mirror of
https://github.com/QuantumLeaps/qpcpp.git
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80d9bcd6fb
Added QP Functional Safety (FuSa) Subsystem Memory Isolation with MPU Added QAsm abstract state machine base class Added memory marker to QEvt and rearranged memory layout Updated: QP-FreeRTOS, QP-ESP-IDF,QP-Zephyr Added drift-free ticking for QP-POSIX Reorganized documentation Updated 3rd_party
352 lines
12 KiB
C++
352 lines
12 KiB
C++
//============================================================================
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// Product: DPP example with emWin/uC/GUI, NO Window Manager
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// Last updated for version 6.9.1
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// Last updated on 2020-09-21
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//
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// Q u a n t u m L e a P s
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// ------------------------
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// Modern Embedded Software
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//
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// Copyright (C) 2005-2020 Quantum Leaps. All rights reserved.
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//
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// This program is open source software: you can redistribute it and/or
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// modify it under the terms of the GNU General Public License as published
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// by the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// Alternatively, this program may be distributed and modified under the
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// terms of Quantum Leaps commercial licenses, which expressly supersede
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// the GNU General Public License and are specifically designed for
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// licensees interested in retaining the proprietary status of their code.
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//
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License for more details.
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//
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// You should have received a copy of the GNU General Public License
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// along with this program. If not, see <www.gnu.org/licenses>.
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//
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// Contact information:
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// <www.state-machine.com/licensing>
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// <info@state-machine.com>
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//============================================================================
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#include "qpcpp.hpp"
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#include "dpp.hpp"
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#include "bsp.hpp"
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extern "C" {
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#include "GUI.h"
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#include "LCD_SIM.h"
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#include "DIALOG.h"
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#include "WM.h" // emWin Windows Manager
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}
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Q_DEFINE_THIS_FILE
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// Active object class -------------------------------------------------------
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class Table : public QActive {
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private:
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uint8_t m_fork[N_PHILO];
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uint8_t m_isHungry[N_PHILO];
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public:
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Table();
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private:
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Q_STATE_DECL(initial);
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Q_STATE_DECL(ready);
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Q_STATE_DECL(serving);
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Q_STATE_DECL(paused);
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};
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#define RIGHT(n_) ((uint8_t)(((n_) + (N_PHILO - 1)) % N_PHILO))
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#define LEFT(n_) ((uint8_t)(((n_) + 1) % N_PHILO))
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enum m_forkState { FREE, USED };
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// Local objects -------------------------------------------------------------
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static Table l_table; // local Table object
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// Public-scope objects ------------------------------------------------------
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QActive * const AO_Table = &l_table; // "opaque" AO pointer
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// GUI definition ============================================================
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static WM_HWIN l_hDlg;
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static WM_CALLBACK *l_cb_WM_HBKWIN;
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static const GUI_WIDGET_CREATE_INFO l_dialog[] = {
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{ &FRAMEWIN_CreateIndirect, "Dining Philosopher Problem",
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0, 30, 30, 260, 180, FRAMEWIN_CF_MOVEABLE },
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{ &TEXT_CreateIndirect, "Philosopher 0",
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GUI_ID_TEXT9, 50, 10, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "Philosopher 1",
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GUI_ID_TEXT9, 50, 30, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "Philosopher 2",
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GUI_ID_TEXT9, 50, 50, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "Philosopher 3",
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GUI_ID_TEXT9, 50, 70, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "Philosopher 4",
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GUI_ID_TEXT9, 50, 90, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "Table",
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GUI_ID_TEXT9, 50, 110, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "thinking",
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GUI_ID_TEXT0, 130, 10, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "thinking",
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GUI_ID_TEXT1, 130, 30, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "thinking",
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GUI_ID_TEXT2, 130, 50, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "thinking",
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GUI_ID_TEXT3, 130, 70, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "thinking",
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GUI_ID_TEXT4, 130, 90, 0, 0, TEXT_CF_LEFT },
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{ &TEXT_CreateIndirect, "serving",
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GUI_ID_TEXT5, 130, 110, 0, 0, TEXT_CF_LEFT },
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{ &BUTTON_CreateIndirect,"PAUSE",
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GUI_ID_BUTTON0, 160, 130, 80, 30 }
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};
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//............................................................................
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static void onMainWndGUI(WM_MESSAGE* pMsg) {
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switch (pMsg->MsgId) {
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case WM_PAINT: {
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GUI_SetBkColor(GUI_GRAY);
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GUI_Clear();
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GUI_SetColor(GUI_BLACK);
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GUI_SetFont(&GUI_Font24_ASCII);
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GUI_DispStringHCenterAt("Dining Philosophers - Demo", 160, 5);
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break;
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}
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default: {
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WM_DefaultProc(pMsg);
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break;
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}
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}
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}
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//............................................................................
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static void onDialogGUI(WM_MESSAGE * pMsg) {
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switch (pMsg->MsgId) {
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case WM_INIT_DIALOG: {
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break;
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}
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case WM_NOTIFY_PARENT: {
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switch (pMsg->Data.v) {
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case WM_NOTIFICATION_RELEASED: { // react only if released
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switch (WM_GetId(pMsg->hWinSrc)) {
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case GUI_ID_BUTTON0: {
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// static PAUSE event for the Table AO
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static QEvt const pauseEvt = { PAUSE_SIG, 0 };
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AO_Table->POST(&pauseEvt, &l_onDialogGUI);
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break;
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}
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}
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break;
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}
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}
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break;
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}
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default: {
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WM_DefaultProc(pMsg);
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break;
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}
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}
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}
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//............................................................................
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static void displyPhilStat(uint8_t n, char const *stat) {
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TEXT_SetText(WM_GetDialogItem(l_hDlg, GUI_ID_TEXT0 + n), stat);
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WM_Exec(); // update the screen and invoke WM callbacks
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QS_BEGIN_ID(PHILO_STAT, AO_Philo[n]->getPrio()) // app-specific record begin
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QS_U8(1, n); // Philosopher number
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QS_STR(stat); // Philosopher status
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QS_END()
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}
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//............................................................................
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static void displyTableStat(char const *stat) {
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TEXT_SetText(WM_GetDialogItem(l_hDlg, GUI_ID_TEXT5), stat);
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WM_Exec(); // update the screen and invoke WM callbacks
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QS_BEGIN_ID(TABLE_STAT, AO_Table->getPrio()) // app-specific record begin
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QS_STR(stat); // Philosopher status
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QS_END()
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}
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//............................................................................
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Table::Table() : QActive((QStateHandler)&Table::initial) {
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uint8_t n;
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for (n = 0; n < N_PHILO; ++n) {
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m_fork[n] = FREE;
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m_isHungry[n] = 0;
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}
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}
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//............................................................................
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Q_STATE_DEF(Table, initial) {
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GUI_Init(); // initialize the embedded GUI
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subscribe(DONE_SIG);
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subscribe(PAUSE_SIG);
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return tran(&ready);
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}
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//............................................................................
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Q_STATE_DEF(Table, ready) {
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switch (e->sig) {
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case Q_ENTRY_SIG: {
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l_cb_WM_HBKWIN = WM_SetCallback(WM_HBKWIN, &onMainWndGUI);
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// create the diaglog box and return right away...
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l_hDlg = GUI_CreateDialogBox(l_dialog, GUI_COUNTOF(l_dialog),
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&onDialogGUI, 0, 0, 0);
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return Q_RET_HANDLED;
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}
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case Q_EXIT_SIG: {
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GUI_EndDialog(l_hDlg, 0);
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WM_SetCallback(WM_HBKWIN, l_cb_WM_HBKWIN);
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return Q_RET_HANDLED;
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}
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case Q_INIT_SIG: {
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return tran(&serving);
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}
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case MOUSE_CHANGE_SIG: { // mouse change (move or click) event
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GUI_PID_STATE mouse;
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mouse.x = Q_EVT_CAST(MouseEvt)->x;
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mouse.y = Q_EVT_CAST(MouseEvt)->y;
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mouse.Pressed = Q_EVT_CAST(MouseEvt)->Pressed;
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mouse.Layer = Q_EVT_CAST(MouseEvt)->Layer;
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GUI_PID_StoreState(&mouse); // update the state of the Mouse PID
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WM_Exec(); // update the screen and invoke WM callbacks
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return Q_RET_HANDLED;
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}
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// ... hardkey events ...
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case KEY_LEFT_REL_SIG: { // hardkey LEFT released
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WM_MoveWindow(l_hDlg, -5, 0);
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WM_Exec(); // update the screen and invoke WM callbacks
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return Q_RET_HANDLED;
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}
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case KEY_RIGHT_REL_SIG: { // hardkey RIGHT released
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WM_MoveWindow(l_hDlg, 5, 0);
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WM_Exec(); // update the screen and invoke WM callbacks
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return Q_RET_HANDLED;
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}
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case KEY_DOWN_REL_SIG: { // hardkey DOWN released
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WM_MoveWindow(l_hDlg, 0, 5);
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WM_Exec(); // update the screen and invoke WM callbacks
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return Q_RET_HANDLED;
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}
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case KEY_UP_REL_SIG: { // hardkey UP released
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WM_MoveWindow(l_hDlg, 0, -5);
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WM_Exec(); // update the screen and invoke WM callbacks
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return Q_RET_HANDLED;
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}
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}
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return super(&top);
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}
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//............................................................................
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Q_STATE_DEF(Table, serving) {
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uint8_t n, m;
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TableEvt *pe;
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switch (e->sig) {
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case Q_ENTRY_SIG: {
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displyTableStat("serving");
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for (n = 0; n < N_PHILO; ++n) { // give permissions to eat...
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if (m_isHungry[n]
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&& (m_fork[LEFT(n)] == FREE)
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&& (m_fork[n] == FREE))
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{
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m_fork[LEFT(n)] = m_fork[n] = USED;
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pe = Q_NEW(TableEvt, EAT_SIG);
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pe->philoNum = n;
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QF::PUBLISH(pe, me);
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m_isHungry[n] = 0;
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displyPhilStat(n, "eating ");
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}
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}
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return Q_RET_HANDLED;
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}
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case HUNGRY_SIG: {
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n = ((TableEvt *)e)->philoNum;
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Q_ASSERT(n < N_PHILO && !m_isHungry[n]);
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displyPhilStat(n, "hungry ");
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m = LEFT(n);
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if (m_fork[m] == FREE && m_fork[n] == FREE) {
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m_fork[m] = m_fork[n] = USED;
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pe = Q_NEW(TableEvt, EAT_SIG);
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pe->philoNum = n;
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QF::PUBLISH(pe, me);
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displyPhilStat(n, "eating ");
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}
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else {
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m_isHungry[n] = 1;
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}
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return Q_RET_HANDLED;
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}
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case DONE_SIG: {
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n = ((TableEvt *)e)->philoNum;
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Q_ASSERT(n < N_PHILO);
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displyPhilStat(n, "thinking");
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m_fork[LEFT(n)] = m_fork[n] = FREE;
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m = RIGHT(n); // check the right neighbor
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if (m_isHungry[m] && m_fork[m] == FREE) {
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m_fork[n] = m_fork[m] = USED;
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m_isHungry[m] = 0;
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pe = Q_NEW(TableEvt, EAT_SIG);
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pe->philoNum = m;
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QF::PUBLISH(pe, me);
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displyPhilStat(m, "eating ");
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}
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m = LEFT(n); // check the left neighbor
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n = LEFT(m);
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if (m_isHungry[m] && m_fork[n] == FREE) {
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m_fork[m] = m_fork[n] = USED;
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m_isHungry[m] = 0;
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pe = Q_NEW(TableEvt, EAT_SIG);
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pe->philoNum = m;
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QF::PUBLISH(pe, me);
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displyPhilStat(m, "eating ");
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}
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return Q_RET_HANDLED;
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}
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case PAUSE_SIG: // "Toggle" button pressed
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case KEY_CENTER_PRESS_SIG: { // hardkey CENTER pressed
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return tran(&paused);
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}
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}
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return super(&ready);
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}
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//............................................................................
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Q_STATE_DEF(Table, paused) {
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uint8_t n;
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switch (e->sig) {
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case Q_ENTRY_SIG: {
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displyTableStat("paused");
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return Q_RET_HANDLED;
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}
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case HUNGRY_SIG: {
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n = ((TableEvt *)e)->philoNum;
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Q_ASSERT(n < N_PHILO && !m_isHungry[n]);
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displyPhilStat(n, "hungry ");
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m_isHungry[n] = 1;
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return Q_RET_HANDLED;
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}
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case DONE_SIG: {
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n = ((TableEvt *)e)->philoNum;
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Q_ASSERT(n < N_PHILO);
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displyPhilStat(n, "thinking");
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m_fork[LEFT(n)] = m_fork[n] = FREE;
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return Q_RET_HANDLED;
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}
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case PAUSE_SIG: // "Toggle" button pressed
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case KEY_CENTER_REL_SIG: { // hardkey CENTER released
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return tran(&serving);
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}
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}
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return super(&ready);
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}
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