bEditing = false; m_OpEdit.SetWindowTextA(""); m_OpEdit.ShowWindow(SW_HIDE); } LRESULT CDebugCommandsView::OnAddrChanged(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hWndCtl*/, BOOL& /*bHandled*/) { if (m_bIgnoreAddrChange) { m_bIgnoreAddrChange = false; return 0; } GotoEnteredAddress(); return 0; } LRESULT CDebugCommandsView::OnPCChanged(WORD /*wNotifyCode*/, WORD /*wID*/, HWND /*hWndCtl*/, BOOL& /*bHandled*/) { if (m_bIgnorePCChange) { m_bIgnorePCChange = false; return 0; } if (g_Reg != NULL && isStepping()) { g_Reg->m_PROGRAM_COUNTER = m_PCEdit.GetValue(); } return 0; } LRESULT CDebugCommandsView::OnCommandListClicked(NMHDR* /*pNMHDR*/) { EndOpEdit(); return 0; } LRESULT CDebugCommandsView::OnCommandListDblClicked(NMHDR* pNMHDR) { // Set PC breakpoint NMITEMACTIVATE* pIA = reinterpret_cast(pNMHDR); int nItem = pIA->iItem; uint32_t address = m_StartAddress + nItem * 4; if (m_Breakpoints->ExecutionBPExists(address)) { m_Breakpoints->RemoveExecution(address); } else { m_Breakpoints->AddExecution(address); } // Cancel blue highlight m_AddressEdit.SetFocus(); RefreshBreakpointList(); return 0; } LRESULT CDebugCommandsView::OnCommandListRightClicked(NMHDR* pNMHDR) { EndOpEdit(); if (g_MMU == NULL) { return 0; } NMITEMACTIVATE* pIA = reinterpret_cast(pNMHDR); int nItem = pIA->iItem; uint32_t address = m_StartAddress + nItem * 4; m_SelectedAddress = address; HMENU hMenu = LoadMenu(GetModuleHandle(NULL), MAKEINTRESOURCE(IDR_OP_POPUP)); HMENU hPopupMenu = GetSubMenu(hMenu, 0); g_MMU->LW_VAddr(m_SelectedAddress, m_SelectedOpCode.Hex); if (m_SelectedOpInfo.IsStaticJump()) { m_FollowAddress = (m_SelectedAddress & 0xF0000000) | (m_SelectedOpCode.target * 4); } else if (m_SelectedOpInfo.IsBranch()) { m_FollowAddress = m_SelectedAddress + ((int16_t)m_SelectedOpCode.offset + 1) * 4; } else { EnableMenuItem(hPopupMenu, ID_POPUPMENU_FOLLOWJUMP, MF_DISABLED | MF_GRAYED); } if (m_SelectedOpInfo.IsLoadStore()) { m_FollowAddress = g_Reg->m_GPR[m_SelectedOpCode.base].UW[0] + (int16_t)m_SelectedOpCode.offset; } else { EnableMenuItem(hPopupMenu, ID_POPUPMENU_VIEWMEMORY, MF_DISABLED | MF_GRAYED); } if (!IsOpEdited(m_SelectedAddress)) { EnableMenuItem(hPopupMenu, ID_POPUPMENU_RESTORE, MF_DISABLED | MF_GRAYED); } if (m_EditedOps.size() == 0) { EnableMenuItem(hPopupMenu, ID_POPUPMENU_RESTOREALL, MF_DISABLED | MF_GRAYED); } if (m_SelectedOpInfo.IsNOP()) { EnableMenuItem(hPopupMenu, ID_POPUPMENU_INSERTNOP, MF_DISABLED | MF_GRAYED); } if (m_Breakpoints->Execution().size() == 0) { EnableMenuItem(hPopupMenu, ID_POPUPMENU_CLEARBPS, MF_DISABLED | MF_GRAYED); } POINT mouse; GetCursorPos(&mouse); TrackPopupMenu(hPopupMenu, TPM_LEFTALIGN, mouse.x, mouse.y, 0, m_hWnd, NULL); DestroyMenu(hMenu); return 0; } LRESULT CDebugCommandsView::OnListBoxClicked(WORD /*wNotifyCode*/, WORD wID, HWND /*hWndCtl*/, BOOL& /*bHandled*/) { if (wID == IDC_BP_LIST) { int index = m_BreakpointList.GetCaretIndex(); uint32_t address = m_BreakpointList.GetItemData(index); int len = m_BreakpointList.GetTextLen(index); char* rowText = (char*)malloc(len + 1); rowText[len] = '\0'; m_BreakpointList.GetText(index, rowText); if (*rowText == 'E') { ShowAddress(address, true); } else { m_Debugger->Debug_ShowMemoryLocation(address, true); } free(rowText); } return FALSE; } LRESULT CDebugCommandsView::OnActivate(UINT /*uMsg*/, WPARAM wParam, LPARAM /*lParam*/, BOOL& /*bHandled*/) { WORD type = LOWORD(wParam); if (type == WA_INACTIVE) { return FALSE; } if (type == WA_CLICKACTIVE) { CheckCPUType(); } return FALSE; } LRESULT CDebugCommandsView::OnSizing(UINT /*uMsg*/, WPARAM /*wParam*/, LPARAM /*lParam*/, BOOL& /*bHandled*/) { CRect listRect; m_CommandList.GetWindowRect(listRect); CRect headRect; CHeaderCtrl listHead = m_CommandList.GetHeader(); listHead.GetWindowRect(&headRect); int rowsHeight = listRect.Height() - headRect.Height(); int nRows = (rowsHeight / m_RowHeight); if (m_CommandListRows != nRows) { m_CommandListRows = nRows; ShowAddress(m_StartAddress, TRUE); } m_RegisterTabs.RedrawCurrentTab(); // Fix cmd list header listHead.ResizeClient(listRect.Width(), headRect.Height()); return FALSE; } LRESULT CDebugCommandsView::OnScroll(UINT /*uMsg*/, WPARAM wParam, LPARAM /*lParam*/, BOOL& /*bHandled*/) { WORD type = LOWORD(wParam); switch (type) { case SB_LINEUP: ShowAddress(m_StartAddress - 4, TRUE); break; case SB_LINEDOWN: ShowAddress(m_StartAddress + 4, TRUE); break; case SB_THUMBTRACK: { //int scrollPos = HIWORD(wParam); //ShowAddress(m_StartAddress + (scrollPos - 50) * 4, TRUE); } break; } return FALSE; } void CDebugCommandsView::WaitingForStepChanged(void) { if (WaitingForStep()) { ShowAddress(g_Reg->m_PROGRAM_COUNTER, false); m_Debugger->Debug_RefreshStackWindow(); m_Debugger->Debug_RefreshStackTraceWindow(); m_StepButton.EnableWindow(true); m_GoButton.EnableWindow(true); m_AddressEdit.SetFocus(); } else { m_StepButton.EnableWindow(false); m_GoButton.EnableWindow(false); } } void CDebugCommandsView::SteppingOpsChanged(void) { if (!g_Settings->LoadBool(Debugger_SteppingOps)) { m_Debugger->Debug_RefreshStackWindow(); m_Debugger->Debug_RefreshStackTraceWindow(); m_RegisterTabs.SetColorsEnabled(false); m_RegisterTabs.RefreshEdits(); ShowAddress(m_StartAddress, TRUE); } } void CDebugCommandsView::Reset() { ClearEditedOps(); m_History.clear(); ToggleHistoryButtons(); } void CDebugCommandsView::ClearEditedOps() { m_EditedOps.clear(); } BOOL CDebugCommandsView::IsOpEdited(uint32_t address) { for (size_t i = 0; i < m_EditedOps.size(); i++) { if (m_EditedOps[i].address == address) { return TRUE; } } return FALSE; } void CDebugCommandsView::EditOp(uint32_t address, uint32_t op) { uint32_t currentOp; g_MMU->LW_VAddr(address, currentOp); if (currentOp == op) { return; } g_MMU->SW_VAddr(address, op); if (!IsOpEdited(address)) { m_EditedOps.push_back({ address, currentOp }); } ShowAddress(m_StartAddress, TRUE); } void CDebugCommandsView::RestoreOp(uint32_t address) { for (size_t i = 0; i < m_EditedOps.size(); i++) { if (m_EditedOps[i].address == address) { g_MMU->SW_VAddr(m_EditedOps[i].address, m_EditedOps[i].originalOp); m_EditedOps.erase(m_EditedOps.begin() + i); break; } } } void CDebugCommandsView::RestoreAllOps() { int lastIndex = m_EditedOps.size() - 1; for (int i = lastIndex; i >= 0; i--) { g_MMU->SW_VAddr(m_EditedOps[i].address, m_EditedOps[i].originalOp); m_EditedOps.erase(m_EditedOps.begin() + i); } } void CDebugCommandsView::ShowPIRegTab() { m_RegisterTabs.SetCurSel(2); m_RegisterTabs.ShowTab(2); } LRESULT CDebugCommandsView::OnRegisterTabChange(NMHDR* /*pNMHDR*/) { int nPage = m_RegisterTabs.GetCurSel(); m_RegisterTabs.ShowTab(nPage); m_RegisterTabs.RedrawCurrentTab(); m_RegisterTabs.RedrawWindow(); return FALSE; } void CDebugCommandsView::ToggleHistoryButtons() { if (m_BackButton.m_hWnd != NULL) { m_BackButton.EnableWindow(m_History.size() != 0 && m_HistoryIndex > 0 ? TRUE : FALSE); } if (m_ForwardButton.m_hWnd != NULL) { m_ForwardButton.EnableWindow(m_History.size() != 0 && m_HistoryIndex < (int)m_History.size() - 1 ? TRUE : FALSE); } } // Opcode editor LRESULT CEditOp::OnKeyDown(UINT uMsg, WPARAM wParam, LPARAM lParam, BOOL& bHandled) { if (m_CommandsWindow == NULL) { return FALSE; } return m_CommandsWindow->OnOpKeyDown(uMsg, wParam, lParam, bHandled); } void CEditOp::SetCommandsWindow(CDebugCommandsView* commandsWindow) { m_CommandsWindow = commandsWindow; } BOOL CEditOp::Attach(HWND hWndNew) { return SubclassWindow(hWndNew); }