John Mitchell / lpc4088_displaymodule_GC500_2_5inch

Repository for import to local machine

Dependencies:   DMBasicGUI DMSupport

main.cpp@8:26e49e6955bd, 2017-07-31 (annotated)

Committer:
jmitc91516
Date:
Mon Jul 31 15:37:57 2017 +0000
Revision:
8:26e49e6955bd
Parent:
7:f0e645cf73a2 
Method ramp scrolling improved, and more bitmaps moved to QSPI memory

Who changed what in which revision?

UserRevisionLine numberNew contents of line
jmitc91516 0:47c880c1463d 1 #include "mbed.h"
jmitc91516 0:47c880c1463d 2 #include "DMBoard.h"
jmitc91516 0:47c880c1463d 3 #include "lpc_swim.h"
jmitc91516 0:47c880c1463d 4 #include "lpc_swim_font.h"
jmitc91516 0:47c880c1463d 5
jmitc91516 0:47c880c1463d 6 #include <string.h>
jmitc91516 0:47c880c1463d 7
jmitc91516 1:a5258871b33d 8 #include <stdio.h>
jmitc91516 1:a5258871b33d 9 #include <stdlib.h>
jmitc91516 1:a5258871b33d 10
jmitc91516 0:47c880c1463d 11 #include "GuiLib.h"
jmitc91516 0:47c880c1463d 12 #include "GuiDisplay.h"
jmitc91516 0:47c880c1463d 13
jmitc91516 0:47c880c1463d 14 #include "USBHostGC.h"
jmitc91516 0:47c880c1463d 15 #include "TouchPanelPageSelector.h"
jmitc91516 0:47c880c1463d 16 #include "GCHeatControl.h"
jmitc91516 0:47c880c1463d 17 #include "GetGCStatusLoop.h"
jmitc91516 0:47c880c1463d 18 #include "GCComponentStatusColorArea.h"
jmitc91516 1:a5258871b33d 19 #include "GCStateAndFaultCodes.h"
jmitc91516 1:a5258871b33d 20 #include "ProgressBar.h"
jmitc91516 1:a5258871b33d 21 #include "EasyGUITouchAreaIndices.h"
jmitc91516 1:a5258871b33d 22 #include "NetworkParameters.h"
jmitc91516 1:a5258871b33d 23 #include "ServiceInterval.h"
jmitc91516 1:a5258871b33d 24 #include "SettingsHandler.h"
jmitc91516 1:a5258871b33d 25 #include "GasCalibrationPageHandler.h"
jmitc91516 1:a5258871b33d 26 #include "ColumnDHAutoCalibrationPageHandler.h"
jmitc91516 1:a5258871b33d 27 #include "ColumnDHManualCalibrationPageHandler.h"
jmitc91516 1:a5258871b33d 28 #include "ColumnDHSensorCalibrationPageHandler.h"
jmitc91516 1:a5258871b33d 29 #include "ColumnDHPSUDACPageHandler.h"
jmitc91516 1:a5258871b33d 30 #include "GasBackPressureDACPageHandler.h"
jmitc91516 1:a5258871b33d 31 #include "GasChannelDACAndADCPageHandler.h"
jmitc91516 1:a5258871b33d 32 #include "NudgeAndDampPageHandler.h"
jmitc91516 1:a5258871b33d 33 #include "NumericKeypadPageHandler.h"
jmitc91516 1:a5258871b33d 34 #include "EthernetKeypadPageHandler.h"
jmitc91516 1:a5258871b33d 35 #include "DebugCommandsPageHandler.h"
jmitc91516 1:a5258871b33d 36 #include "QSPIBitmap.h"
jmitc91516 1:a5258871b33d 37 #include "DetectorIgnitionHandler.h"
jmitc91516 1:a5258871b33d 38 #include "SwimDraw.h"
jmitc91516 1:a5258871b33d 39 #include "USBHostGCUtilities.h"
jmitc91516 1:a5258871b33d 40
jmitc91516 1:a5258871b33d 41
jmitc91516 8:26e49e6955bd 42 #define BUILD_DATE "31 July 2017" // Copied to easyGUI variable "GuiVar_buildDate", displayed on both Settings pages (normal and Running).
jmitc91516 1:a5258871b33d 43 // *** MUST update for each 'delivered' build, MUST correspond with date on 'delivered' binary file ***
jmitc91516 1:a5258871b33d 44 // This should be updated first thing every morning, and immediately after every 'delivery'
jmitc91516 1:a5258871b33d 45 // (to e.g. "dd mmm yyyy #2"), so that it is ready for the next one.
jmitc91516 1:a5258871b33d 46 // Also - 'deliver' the ZIP file produced by the 'Export Program' command (right-click on the project
jmitc91516 1:a5258871b33d 47 // in 'Program Workspace' at the left of this screen), as well as the binary executable and the ReadMe.txt file,
jmitc91516 1:a5258871b33d 48 // and now the EasyGUI project file as well.
jmitc91516 1:a5258871b33d 49
jmitc91516 1:a5258871b33d 50 // Defined in GuiDisplay.c - set the display frame address at runtime
jmitc91516 1:a5258871b33d 51 extern "C" {
jmitc91516 1:a5258871b33d 52 void GuiDisplay_SetFrameAddress(void *newFrameAddress);
jmitc91516 1:a5258871b33d 53 }
jmitc91516 1:a5258871b33d 54
jmitc91516 1:a5258871b33d 55 // Used by QSPIBitmaps class
jmitc91516 1:a5258871b33d 56 bool qspiAlreadyFormatted = false;
jmitc91516 1:a5258871b33d 57
jmitc91516 1:a5258871b33d 58 //#define MEMORY_TEST_OCT_2016
jmitc91516 1:a5258871b33d 59 #ifdef MEMORY_TEST_OCT_2016
jmitc91516 1:a5258871b33d 60 const int clogLength = 1000;
jmitc91516 1:a5258871b33d 61 char clogUpMemory[clogLength];
jmitc91516 1:a5258871b33d 62 #endif // MEMORY_TEST_OCT_2016
jmitc91516 1:a5258871b33d 63
jmitc91516 1:a5258871b33d 64 /*
jmitc91516 1:a5258871b33d 65 This application provides a draft implementation of the LPC4088 user interface to the GC.
jmitc91516 1:a5258871b33d 66 It talks to the GC over a USB link.
jmitc91516 1:a5258871b33d 67
jmitc91516 1:a5258871b33d 68 The associated easyGUI project is C:/easyGUI Projects/GC500_5inch.gui
jmitc91516 1:a5258871b33d 69
jmitc91516 1:a5258871b33d 70 It is intended for use with the Embedded Artists LPC4088 board, 5 inch display.
jmitc91516 1:a5258871b33d 71
jmitc91516 1:a5258871b33d 72 Note that the two most important functions in this application are:
jmitc91516 1:a5258871b33d 73 main (obviously) or, more specifically, getGCStatusLoop->MainLoopWithEthernet(), called from main
jmitc91516 1:a5258871b33d 74 TouchCallback, which handles the user's interaction with the LPC4088 touch screen
jmitc91516 1:a5258871b33d 75
jmitc91516 1:a5258871b33d 76 Most other functions are (ultimately) called by those two.
jmitc91516 1:a5258871b33d 77 */
jmitc91516 1:a5258871b33d 78
jmitc91516 1:a5258871b33d 79 // Forward declarations
jmitc91516 1:a5258871b33d 80 GuiConst_INTCOLOR SixteenBitColorValue(GuiConst_INT8U red, GuiConst_INT8U green, GuiConst_INT8U blue);
jmitc91516 1:a5258871b33d 81 void DrawHeatOnOffButton(void);
jmitc91516 1:a5258871b33d 82 void SetupDoorActuatorCommandUserInterface(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC, bool beforePageDisplay);
jmitc91516 1:a5258871b33d 83
jmitc91516 1:a5258871b33d 84
jmitc91516 1:a5258871b33d 85 static bool canUnlockDoorActuators = true; // Set false if there is some reason why they cannot be unlocked even when the GC is idle
jmitc91516 1:a5258871b33d 86 /*
jmitc91516 1:a5258871b33d 87 Function to gives the rest of the world access to the above flag
jmitc91516 1:a5258871b33d 88 */
jmitc91516 1:a5258871b33d 89 void CanUnlockDoorActuators(bool value)
jmitc91516 1:a5258871b33d 90 {
jmitc91516 1:a5258871b33d 91 canUnlockDoorActuators = value;
jmitc91516 1:a5258871b33d 92 }
jmitc91516 1:a5258871b33d 93
jmitc91516 1:a5258871b33d 94
jmitc91516 1:a5258871b33d 95 //#define ALLOW_DEBUG_PRINTS // Without this, our 'debug print' functions contain no code, and do nothing.
jmitc91516 1:a5258871b33d 96 // So we do not have to remove all the debug prints throughout this application -
jmitc91516 1:a5258871b33d 97 // just comment out this #define.
jmitc91516 1:a5258871b33d 98 // Note that we are currently *not* applying this to the code in the 'DrawErrorMessage()' function,
jmitc91516 1:a5258871b33d 99 // which is only used here in main.cpp.
jmitc91516 1:a5258871b33d 100
jmitc91516 1:a5258871b33d 101
jmitc91516 1:a5258871b33d 102 /*
jmitc91516 1:a5258871b33d 103 Code received from Embedded Artists, to cause the LPC4088 to reboot
jmitc91516 1:a5258871b33d 104 (thus allowing us to restart the Ethernet connection with a different IP address)
jmitc91516 1:a5258871b33d 105 */
jmitc91516 1:a5258871b33d 106 void reboot()
jmitc91516 1:a5258871b33d 107 {
jmitc91516 1:a5258871b33d 108 /* Disable watchdog */
jmitc91516 1:a5258871b33d 109 LPC_WDT->MOD = 0;
jmitc91516 1:a5258871b33d 110 LPC_WDT->TC = 0xFF;
jmitc91516 1:a5258871b33d 111
jmitc91516 1:a5258871b33d 112 /* Set WDT timeout to 0.1s using the 500kHz oscillator
jmitc91516 1:a5258871b33d 113 and the fixed pre-scaler of 4 */
jmitc91516 1:a5258871b33d 114 LPC_WDT->TC = ((500000 / 4) / 10);
jmitc91516 1:a5258871b33d 115
jmitc91516 1:a5258871b33d 116 /* Make sure a watchdog timeout causes a reset */
jmitc91516 1:a5258871b33d 117 LPC_WDT->MOD |= (1<<1);
jmitc91516 1:a5258871b33d 118
jmitc91516 1:a5258871b33d 119 /* Enable the watchdog */
jmitc91516 1:a5258871b33d 120 LPC_WDT->MOD |= (1<<0);
jmitc91516 1:a5258871b33d 121
jmitc91516 1:a5258871b33d 122 /* Initial feed to start the watchdog */
jmitc91516 1:a5258871b33d 123 LPC_WDT->FEED = 0xAA;
jmitc91516 1:a5258871b33d 124 LPC_WDT->FEED = 0x55;
jmitc91516 1:a5258871b33d 125
jmitc91516 1:a5258871b33d 126 /* Should reboot after 100ms */
jmitc91516 1:a5258871b33d 127 while(true);
jmitc91516 1:a5258871b33d 128 }
jmitc91516 0:47c880c1463d 129
jmitc91516 0:47c880c1463d 130
jmitc91516 0:47c880c1463d 131 // ** Start of timeout code to guard against multiple presses of the Heat On/Off button **
jmitc91516 0:47c880c1463d 132 // (which is in the same position as the Abort Run button)
jmitc91516 0:47c880c1463d 133 Timeout heatOnOffTimeout;
jmitc91516 0:47c880c1463d 134
jmitc91516 0:47c880c1463d 135 bool heatOnOffAvailable = true;
jmitc91516 0:47c880c1463d 136
jmitc91516 0:47c880c1463d 137 void MakeHeatOnOffAvailableAgain(void)
jmitc91516 0:47c880c1463d 138 {
jmitc91516 0:47c880c1463d 139 heatOnOffAvailable = true;
jmitc91516 0:47c880c1463d 140 }
jmitc91516 0:47c880c1463d 141
jmitc91516 0:47c880c1463d 142 void StartHeatOnOffTimeout(void)
jmitc91516 0:47c880c1463d 143 {
jmitc91516 0:47c880c1463d 144 heatOnOffAvailable = false;
jmitc91516 0:47c880c1463d 145 heatOnOffTimeout.attach(&MakeHeatOnOffAvailableAgain, 1.0); // Wait 1.0 sec before accepting touches again on Heat On/Off button
jmitc91516 0:47c880c1463d 146 }
jmitc91516 0:47c880c1463d 147 // ** End of Heat On/Off timeout code **
jmitc91516 0:47c880c1463d 148
jmitc91516 1:a5258871b33d 149 #define USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 1:a5258871b33d 150
jmitc91516 1:a5258871b33d 151 //#define TURN_HEAT_OFF_ON_ABORT // Doing this may or may not be a good idea...
jmitc91516 0:47c880c1463d 152
jmitc91516 0:47c880c1463d 153 // These are 'global' - TouchCallback function, as well as main(), needs to access them
jmitc91516 0:47c880c1463d 154 TouchPanelPageSelectors touchPanelPageSelectors;
jmitc91516 0:47c880c1463d 155 GCHeatControl* theGCHeatControl;
jmitc91516 0:47c880c1463d 156
jmitc91516 1:a5258871b33d 157
jmitc91516 0:47c880c1463d 158 GetGCStatusLoop* getGCStatusLoop = NULL;
jmitc91516 0:47c880c1463d 159
jmitc91516 0:47c880c1463d 160 HomePageGCComponentStatusColorAreas homePageGCComponentStatusColorAreas;
jmitc91516 0:47c880c1463d 161 SingleGCComponentPageStatusColorAreas singleGCComponentPageStatusColorAreas;
jmitc91516 0:47c880c1463d 162
jmitc91516 1:a5258871b33d 163 #define USE_QSPI_BITMAPS
jmitc91516 1:a5258871b33d 164 #ifdef USE_QSPI_BITMAPS
jmitc91516 8:26e49e6955bd 165
jmitc91516 1:a5258871b33d 166 QSPIBitmaps qspiBitmaps;
jmitc91516 8:26e49e6955bd 167
jmitc91516 8:26e49e6955bd 168 #define USE_QSPI_BACKGROUND_BITMAPS
jmitc91516 8:26e49e6955bd 169
jmitc91516 1:a5258871b33d 170 #endif // USE_QSPI_BITMAPS
jmitc91516 1:a5258871b33d 171
jmitc91516 1:a5258871b33d 172 //#define WANT_STATUS_RECTANGLE_ON_COLUMN_AUTO_CALIB_PAGE
jmitc91516 1:a5258871b33d 173 //#define WANT_STATUS_RECTANGLE_ON_GAS_CALIB_PAGES
jmitc91516 7:f0e645cf73a2 174 //#define WANT_DOOR_ACTUATOR_BUTTONS_ON_COLUMN_PAGES
jmitc91516 7:f0e645cf73a2 175 //#define WANT_COMPONENT_ICON_ON_PROFILE_PAGES
jmitc91516 0:47c880c1463d 176
jmitc91516 1:a5258871b33d 177 /*
jmitc91516 1:a5258871b33d 178 Bodge so GuiDisplay.c ('easyGUIFixed' file) can call Thread::wait
jmitc91516 1:a5258871b33d 179 (giving it an accurate millisecond timer)
jmitc91516 1:a5258871b33d 180 */
jmitc91516 1:a5258871b33d 181 extern "C" {
jmitc91516 1:a5258871b33d 182 void EasyGUIWaitMs(GuiConst_INT32U msec)
jmitc91516 1:a5258871b33d 183 {
jmitc91516 1:a5258871b33d 184 Thread::wait(msec);
jmitc91516 1:a5258871b33d 185 }
jmitc91516 1:a5258871b33d 186 }
jmitc91516 0:47c880c1463d 187
jmitc91516 1:a5258871b33d 188 /*
jmitc91516 1:a5258871b33d 189 Passed three 8-bit colour components - red, green and blue.
jmitc91516 1:a5258871b33d 190
jmitc91516 1:a5258871b33d 191 Returns the corresponding 16-bit colour value (5 bits for red, 6 bits for green, 5 bits for blue).
jmitc91516 1:a5258871b33d 192 */
jmitc91516 0:47c880c1463d 193 GuiConst_INTCOLOR SixteenBitColorValue(GuiConst_INT8U red, GuiConst_INT8U green, GuiConst_INT8U blue)
jmitc91516 0:47c880c1463d 194 {
jmitc91516 0:47c880c1463d 195 // Make sure we don't have numeric overflow problems during the conversion
jmitc91516 0:47c880c1463d 196 GuiConst_INT32U red32 = red;
jmitc91516 0:47c880c1463d 197 GuiConst_INT32U green32 = green;
jmitc91516 0:47c880c1463d 198 GuiConst_INT32U blue32 = blue;
jmitc91516 0:47c880c1463d 199
jmitc91516 1:a5258871b33d 200 //#define REVERSE_RED_AND_BLUE
jmitc91516 1:a5258871b33d 201 #ifdef REVERSE_RED_AND_BLUE
jmitc91516 1:a5258871b33d 202 GuiConst_INT32U rgb = (red32 << 16) | (green32 << 8) | blue32;
jmitc91516 1:a5258871b33d 203 #else
jmitc91516 0:47c880c1463d 204 GuiConst_INT32U rgb = (blue32 << 16) | (green32 << 8) | red32;
jmitc91516 1:a5258871b33d 205 #endif
jmitc91516 1:a5258871b33d 206
jmitc91516 0:47c880c1463d 207 return GuiLib_RgbToPixelColor(rgb);
jmitc91516 0:47c880c1463d 208 }
jmitc91516 0:47c880c1463d 209
jmitc91516 1:a5258871b33d 210 // DebugPrint without '#ifdef ALLOW_DEBUG_PRINTS'
jmitc91516 1:a5258871b33d 211 void SpecialDebugPrint(char *stuffToPrint, GuiConst_INT16S X, GuiConst_INT16S Y)
jmitc91516 1:a5258871b33d 212 {
jmitc91516 1:a5258871b33d 213 static int counter = 0;
jmitc91516 1:a5258871b33d 214 char buff[300];
jmitc91516 1:a5258871b33d 215
jmitc91516 1:a5258871b33d 216 const GuiConst_INT16U fontNo = GuiFont_Helv1;
jmitc91516 1:a5258871b33d 217
jmitc91516 1:a5258871b33d 218 GuiDisplay_Lock();
jmitc91516 1:a5258871b33d 219
jmitc91516 1:a5258871b33d 220 // (Attempt to) clear previous strings from display
jmitc91516 1:a5258871b33d 221 sprintf(buff, " ");
jmitc91516 1:a5258871b33d 222 GuiLib_DrawStr(
jmitc91516 1:a5258871b33d 223 X, //GuiConst_INT16S X,
jmitc91516 1:a5258871b33d 224 Y, //GuiConst_INT16S Y,
jmitc91516 1:a5258871b33d 225 fontNo, //GuiConst_INT16U FontNo,
jmitc91516 1:a5258871b33d 226 buff, //GuiConst_TEXT PrefixLocate *String,
jmitc91516 1:a5258871b33d 227 GuiLib_ALIGN_LEFT, //GuiConst_INT8U Alignment,
jmitc91516 1:a5258871b33d 228 GuiLib_PS_ON, //GuiConst_INT8U PsWriting,
jmitc91516 1:a5258871b33d 229 GuiLib_TRANSPARENT_OFF, //GuiConst_INT8U Transparent,
jmitc91516 1:a5258871b33d 230 GuiLib_UNDERLINE_OFF, //GuiConst_INT8U Underlining,
jmitc91516 1:a5258871b33d 231 0, //GuiConst_INT16S BackBoxSizeX,
jmitc91516 1:a5258871b33d 232 0, //GuiConst_INT16S BackBoxSizeY1,
jmitc91516 1:a5258871b33d 233 0, //GuiConst_INT16S BackBoxSizeY2,
jmitc91516 1:a5258871b33d 234 GuiLib_BBP_NONE, //GuiConst_INT8U BackBorderPixels,
jmitc91516 1:a5258871b33d 235 SixteenBitColorValue(0, 0, 0xFF), //GuiConst_INTCOLOR ForeColor,
jmitc91516 1:a5258871b33d 236 SixteenBitColorValue(0, 0xFF, 0) //GuiConst_INTCOLOR BackColor
jmitc91516 1:a5258871b33d 237 );
jmitc91516 1:a5258871b33d 238
jmitc91516 1:a5258871b33d 239 sprintf(buff, "%s [%d]", stuffToPrint, ++counter);
jmitc91516 1:a5258871b33d 240
jmitc91516 1:a5258871b33d 241 GuiLib_DrawStr(
jmitc91516 1:a5258871b33d 242 X, //GuiConst_INT16S X,
jmitc91516 1:a5258871b33d 243 Y, //GuiConst_INT16S Y,
jmitc91516 1:a5258871b33d 244 fontNo, //GuiConst_INT16U FontNo,
jmitc91516 1:a5258871b33d 245 buff, //GuiConst_TEXT PrefixLocate *String,
jmitc91516 1:a5258871b33d 246 GuiLib_ALIGN_LEFT, //GuiConst_INT8U Alignment,
jmitc91516 1:a5258871b33d 247 GuiLib_PS_ON, //GuiConst_INT8U PsWriting,
jmitc91516 1:a5258871b33d 248 GuiLib_TRANSPARENT_OFF, //GuiConst_INT8U Transparent,
jmitc91516 1:a5258871b33d 249 GuiLib_UNDERLINE_OFF, //GuiConst_INT8U Underlining,
jmitc91516 1:a5258871b33d 250 0, //GuiConst_INT16S BackBoxSizeX,
jmitc91516 1:a5258871b33d 251 0, //GuiConst_INT16S BackBoxSizeY1,
jmitc91516 1:a5258871b33d 252 0, //GuiConst_INT16S BackBoxSizeY2,
jmitc91516 1:a5258871b33d 253 GuiLib_BBP_NONE, //GuiConst_INT8U BackBorderPixels,
jmitc91516 1:a5258871b33d 254 SixteenBitColorValue(0, 0, 0xFF), //GuiConst_INTCOLOR ForeColor,
jmitc91516 1:a5258871b33d 255 SixteenBitColorValue(0, 0xFF, 0) //GuiConst_INTCOLOR BackColor
jmitc91516 1:a5258871b33d 256 );
jmitc91516 1:a5258871b33d 257
jmitc91516 1:a5258871b33d 258 GuiLib_Refresh();
jmitc91516 1:a5258871b33d 259
jmitc91516 1:a5258871b33d 260 GuiDisplay_Unlock();
jmitc91516 1:a5258871b33d 261 }
jmitc91516 1:a5258871b33d 262
jmitc91516 1:a5258871b33d 263 /*
jmitc91516 1:a5258871b33d 264 Prints (i.e. displays) the specified text at the specified coordinates on the screen,
jmitc91516 1:a5258871b33d 265 blue text on a green background, using easyGUI.
jmitc91516 1:a5258871b33d 266
jmitc91516 1:a5258871b33d 267 Args are: null-terminated string to print, x coord, y coord.
jmitc91516 1:a5258871b33d 268
jmitc91516 1:a5258871b33d 269 No return code.
jmitc91516 1:a5258871b33d 270 */
jmitc91516 0:47c880c1463d 271 void DebugPrint(char *stuffToPrint, GuiConst_INT16S X, GuiConst_INT16S Y)
jmitc91516 0:47c880c1463d 272 {
jmitc91516 1:a5258871b33d 273 #ifdef ALLOW_DEBUG_PRINTS
jmitc91516 0:47c880c1463d 274 char buff[200];
jmitc91516 0:47c880c1463d 275
jmitc91516 0:47c880c1463d 276 const GuiConst_INT16U fontNo = GuiFont_Helv1;
jmitc91516 0:47c880c1463d 277
jmitc91516 0:47c880c1463d 278 GuiDisplay_Lock();
jmitc91516 0:47c880c1463d 279
jmitc91516 0:47c880c1463d 280 // (Attempt to) clear previous strings from display
jmitc91516 0:47c880c1463d 281 sprintf(buff, " ");
jmitc91516 0:47c880c1463d 282 GuiLib_DrawStr(
jmitc91516 0:47c880c1463d 283 X, //GuiConst_INT16S X,
jmitc91516 0:47c880c1463d 284 Y, //GuiConst_INT16S Y,
jmitc91516 0:47c880c1463d 285 fontNo, //GuiConst_INT16U FontNo,
jmitc91516 0:47c880c1463d 286 buff, //GuiConst_TEXT PrefixLocate *String,
jmitc91516 0:47c880c1463d 287 GuiLib_ALIGN_LEFT, //GuiConst_INT8U Alignment,
jmitc91516 0:47c880c1463d 288 GuiLib_PS_ON, //GuiConst_INT8U PsWriting,
jmitc91516 0:47c880c1463d 289 GuiLib_TRANSPARENT_OFF, //GuiConst_INT8U Transparent,
jmitc91516 0:47c880c1463d 290 GuiLib_UNDERLINE_OFF, //GuiConst_INT8U Underlining,
jmitc91516 0:47c880c1463d 291 0, //GuiConst_INT16S BackBoxSizeX,
jmitc91516 0:47c880c1463d 292 0, //GuiConst_INT16S BackBoxSizeY1,
jmitc91516 0:47c880c1463d 293 0, //GuiConst_INT16S BackBoxSizeY2,
jmitc91516 0:47c880c1463d 294 GuiLib_BBP_NONE, //GuiConst_INT8U BackBorderPixels,
jmitc91516 0:47c880c1463d 295 SixteenBitColorValue(0, 0, 0xFF), //GuiConst_INTCOLOR ForeColor,
jmitc91516 0:47c880c1463d 296 SixteenBitColorValue(0, 0xFF, 0) //GuiConst_INTCOLOR BackColor
jmitc91516 0:47c880c1463d 297 );
jmitc91516 0:47c880c1463d 298
jmitc91516 0:47c880c1463d 299 GuiLib_DrawStr(
jmitc91516 0:47c880c1463d 300 X, //GuiConst_INT16S X,
jmitc91516 0:47c880c1463d 301 Y, //GuiConst_INT16S Y,
jmitc91516 0:47c880c1463d 302 fontNo, //GuiConst_INT16U FontNo,
jmitc91516 0:47c880c1463d 303 stuffToPrint, //GuiConst_TEXT PrefixLocate *String,
jmitc91516 0:47c880c1463d 304 GuiLib_ALIGN_LEFT, //GuiConst_INT8U Alignment,
jmitc91516 0:47c880c1463d 305 GuiLib_PS_ON, //GuiConst_INT8U PsWriting,
jmitc91516 0:47c880c1463d 306 GuiLib_TRANSPARENT_OFF, //GuiConst_INT8U Transparent,
jmitc91516 0:47c880c1463d 307 GuiLib_UNDERLINE_OFF, //GuiConst_INT8U Underlining,
jmitc91516 0:47c880c1463d 308 0, //GuiConst_INT16S BackBoxSizeX,
jmitc91516 0:47c880c1463d 309 0, //GuiConst_INT16S BackBoxSizeY1,
jmitc91516 0:47c880c1463d 310 0, //GuiConst_INT16S BackBoxSizeY2,
jmitc91516 0:47c880c1463d 311 GuiLib_BBP_NONE, //GuiConst_INT8U BackBorderPixels,
jmitc91516 0:47c880c1463d 312 SixteenBitColorValue(0, 0, 0xFF), //GuiConst_INTCOLOR ForeColor,
jmitc91516 0:47c880c1463d 313 SixteenBitColorValue(0, 0xFF, 0) //GuiConst_INTCOLOR BackColor
jmitc91516 0:47c880c1463d 314 );
jmitc91516 0:47c880c1463d 315
jmitc91516 0:47c880c1463d 316 GuiLib_Refresh();
jmitc91516 0:47c880c1463d 317
jmitc91516 0:47c880c1463d 318 GuiDisplay_Unlock();
jmitc91516 1:a5258871b33d 319 #endif //ALLOW_DEBUG_PRINTS
jmitc91516 0:47c880c1463d 320 }
jmitc91516 0:47c880c1463d 321
jmitc91516 1:a5258871b33d 322 /*
jmitc91516 1:a5258871b33d 323 A 'wrapper' function for the above, so that the caller does not need access
jmitc91516 1:a5258871b33d 324 to the easyGUI declarations
jmitc91516 1:a5258871b33d 325
jmitc91516 1:a5258871b33d 326 Intended to be used as an 'extern' in other modules.
jmitc91516 1:a5258871b33d 327 */
jmitc91516 0:47c880c1463d 328 void EasyGUIDebugPrint(char *stuffToPrint, short X, short Y)
jmitc91516 0:47c880c1463d 329 {
jmitc91516 1:a5258871b33d 330 #ifdef ALLOW_DEBUG_PRINTS
jmitc91516 0:47c880c1463d 331 DebugPrint(stuffToPrint, (GuiConst_INT16S) X, (GuiConst_INT16S) Y);
jmitc91516 1:a5258871b33d 332 #endif // ALLOW_DEBUG_PRINTS
jmitc91516 0:47c880c1463d 333 }
jmitc91516 0:47c880c1463d 334
jmitc91516 1:a5258871b33d 335 /*
jmitc91516 1:a5258871b33d 336 Version of the above that increments, and displays, a counter each time it is called -
jmitc91516 1:a5258871b33d 337 so the user can see if it is being called repeatedly, or if the application has simply hung
jmitc91516 1:a5258871b33d 338 */
jmitc91516 1:a5258871b33d 339 void EasyGUIDebugPrintWithCounter(char *stuffToPrint, short X, short Y)
jmitc91516 0:47c880c1463d 340 {
jmitc91516 1:a5258871b33d 341 #ifdef ALLOW_DEBUG_PRINTS
jmitc91516 1:a5258871b33d 342 static int counter = 0;
jmitc91516 1:a5258871b33d 343 char buff[300];
jmitc91516 1:a5258871b33d 344 sprintf(buff, "%s [%d]", stuffToPrint, ++counter);
jmitc91516 1:a5258871b33d 345
jmitc91516 1:a5258871b33d 346 DebugPrint(buff, (GuiConst_INT16S) X, (GuiConst_INT16S) Y);
jmitc91516 1:a5258871b33d 347 #endif // ALLOW_DEBUG_PRINTS
jmitc91516 0:47c880c1463d 348 }
jmitc91516 0:47c880c1463d 349
jmitc91516 1:a5258871b33d 350 extern "C" {
jmitc91516 1:a5258871b33d 351 void EasyGUIDebugPrintWithCounterCalledFromC(char *stuffToPrint, short X, short Y)
jmitc91516 1:a5258871b33d 352 {
jmitc91516 1:a5258871b33d 353 EasyGUIDebugPrintWithCounter(stuffToPrint, X, Y);
jmitc91516 1:a5258871b33d 354 }
jmitc91516 0:47c880c1463d 355 }
jmitc91516 0:47c880c1463d 356
jmitc91516 1:a5258871b33d 357 /*
jmitc91516 1:a5258871b33d 358 Gets the GC status.
jmitc91516 1:a5258871b33d 359
jmitc91516 1:a5258871b33d 360 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 361 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 362
jmitc91516 1:a5258871b33d 363 Returns the GC status as an integer - see the GC_STATE enumeration in GCStateAndFaultCodes.h
jmitc91516 1:a5258871b33d 364 for the possible values.
jmitc91516 1:a5258871b33d 365 */
jmitc91516 1:a5258871b33d 366 int GetGCStatus(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 0:47c880c1463d 367 {
jmitc91516 0:47c880c1463d 368 while(usbHostGC->ExecutingSetDeviceReport()) {}
jmitc91516 0:47c880c1463d 369
jmitc91516 0:47c880c1463d 370 char response[50];
jmitc91516 1:a5258871b33d 371 int status;
jmitc91516 0:47c880c1463d 372
jmitc91516 0:47c880c1463d 373 // Ensure we always have valid chars in the positions we are interested in,
jmitc91516 0:47c880c1463d 374 // in case we get "DNAK" or "EPKT" back
jmitc91516 0:47c880c1463d 375 response[6] = '0';
jmitc91516 0:47c880c1463d 376 response[7] = '0';
jmitc91516 0:47c880c1463d 377
jmitc91516 0:47c880c1463d 378 usbHostGC->SetDeviceReport(usbDevice, "QSTA", response);
jmitc91516 1:a5258871b33d 379 // We expect a response like "DSTA00nn", where "nn" is the status.
jmitc91516 1:a5258871b33d 380 sscanf(&response[6], "%d", &status);
jmitc91516 1:a5258871b33d 381
jmitc91516 1:a5258871b33d 382 return status;
jmitc91516 1:a5258871b33d 383 }
jmitc91516 1:a5258871b33d 384
jmitc91516 1:a5258871b33d 385 /*
jmitc91516 1:a5258871b33d 386 Tells the caller whether or not the GC is ready to run
jmitc91516 1:a5258871b33d 387
jmitc91516 1:a5258871b33d 388 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 389 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 390
jmitc91516 1:a5258871b33d 391 Returns true if the GC is ready to run, false if not.
jmitc91516 1:a5258871b33d 392 */
jmitc91516 1:a5258871b33d 393 bool GCIsReadyToRun(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 394 {
jmitc91516 1:a5258871b33d 395 #ifdef USE_VERSION_102 // See GCStateAndFaultCodes.h
jmitc91516 1:a5258871b33d 396 return (GetGCStatus(usbDevice, usbHostGC) == GC_STATE_102_METHOD_READY_TO_RUN);
jmitc91516 1:a5258871b33d 397 #else
jmitc91516 1:a5258871b33d 398 return (GetGCStatus(usbDevice, usbHostGC) == GC_STATE_READY_TO_RUN);
jmitc91516 1:a5258871b33d 399 #endif
jmitc91516 1:a5258871b33d 400 }
jmitc91516 1:a5258871b33d 401
jmitc91516 1:a5258871b33d 402 /*
jmitc91516 1:a5258871b33d 403 Tells the caller whether or not the GC is in the 'stabilising' state
jmitc91516 0:47c880c1463d 404
jmitc91516 1:a5258871b33d 405 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 406 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 407
jmitc91516 1:a5258871b33d 408 Returns true if the GC is stabilising, false if not.
jmitc91516 1:a5258871b33d 409 */
jmitc91516 1:a5258871b33d 410 bool GCIsStabilising(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 411 {
jmitc91516 1:a5258871b33d 412 #ifdef USE_VERSION_102 // See GCStateAndFaultCodes.h
jmitc91516 1:a5258871b33d 413 return (GetGCStatus(usbDevice, usbHostGC) == GC_STATE_102_METHOD_STABILISING);
jmitc91516 1:a5258871b33d 414 #else
jmitc91516 1:a5258871b33d 415 return false; // No "stabilising" state before version 1.02
jmitc91516 1:a5258871b33d 416 #endif
jmitc91516 1:a5258871b33d 417 }
jmitc91516 1:a5258871b33d 418
jmitc91516 1:a5258871b33d 419 /*
jmitc91516 1:a5258871b33d 420 Tells the caller whether or not the GC is in the 'equilibrating' state
jmitc91516 1:a5258871b33d 421
jmitc91516 1:a5258871b33d 422 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 423 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 424
jmitc91516 1:a5258871b33d 425 Returns true if the GC is equilibrating, false if not.
jmitc91516 1:a5258871b33d 426 */
jmitc91516 1:a5258871b33d 427 bool GCIsEquilibrating(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 428 {
jmitc91516 1:a5258871b33d 429 #ifdef USE_VERSION_102 // See GCStateAndFaultCodes.h
jmitc91516 1:a5258871b33d 430 return (GetGCStatus(usbDevice, usbHostGC) == GC_STATE_102_METHOD_EQUILIBRATING);
jmitc91516 1:a5258871b33d 431 #else
jmitc91516 1:a5258871b33d 432 return (GetGCStatus(usbDevice, usbHostGC) == GC_STATE_EQUILIBRATING);
jmitc91516 1:a5258871b33d 433 #endif
jmitc91516 0:47c880c1463d 434 }
jmitc91516 0:47c880c1463d 435
jmitc91516 1:a5258871b33d 436 /*
jmitc91516 1:a5258871b33d 437 Tells the caller whether or not the GC is running
jmitc91516 1:a5258871b33d 438
jmitc91516 1:a5258871b33d 439 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 440 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 441
jmitc91516 1:a5258871b33d 442 Returns true if the GC is running, false if not.
jmitc91516 1:a5258871b33d 443 */
jmitc91516 1:a5258871b33d 444 bool GCIsRunning(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 445 {
jmitc91516 1:a5258871b33d 446 int gcStatus = GetGCStatus(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 447
jmitc91516 1:a5258871b33d 448 #ifdef USE_VERSION_102 // See GCStateAndFaultCodes.h
jmitc91516 1:a5258871b33d 449 return ((gcStatus >= GC_STATE_102_METHOD_RUNNING_MINIMUM) && (gcStatus <= GC_STATE_102_METHOD_RUNNING_MAXIMUM));
jmitc91516 1:a5258871b33d 450 #else
jmitc91516 1:a5258871b33d 451 return ((gcStatus >= GC_STATE_RUNNING_MINIMUM) && (gcStatus <= GC_STATE_RUNNING_MAXIMUM));
jmitc91516 1:a5258871b33d 452 #endif
jmitc91516 1:a5258871b33d 453 }
jmitc91516 1:a5258871b33d 454
jmitc91516 1:a5258871b33d 455 /*
jmitc91516 1:a5258871b33d 456 Pass the current value of 'GuiVar_columnMaxTemp2' to the GC as the maximum column temperature.
jmitc91516 1:a5258871b33d 457 Intended to be called by the NumericKeypadPageHandler if the user presses the Apply button
jmitc91516 1:a5258871b33d 458 when we are editing the maximum column temperature. We pass a pointer to this function
jmitc91516 1:a5258871b33d 459 to the NumericKeypadPageHandler instance when we start editing.
jmitc91516 1:a5258871b33d 460
jmitc91516 1:a5258871b33d 461 See the definition of 'ApplyFunctionPtr' in NumericKeypadPageHandler.h
jmitc91516 1:a5258871b33d 462 */
jmitc91516 1:a5258871b33d 463 void SetColumnMaxTempFromEasyGuiVariable(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 464 {
jmitc91516 1:a5258871b33d 465 int maxTemp;
jmitc91516 1:a5258871b33d 466 sscanf(GuiVar_columnMaxTemp2, "%d", &maxTemp);
jmitc91516 1:a5258871b33d 467
jmitc91516 1:a5258871b33d 468 char buff[40];
jmitc91516 1:a5258871b33d 469 sprintf(buff, "SCMX%.4d", maxTemp);
jmitc91516 1:a5258871b33d 470
jmitc91516 1:a5258871b33d 471 while(usbHostGC->ExecutingSetDeviceReport()) {}
jmitc91516 1:a5258871b33d 472
jmitc91516 1:a5258871b33d 473 char response[50];
jmitc91516 1:a5258871b33d 474 usbHostGC->SetDeviceReport(usbDevice, buff, response);
jmitc91516 1:a5258871b33d 475 }
jmitc91516 1:a5258871b33d 476
jmitc91516 1:a5258871b33d 477
jmitc91516 1:a5258871b33d 478 /*
jmitc91516 1:a5258871b33d 479 Draws the Run button in the correct place, in the correct enabled/disabled state.
jmitc91516 1:a5258871b33d 480
jmitc91516 1:a5258871b33d 481 Arg is: true to display the button in an enabled state, false to display it disabled.
jmitc91516 1:a5258871b33d 482
jmitc91516 1:a5258871b33d 483 No return code.
jmitc91516 1:a5258871b33d 484 */
jmitc91516 0:47c880c1463d 485 void DrawRunButton(bool enabled)
jmitc91516 0:47c880c1463d 486 {
jmitc91516 1:a5258871b33d 487 #define USE_BITMAPS
jmitc91516 1:a5258871b33d 488 #ifdef USE_BITMAPS
jmitc91516 2:6e94a7fd1e37 489 GuiConst_INT8U bitmapIndex = GuiStruct_Bitmap_RunButtonBlank;
jmitc91516 1:a5258871b33d 490 if(enabled) {
jmitc91516 1:a5258871b33d 491 bitmapIndex = GuiStruct_Bitmap_RunButtonGreen;
jmitc91516 1:a5258871b33d 492 }
jmitc91516 1:a5258871b33d 493 GuiConst_INTCOLOR transparentColor = SixteenBitColorValue(255, 255, 255); // In the 'corners' of the bitmap
jmitc91516 1:a5258871b33d 494
jmitc91516 1:a5258871b33d 495 // Hard coded coordinates copied from easyGUI (I have not found
jmitc91516 1:a5258871b33d 496 // a way of getting them from the easyGUI code at runtime)
jmitc91516 1:a5258871b33d 497 GuiLib_ShowBitmap(bitmapIndex, 327, 170, transparentColor);
jmitc91516 1:a5258871b33d 498
jmitc91516 1:a5258871b33d 499 #else // Draw a 'button' that consists of a box containing the word 'Run'.
jmitc91516 1:a5258871b33d 500
jmitc91516 0:47c880c1463d 501 // Black if enabled, grey if disabled
jmitc91516 0:47c880c1463d 502 GuiConst_INTCOLOR buttonColor = (enabled) ? 0 : SixteenBitColorValue(0x80, 0x80, 0x80);
jmitc91516 0:47c880c1463d 503
jmitc91516 0:47c880c1463d 504 GuiConst_TEXT *buttonText = "Run";
jmitc91516 0:47c880c1463d 505
jmitc91516 0:47c880c1463d 506 // These are hard-coded to match the corresponding definitions in easyGUI
jmitc91516 0:47c880c1463d 507 // (I have not found a way of getting these values from easyGUI at run time)
jmitc91516 0:47c880c1463d 508 const GuiConst_INT16S textX1 = 400;
jmitc91516 0:47c880c1463d 509 const GuiConst_INT16S textY1 = 220;
jmitc91516 0:47c880c1463d 510 const GuiConst_INT16U textFont = GuiFont_Helv1;
jmitc91516 0:47c880c1463d 511
jmitc91516 0:47c880c1463d 512 const GuiConst_INT16S boxX1 = 338;
jmitc91516 0:47c880c1463d 513 const GuiConst_INT16S boxY1 = 195;
jmitc91516 0:47c880c1463d 514 const GuiConst_INT16S boxX2 = 462;
jmitc91516 0:47c880c1463d 515 const GuiConst_INT16S boxY2 = 235;
jmitc91516 0:47c880c1463d 516
jmitc91516 0:47c880c1463d 517 GuiLib_Box(boxX1, boxY1, boxX2, boxY2, buttonColor);
jmitc91516 0:47c880c1463d 518
jmitc91516 0:47c880c1463d 519 GuiLib_DrawStr(
jmitc91516 0:47c880c1463d 520 textX1, //GuiConst_INT16S X,
jmitc91516 0:47c880c1463d 521 textY1, //GuiConst_INT16S Y,
jmitc91516 0:47c880c1463d 522 textFont, //GuiConst_INT16U FontNo,
jmitc91516 0:47c880c1463d 523 buttonText, //GuiConst_TEXT PrefixLocate *String,
jmitc91516 0:47c880c1463d 524 GuiLib_ALIGN_CENTER, //GuiConst_INT8U Alignment,
jmitc91516 0:47c880c1463d 525 GuiLib_PS_ON, //GuiConst_INT8U PsWriting,
jmitc91516 0:47c880c1463d 526 GuiLib_TRANSPARENT_ON, //GuiConst_INT8U Transparent,
jmitc91516 0:47c880c1463d 527 GuiLib_UNDERLINE_OFF, //GuiConst_INT8U Underlining,
jmitc91516 0:47c880c1463d 528 0, //GuiConst_INT16S BackBoxSizeX,
jmitc91516 0:47c880c1463d 529 0, //GuiConst_INT16S BackBoxSizeY1,
jmitc91516 0:47c880c1463d 530 0, //GuiConst_INT16S BackBoxSizeY2,
jmitc91516 0:47c880c1463d 531 GuiLib_BBP_NONE, //GuiConst_INT8U BackBorderPixels,
jmitc91516 0:47c880c1463d 532 buttonColor, //GuiConst_INTCOLOR ForeColor,
jmitc91516 0:47c880c1463d 533 SixteenBitColorValue(0xFF, 0xFF, 0xFF) //GuiConst_INTCOLOR BackColor (should be ignored with GuiLib_TRANSPARENT_ON)
jmitc91516 0:47c880c1463d 534 );
jmitc91516 1:a5258871b33d 535 #endif // USE_BITMAPS
jmitc91516 1:a5258871b33d 536 }
jmitc91516 1:a5258871b33d 537
jmitc91516 1:a5258871b33d 538
jmitc91516 1:a5258871b33d 539 // Make these values available to the rest of the application
jmitc91516 1:a5258871b33d 540 GuiConst_INTCOLOR GetFakeBackgroundBitmapMainColour(void)
jmitc91516 1:a5258871b33d 541 {
jmitc91516 1:a5258871b33d 542 return SixteenBitColorValue(173, 222, 231); // From Background317 bitmap
jmitc91516 1:a5258871b33d 543 //return SixteenBitColorValue(0, 148, 165); // From Background320 bitmap
jmitc91516 1:a5258871b33d 544 }
jmitc91516 1:a5258871b33d 545
jmitc91516 1:a5258871b33d 546 GuiConst_INTCOLOR GetFakeBackgroundBitmapButtonBandColour(void)
jmitc91516 1:a5258871b33d 547 {
jmitc91516 1:a5258871b33d 548 //return SixteenBitColorValue(173, 173, 173); // Grey band at bottom
jmitc91516 1:a5258871b33d 549 return SixteenBitColorValue(192, 192, 192);
jmitc91516 1:a5258871b33d 550 }
jmitc91516 1:a5258871b33d 551
jmitc91516 1:a5258871b33d 552
jmitc91516 1:a5258871b33d 553 /*
jmitc91516 1:a5258871b33d 554 Draws the background bitmap. It fills the screen -
jmitc91516 1:a5258871b33d 555 so you do not need to call GuiLib_Clear if you call this.
jmitc91516 1:a5258871b33d 556 (*** BUT - maybe this causes easyGUI to lose track of which page is displayed,
jmitc91516 1:a5258871b33d 557 and/or of its touch areas - so reinstated as a test with
jmitc91516 1:a5258871b33d 558 '#define WANT_GUILIB_CLEAR_BEFORE_DRAWING_BITMAP' ***)
jmitc91516 1:a5258871b33d 559
jmitc91516 1:a5258871b33d 560 Alternatively - if the bitmap we are using has blocks of solid colour anyway -
jmitc91516 1:a5258871b33d 561 draw the areas directly (we could then save memory by not including
jmitc91516 1:a5258871b33d 562 the actual bitmap in the application)
jmitc91516 1:a5258871b33d 563 */
jmitc91516 1:a5258871b33d 564 static void DrawSpecifiedBackgroundBitmap(GuiConst_INT8U bitmapIndex)
jmitc91516 1:a5258871b33d 565 {
jmitc91516 1:a5258871b33d 566 // Does this solve bug #4?
jmitc91516 1:a5258871b33d 567 //#define WANT_GUILIB_CLEAR_BEFORE_DRAWING_BITMAP
jmitc91516 1:a5258871b33d 568 #ifdef WANT_GUILIB_CLEAR_BEFORE_DRAWING_BITMAP
jmitc91516 1:a5258871b33d 569 GuiLib_Clear();
jmitc91516 1:a5258871b33d 570 #undef WANT_GUILIB_CLEAR_BEFORE_DRAWING_BITMAP
jmitc91516 1:a5258871b33d 571 #endif //WANT_GUILIB_CLEAR_BEFORE_DRAWING_BITMAP
jmitc91516 1:a5258871b33d 572 // Answer - no, it doesn't
jmitc91516 1:a5258871b33d 573
jmitc91516 1:a5258871b33d 574 //#define FAKE_BITMAP
jmitc91516 1:a5258871b33d 575 #ifdef FAKE_BITMAP
jmitc91516 1:a5258871b33d 576 GuiLib_FillBox(0, 0, 800, 423, GetFakeBackgroundBitmapMainColour());
jmitc91516 1:a5258871b33d 577 GuiLib_FillBox(0, 424, 800, 480, GetFakeBackgroundBitmapButtonBandColour());
jmitc91516 1:a5258871b33d 578 #undef FAKE_BITMAP
jmitc91516 1:a5258871b33d 579 #else
jmitc91516 1:a5258871b33d 580 GuiLib_ShowBitmap(bitmapIndex, 0, 0, -1); // -1 means 'no transparent colour'
jmitc91516 1:a5258871b33d 581 #endif // FAKE_BITMAP
jmitc91516 1:a5258871b33d 582 }
jmitc91516 1:a5258871b33d 583
jmitc91516 1:a5258871b33d 584 /*
jmitc91516 1:a5258871b33d 585 Draws the default background bitmap, i.e. *without* the Ellutia logo
jmitc91516 1:a5258871b33d 586 */
jmitc91516 1:a5258871b33d 587 void DrawBackgroundBitmap(void)
jmitc91516 1:a5258871b33d 588 {
jmitc91516 1:a5258871b33d 589 DrawSpecifiedBackgroundBitmap(GuiStruct_Bitmap_BlankBackground);
jmitc91516 1:a5258871b33d 590 }
jmitc91516 1:a5258871b33d 591
jmitc91516 1:a5258871b33d 592 /*
jmitc91516 1:a5258871b33d 593 Same as the above, but draws the background bitmap *with* the Ellutia logo
jmitc91516 1:a5258871b33d 594 */
jmitc91516 1:a5258871b33d 595 void DrawBackgroundBitmapWithLogo(void)
jmitc91516 1:a5258871b33d 596 {
jmitc91516 8:26e49e6955bd 597 #ifdef USE_QSPI_BACKGROUND_BITMAPS
jmitc91516 8:26e49e6955bd 598 qspiBitmaps.DisplayBootScreenBitmap();
jmitc91516 8:26e49e6955bd 599 #else
jmitc91516 1:a5258871b33d 600 DrawSpecifiedBackgroundBitmap(GuiStruct_Bitmap_BootScreen);
jmitc91516 8:26e49e6955bd 601 #endif // USE_QSPI_BACKGROUND_BITMAPS
jmitc91516 1:a5258871b33d 602 }
jmitc91516 1:a5258871b33d 603
jmitc91516 1:a5258871b33d 604 /*
jmitc91516 1:a5258871b33d 605 For Display (LPC4088) Bug #11, draw a background bitmap without a grey bar at the bottom.
jmitc91516 1:a5258871b33d 606 For now, fake this with a page full of one colour
jmitc91516 1:a5258871b33d 607 */
jmitc91516 1:a5258871b33d 608 void DrawFakeBackgroundBitmapForNumericKeypadPage(void)
jmitc91516 1:a5258871b33d 609 {
jmitc91516 1:a5258871b33d 610 // GuiLib_FillBox(0, 0, 800, 480, SixteenBitColorValue(0, 90, 99));
jmitc91516 1:a5258871b33d 611 // Above is for the old background bitmap. For the new "BlankBackground", we need...
jmitc91516 1:a5258871b33d 612 GuiLib_FillBox(0, 0, 800, 480, SixteenBitColorValue(255, 255, 255));
jmitc91516 1:a5258871b33d 613 }
jmitc91516 1:a5258871b33d 614
jmitc91516 1:a5258871b33d 615
jmitc91516 1:a5258871b33d 616 /*
jmitc91516 1:a5258871b33d 617 This functions erases the portions of the door Lock and Release buttons (on the Column pages)
jmitc91516 1:a5258871b33d 618 that remain visible when they are replaced by the Close or Unlock buttons.
jmitc91516 1:a5258871b33d 619
jmitc91516 1:a5258871b33d 620 I have to admit that I still do not understand why simply redrawing the whole page
jmitc91516 1:a5258871b33d 621 (starting with the background bitmap) does not do this.
jmitc91516 1:a5258871b33d 622
jmitc91516 1:a5258871b33d 623 No arguments, no return code.
jmitc91516 1:a5258871b33d 624 */
jmitc91516 1:a5258871b33d 625 void DrawBackgroundBitmapOverDoorLockAndReleaseButtons(void)
jmitc91516 1:a5258871b33d 626 {
jmitc91516 1:a5258871b33d 627 // I also do not understand why the first coordinate pair in the call to GuiLib_ShowBitmapArea
jmitc91516 1:a5258871b33d 628 // needs to be 0, 0 to display the correct part of the bitmap. I expected them to be the same
jmitc91516 1:a5258871b33d 629 // as the second coordinate pair - but that caused the top left portion of the bitmap to be displayed,
jmitc91516 1:a5258871b33d 630 // not the part where the buttons actually are.
jmitc91516 1:a5258871b33d 631 GuiLib_ShowBitmapArea(GuiStruct_Bitmap_BlankBackground, 0, 0, 248, 405, 323, 480, -1); // -1 means 'no transparent colour'
jmitc91516 1:a5258871b33d 632 GuiLib_ShowBitmapArea(GuiStruct_Bitmap_BlankBackground, 0, 0, 477, 405, 552, 480, -1); // -1 means 'no transparent colour'
jmitc91516 1:a5258871b33d 633 // GuiLib_FillBox(248, 405, 323, 480, SixteenBitColorValue(165, 165, 173));
jmitc91516 1:a5258871b33d 634 // GuiLib_FillBox(477, 405, 552, 480, SixteenBitColorValue(115, 123, 132));
jmitc91516 1:a5258871b33d 635 }
jmitc91516 1:a5258871b33d 636 #define USING_BACKGROUND_BITMAP
jmitc91516 1:a5258871b33d 637
jmitc91516 1:a5258871b33d 638
jmitc91516 1:a5258871b33d 639
jmitc91516 1:a5258871b33d 640 /*
jmitc91516 1:a5258871b33d 641 Copies the build date (#define'd as BUILD_DATE at the top of this file)
jmitc91516 1:a5258871b33d 642 to the easyGUI variable that displays it on the Settings page
jmitc91516 1:a5258871b33d 643 */
jmitc91516 1:a5258871b33d 644 void SetupEasyGUIBuildDateVariable(void)
jmitc91516 0:47c880c1463d 645 {
jmitc91516 1:a5258871b33d 646 strcpy(GuiVar_buildDate, BUILD_DATE);
jmitc91516 1:a5258871b33d 647 }
jmitc91516 1:a5258871b33d 648
jmitc91516 1:a5258871b33d 649
jmitc91516 1:a5258871b33d 650 /*
jmitc91516 1:a5258871b33d 651 Draw a part of a profile - which will be a quadrilateral, vertical at left and right, horizontal at the bottom, but a sloping straight line at the top -
jmitc91516 1:a5258871b33d 652 by calling the EasyGUI GuiLib_VLine function multiple times.
jmitc91516 1:a5258871b33d 653
jmitc91516 1:a5258871b33d 654 Args: colour of the profile to the left of the boundary
jmitc91516 1:a5258871b33d 655 colour of the profile to the right of the boundary
jmitc91516 1:a5258871b33d 656 X coords of the left and right edges of the section
jmitc91516 1:a5258871b33d 657 X coord of the colour boundary
jmitc91516 1:a5258871b33d 658 Y coord of the bottom
jmitc91516 1:a5258871b33d 659 Y coords of the top left and top right
jmitc91516 1:a5258871b33d 660
jmitc91516 1:a5258871b33d 661 Returns true if OK, false if it failed (e.g. the coords were invalid).
jmitc91516 1:a5258871b33d 662 */
jmitc91516 1:a5258871b33d 663 bool DrawProfileSectionUsingGuiLibVLine(GuiConst_INTCOLOR colour1, GuiConst_INTCOLOR colour2, GuiConst_INT16S xLeft, GuiConst_INT16S xRight, GuiConst_INT16S xColourBoundary,
jmitc91516 1:a5258871b33d 664 GuiConst_INT16S yBottom, GuiConst_INT16S yTopLeft, GuiConst_INT16S yTopRight)
jmitc91516 1:a5258871b33d 665 {
jmitc91516 1:a5258871b33d 666 if(xRight <= xLeft) return false; // Would cause divide by zero if they were equal
jmitc91516 1:a5258871b33d 667
jmitc91516 1:a5258871b33d 668 // y = mx + c
jmitc91516 1:a5258871b33d 669 double yDiff = (double) (yTopRight - yTopLeft);
jmitc91516 1:a5258871b33d 670 double xDiff = (double) (xRight - xLeft);
jmitc91516 1:a5258871b33d 671 double m = yDiff / xDiff;
jmitc91516 1:a5258871b33d 672 double c = (double) yTopLeft - (m * (double) xLeft);
jmitc91516 1:a5258871b33d 673
jmitc91516 1:a5258871b33d 674 GuiConst_INT16S lineX;
jmitc91516 1:a5258871b33d 675 double lineYTop;
jmitc91516 1:a5258871b33d 676
jmitc91516 1:a5258871b33d 677 // Draw first colour up to boundary.
jmitc91516 1:a5258871b33d 678 // Allow for the boundary being past the right-hand end
jmitc91516 1:a5258871b33d 679 for (lineX = xLeft; (lineX <= xColourBoundary) && (lineX <= xRight); ++lineX) {
jmitc91516 1:a5258871b33d 680 lineYTop = (((double) lineX) * m) + c;
jmitc91516 1:a5258871b33d 681 GuiLib_VLine(lineX, yBottom, (GuiConst_INT16S) lineYTop, colour1);
jmitc91516 1:a5258871b33d 682 }
jmitc91516 1:a5258871b33d 683
jmitc91516 1:a5258871b33d 684 // Draw second colour after boundary, if we have not already reached the right-hand end
jmitc91516 1:a5258871b33d 685 for (; lineX <= xRight; ++lineX) {
jmitc91516 1:a5258871b33d 686 lineYTop = (((double) lineX) * m) + c;
jmitc91516 1:a5258871b33d 687 GuiLib_VLine(lineX, yBottom, (GuiConst_INT16S) lineYTop, colour2);
jmitc91516 1:a5258871b33d 688 }
jmitc91516 1:a5258871b33d 689
jmitc91516 1:a5258871b33d 690 return true;
jmitc91516 1:a5258871b33d 691 }
jmitc91516 1:a5258871b33d 692
jmitc91516 1:a5258871b33d 693 /*
jmitc91516 1:a5258871b33d 694 Displays the specified easyGUI 'structure' (or page, to use a more easily understood term).
jmitc91516 1:a5258871b33d 695
jmitc91516 1:a5258871b33d 696 Args are: the index of the structure to be displayed,
jmitc91516 1:a5258871b33d 697 a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 698 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 699 a boolean - defaulting to true - that gives the caller the option to stop the 'structure'
jmitc91516 1:a5258871b33d 700 updating its easyGUI variables (either from the GC or from its own internal values)
jmitc91516 1:a5258871b33d 701 when it is redisplayed. This is set false by the NumericKeypadHandler,
jmitc91516 1:a5258871b33d 702 when the user has just pressed the Apply button on the Numeric Keypad page
jmitc91516 1:a5258871b33d 703 and NumericKeypadHandler has updated the corresponding easyGUI variable
jmitc91516 1:a5258871b33d 704 on the page that called it, to stop the calling page/structure
jmitc91516 1:a5258871b33d 705 from promptly overwriting that same variable.
jmitc91516 1:a5258871b33d 706
jmitc91516 1:a5258871b33d 707 No return code.
jmitc91516 1:a5258871b33d 708
jmitc91516 1:a5258871b33d 709 TODO: "Refactor" this function. It has had code added to it piecemeal over a long period,
jmitc91516 1:a5258871b33d 710 and has become too large to easily understand.
jmitc91516 1:a5258871b33d 711 */
jmitc91516 1:a5258871b33d 712 void DisplayEasyGuiStructure(int structureIndex, USBDeviceConnected* usbDevice, USBHostGC* usbHostGC, bool updateEasyGUIVariables = true)
jmitc91516 1:a5258871b33d 713 {
jmitc91516 1:a5258871b33d 714 // If required, query the GC to find out if it is ready to run, etc, *before* clearing the display -
jmitc91516 0:47c880c1463d 715 // otherwise the display remains clear while we talk to the GC - causes noticeable flickering
jmitc91516 2:6e94a7fd1e37 716 GCStateSimplified simplifiedGCState = GC_IDLE;
jmitc91516 0:47c880c1463d 717 if((structureIndex == GuiStruct_HomePage_1) && (usbDevice != NULL) && (usbHostGC != NULL)) {
jmitc91516 1:a5258871b33d 718 int gcStatus = GetGCStatus(usbDevice, usbHostGC);
jmitc91516 2:6e94a7fd1e37 719 simplifiedGCState = GCStateOrFaultCode::GetSimplifiedGCState(gcStatus);
jmitc91516 0:47c880c1463d 720 }
jmitc91516 0:47c880c1463d 721
jmitc91516 1:a5258871b33d 722 #define DEBUG_HERE
jmitc91516 1:a5258871b33d 723 #ifdef DEBUG_HERE
jmitc91516 1:a5258871b33d 724 char dbg[100];
jmitc91516 1:a5258871b33d 725 sprintf(dbg, "DisplayEasyGuiStructure - structure is %d", structureIndex);
jmitc91516 1:a5258871b33d 726 EasyGUIDebugPrint(dbg, 0, 20);
jmitc91516 1:a5258871b33d 727 #undef DEBUG_HERE
jmitc91516 1:a5258871b33d 728 #endif
jmitc91516 0:47c880c1463d 729
jmitc91516 1:a5258871b33d 730 #ifdef USING_BACKGROUND_BITMAP
jmitc91516 1:a5258871b33d 731 // We want the status rectangles to be 'on top' of this -
jmitc91516 1:a5258871b33d 732 // if we include it in the easyGUI page itself, it gets drawn by GuiLib_ShowScreen,
jmitc91516 1:a5258871b33d 733 // and overwrites the rectangles
jmitc91516 1:a5258871b33d 734 if((structureIndex == GuiStruct_GCConnectionPage_Def) || (structureIndex == GuiStruct_EthernetConnectionPage_Def)) {
jmitc91516 1:a5258871b33d 735 DrawBackgroundBitmapWithLogo();
jmitc91516 1:a5258871b33d 736 } else if ((structureIndex == GuiStruct_NumericKeypadPage_Def) || (structureIndex == GuiStruct_EthernetKeypadPage_Def)) {
jmitc91516 1:a5258871b33d 737 DrawFakeBackgroundBitmapForNumericKeypadPage();
jmitc91516 1:a5258871b33d 738 } else {
jmitc91516 1:a5258871b33d 739 DrawBackgroundBitmap();
jmitc91516 1:a5258871b33d 740 }
jmitc91516 1:a5258871b33d 741 #else
jmitc91516 1:a5258871b33d 742 GuiLib_Clear(); // Don't need this if we have drawn the background bitmap - it covers the entire screen
jmitc91516 1:a5258871b33d 743 #endif
jmitc91516 1:a5258871b33d 744
jmitc91516 1:a5258871b33d 745 // Now, display the status rectangles and the component bitmaps, as appropriate for the page we are displaying.
jmitc91516 0:47c880c1463d 746 // Note - we draw the status rectangles after GuiLib_Clear - otherwise we wouldn't see the rectangles at all -
jmitc91516 1:a5258871b33d 747 // and before GuiLib_ShowScreen - so text, etc, is drawn on top of the rectangles.
jmitc91516 1:a5258871b33d 748 // We draw the component bitmaps, after - therefore, on top of - the status rectangles.
jmitc91516 0:47c880c1463d 749 switch(structureIndex) {
jmitc91516 0:47c880c1463d 750 case GuiStruct_HomePage_1:
jmitc91516 1:a5258871b33d 751 #ifdef USE_QSPI_BITMAPS
jmitc91516 1:a5258871b33d 752 qspiBitmaps.DisplayAllHomePageBitmaps();
jmitc91516 1:a5258871b33d 753 #else
jmitc91516 0:47c880c1463d 754 homePageGCComponentStatusColorAreas.DisplayAll();
jmitc91516 1:a5258871b33d 755 #endif // USE_QSPI_BITMAPS
jmitc91516 0:47c880c1463d 756 break;
jmitc91516 3:010aeeacd7d7 757
jmitc91516 0:47c880c1463d 758 case GuiStruct_ColumnPage1_2:
jmitc91516 0:47c880c1463d 759 case GuiStruct_ColumnPage2_9:
jmitc91516 5:aceac1035d71 760 case GuiStruct_ColumnMethodPage_Def:
jmitc91516 7:f0e645cf73a2 761 #ifdef WANT_COMPONENT_ICON_ON_PROFILE_PAGES
jmitc91516 4:6840cf2b153a 762 case GuiStruct_ColumnTempProfilePage_60:
jmitc91516 7:f0e645cf73a2 763 #endif // WANT_COMPONENT_ICON_ON_PROFILE_PAGES
jmitc91516 4:6840cf2b153a 764 // Column status rectangle no longer used
jmitc91516 3:010aeeacd7d7 765 //singleGCComponentPageStatusColorAreas.DisplayGCComponentStatus(COLUMN);
jmitc91516 1:a5258871b33d 766 qspiBitmaps.DisplayColumnComponentBitmap();
jmitc91516 0:47c880c1463d 767 break;
jmitc91516 3:010aeeacd7d7 768
jmitc91516 0:47c880c1463d 769 case GuiStruct_InjectorPage1_3:
jmitc91516 6:dba3fbdfd5da 770 case GuiStruct_InjectorMethodPage_Def:
jmitc91516 7:f0e645cf73a2 771 #ifdef WANT_COMPONENT_ICON_ON_PROFILE_PAGES
jmitc91516 1:a5258871b33d 772 case GuiStruct_InjectorTempProfilePage_25:
jmitc91516 7:f0e645cf73a2 773 #endif // WANT_COMPONENT_ICON_ON_PROFILE_PAGES
jmitc91516 3:010aeeacd7d7 774 // Injector status rectangle no longer used
jmitc91516 3:010aeeacd7d7 775 //singleGCComponentPageStatusColorAreas.DisplayGCComponentStatus(INJECTOR);
jmitc91516 1:a5258871b33d 776 qspiBitmaps.DisplayInjectorComponentBitmap();
jmitc91516 0:47c880c1463d 777 break;
jmitc91516 3:010aeeacd7d7 778
jmitc91516 1:a5258871b33d 779 case GuiStruct_DetectorFIDPage_4:
jmitc91516 1:a5258871b33d 780 case GuiStruct_DetectorECDPage_12:
jmitc91516 1:a5258871b33d 781 case GuiStruct_DetectorFPDPage_14:
jmitc91516 1:a5258871b33d 782 case GuiStruct_DetectorTCDPage_11:
jmitc91516 1:a5258871b33d 783 case GuiStruct_DetectorNonePage_31:
jmitc91516 1:a5258871b33d 784 case GuiStruct_DetectorNPDPage_28:
jmitc91516 1:a5258871b33d 785 case GuiStruct_DetectorPIDPage_29:
jmitc91516 1:a5258871b33d 786 case GuiStruct_DetectorSPDIDPage_30:
jmitc91516 1:a5258871b33d 787 case GuiStruct_DetectorTXLPage_27:
jmitc91516 3:010aeeacd7d7 788 // Detector status rectangle no longer used
jmitc91516 3:010aeeacd7d7 789 //singleGCComponentPageStatusColorAreas.DisplayGCComponentStatus(DETECTOR);
jmitc91516 1:a5258871b33d 790 qspiBitmaps.DisplayDetectorComponentBitmap();
jmitc91516 0:47c880c1463d 791 break;
jmitc91516 3:010aeeacd7d7 792
jmitc91516 7:f0e645cf73a2 793 #ifdef WANT_COMPONENT_ICON_ON_PROFILE_PAGES
jmitc91516 1:a5258871b33d 794 case GuiStruct_GasProfilePage_15:
jmitc91516 7:f0e645cf73a2 795 #endif // WANT_COMPONENT_ICON_ON_PROFILE_PAGES
jmitc91516 6:dba3fbdfd5da 796 case GuiStruct_GasMethodPage_Def:
jmitc91516 1:a5258871b33d 797 case GuiStruct_GasInformationPage_6:
jmitc91516 1:a5258871b33d 798 #ifdef WANT_STATUS_RECTANGLE_ON_GAS_CALIB_PAGES
jmitc91516 1:a5258871b33d 799 case GuiStruct_GasCalibrationPage_Def:
jmitc91516 1:a5258871b33d 800 case GuiStruct_GasBackPressureDACPage_Def:
jmitc91516 1:a5258871b33d 801 case GuiStruct_GasChannelDACAndADCPage_Def:
jmitc91516 1:a5258871b33d 802 #endif
jmitc91516 3:010aeeacd7d7 803 // Gas status rectangle no longer used
jmitc91516 3:010aeeacd7d7 804 //singleGCComponentPageStatusColorAreas.DisplayGCComponentStatus(GAS);
jmitc91516 1:a5258871b33d 805 qspiBitmaps.DisplayGasComponentBitmap();
jmitc91516 0:47c880c1463d 806 break;
jmitc91516 3:010aeeacd7d7 807
jmitc91516 0:47c880c1463d 808 default: // Don't need to display status rectangle for this page
jmitc91516 0:47c880c1463d 809 break;
jmitc91516 0:47c880c1463d 810 }
jmitc91516 1:a5258871b33d 811
jmitc91516 1:a5258871b33d 812 if(structureIndex == GuiStruct_RunningPage1_7) {
jmitc91516 1:a5258871b33d 813 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 814 getGCStatusLoop->UpdateMethodRunTimeEasyGUIVariables(false);
jmitc91516 1:a5258871b33d 815 }
jmitc91516 1:a5258871b33d 816 }
jmitc91516 1:a5258871b33d 817
jmitc91516 5:aceac1035d71 818 if(structureIndex == GuiStruct_ColumnPage1_2){
jmitc91516 1:a5258871b33d 819 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 820 getGCStatusLoop->UpdateColumnStatusEasyGUIVariable();
jmitc91516 1:a5258871b33d 821 }
jmitc91516 1:a5258871b33d 822 }
jmitc91516 1:a5258871b33d 823
jmitc91516 1:a5258871b33d 824 if(structureIndex == GuiStruct_InjectorPage1_3){
jmitc91516 1:a5258871b33d 825 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 826 getGCStatusLoop->UpdateInjectorStatusEasyGUIVariable();
jmitc91516 1:a5258871b33d 827 }
jmitc91516 1:a5258871b33d 828 }
jmitc91516 1:a5258871b33d 829
jmitc91516 1:a5258871b33d 830 if(structureIndex == GuiStruct_EthernetParametersPage_50) {
jmitc91516 1:a5258871b33d 831 NetworkParameters *networkParameters = NetworkParameters::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 832
jmitc91516 1:a5258871b33d 833 if(networkParameters != NULL) {
jmitc91516 1:a5258871b33d 834 networkParameters->DisplayingEasyGUIPage(updateEasyGUIVariables);
jmitc91516 1:a5258871b33d 835 }
jmitc91516 1:a5258871b33d 836 }
jmitc91516 1:a5258871b33d 837
jmitc91516 1:a5258871b33d 838 if(structureIndex == GuiStruct_GasCalibrationPage_Def) {
jmitc91516 1:a5258871b33d 839 GasCalibrationPageHandler *gasCalibrationPageHandler = GasCalibrationPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 840
jmitc91516 1:a5258871b33d 841 if(gasCalibrationPageHandler != NULL) {
jmitc91516 1:a5258871b33d 842 gasCalibrationPageHandler->DisplayingEasyGUIPage(updateEasyGUIVariables);
jmitc91516 1:a5258871b33d 843 }
jmitc91516 1:a5258871b33d 844 }
jmitc91516 1:a5258871b33d 845
jmitc91516 1:a5258871b33d 846 if(structureIndex == GuiStruct_GasBackPressureDACPage_Def) {
jmitc91516 1:a5258871b33d 847 GasBackPressureDACPageHandler *gasBackPressureDACPageHandler = GasBackPressureDACPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 848
jmitc91516 1:a5258871b33d 849 if(gasBackPressureDACPageHandler != NULL) {
jmitc91516 1:a5258871b33d 850 gasBackPressureDACPageHandler->DisplayingEasyGUIPage(updateEasyGUIVariables);
jmitc91516 1:a5258871b33d 851 }
jmitc91516 1:a5258871b33d 852 }
jmitc91516 1:a5258871b33d 853
jmitc91516 1:a5258871b33d 854 if(structureIndex == GuiStruct_GasChannelDACAndADCPage_Def) {
jmitc91516 1:a5258871b33d 855 GasChannelDACAndADCPageHandler *gasChannelDACAndADCPageHandler = GasChannelDACAndADCPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 856
jmitc91516 1:a5258871b33d 857 if(gasChannelDACAndADCPageHandler != NULL) {
jmitc91516 1:a5258871b33d 858 gasChannelDACAndADCPageHandler->DisplayingEasyGUIPage();
jmitc91516 1:a5258871b33d 859 }
jmitc91516 1:a5258871b33d 860 }
jmitc91516 1:a5258871b33d 861
jmitc91516 1:a5258871b33d 862 if(structureIndex == GuiStruct_ColumnDHAutoCalibrationPage_Def) {
jmitc91516 1:a5258871b33d 863 ColumnDHAutoCalibrationPageHandler *columnDHAutoCalibrationPageHandler = ColumnDHAutoCalibrationPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 864
jmitc91516 1:a5258871b33d 865 if(columnDHAutoCalibrationPageHandler != NULL) {
jmitc91516 1:a5258871b33d 866 columnDHAutoCalibrationPageHandler->DisplayingEasyGUIPage();
jmitc91516 1:a5258871b33d 867 }
jmitc91516 1:a5258871b33d 868 }
jmitc91516 1:a5258871b33d 869
jmitc91516 1:a5258871b33d 870 if(structureIndex == GuiStruct_ColumnDHManualCalibrationPage_Def) {
jmitc91516 1:a5258871b33d 871 ColumnDHManualCalibrationPageHandler *columnDHManualCalibrationPageHandler = ColumnDHManualCalibrationPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 872
jmitc91516 1:a5258871b33d 873 if(columnDHManualCalibrationPageHandler != NULL) {
jmitc91516 1:a5258871b33d 874 columnDHManualCalibrationPageHandler->DisplayingEasyGUIPage(updateEasyGUIVariables);
jmitc91516 1:a5258871b33d 875 }
jmitc91516 1:a5258871b33d 876 }
jmitc91516 1:a5258871b33d 877
jmitc91516 1:a5258871b33d 878 if(structureIndex == GuiStruct_ColumnDHSensorCalibration_Def) {
jmitc91516 1:a5258871b33d 879 ColumnDHSensorCalibrationPageHandler *columnDHSensorCalibrationPageHandler = ColumnDHSensorCalibrationPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 880
jmitc91516 1:a5258871b33d 881 if(columnDHSensorCalibrationPageHandler != NULL) {
jmitc91516 1:a5258871b33d 882 columnDHSensorCalibrationPageHandler->DisplayingEasyGUIPage(updateEasyGUIVariables);
jmitc91516 1:a5258871b33d 883 }
jmitc91516 1:a5258871b33d 884 }
jmitc91516 1:a5258871b33d 885
jmitc91516 1:a5258871b33d 886 if(structureIndex == GuiStruct_PSU_DAC_Page_Def) {
jmitc91516 1:a5258871b33d 887 ColumnDHPSUDACPageHandler *columnDHPSUDACPageHandler = ColumnDHPSUDACPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 888
jmitc91516 1:a5258871b33d 889 if(columnDHPSUDACPageHandler != NULL) {
jmitc91516 1:a5258871b33d 890 columnDHPSUDACPageHandler->DisplayingEasyGUIPage(updateEasyGUIVariables);
jmitc91516 1:a5258871b33d 891 }
jmitc91516 1:a5258871b33d 892 }
jmitc91516 1:a5258871b33d 893
jmitc91516 1:a5258871b33d 894 if(NudgeAndDampPageHandler::PageIsANudgeAndDampPage(structureIndex)) {
jmitc91516 1:a5258871b33d 895 NudgeAndDampPageHandler *nudgeAndDampPageHandler = NudgeAndDampPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 896
jmitc91516 1:a5258871b33d 897 if(nudgeAndDampPageHandler != NULL) {
jmitc91516 1:a5258871b33d 898 nudgeAndDampPageHandler->DisplayingEasyGUIPage(structureIndex, updateEasyGUIVariables);
jmitc91516 1:a5258871b33d 899 }
jmitc91516 1:a5258871b33d 900 }
jmitc91516 1:a5258871b33d 901
jmitc91516 1:a5258871b33d 902
jmitc91516 1:a5258871b33d 903 if(structureIndex == GuiStruct_ServicingHomePage_Def) {
jmitc91516 1:a5258871b33d 904 #ifdef USE_QSPI_BITMAPS
jmitc91516 1:a5258871b33d 905 // Use same bitmaps on Servicing Home Page, as on the main Home Page
jmitc91516 1:a5258871b33d 906 qspiBitmaps.DisplayAllHomePageBitmaps();
jmitc91516 1:a5258871b33d 907 #endif
jmitc91516 1:a5258871b33d 908 }
jmitc91516 1:a5258871b33d 909
jmitc91516 0:47c880c1463d 910 GuiLib_ShowScreen(structureIndex, GuiLib_NO_CURSOR, GuiLib_RESET_AUTO_REDRAW);
jmitc91516 0:47c880c1463d 911
jmitc91516 0:47c880c1463d 912 // But draw the run button, if required, on top of the fixed part of the home page
jmitc91516 1:a5258871b33d 913 // Same for the Heat On/Off button, and the Stabilising or Equilibrating messages (again, if required)
jmitc91516 0:47c880c1463d 914 if(structureIndex == GuiStruct_HomePage_1) {
jmitc91516 2:6e94a7fd1e37 915 //#define ALWAYS_WANT_RUN_BUTTON
jmitc91516 2:6e94a7fd1e37 916 #ifdef ALWAYS_WANT_RUN_BUTTON
jmitc91516 2:6e94a7fd1e37 917 DrawRunButton((simplifiedGCState == GC_READY_TO_RUN) || (simplifiedGCState == GC_RUNNING));
jmitc91516 2:6e94a7fd1e37 918 #else
jmitc91516 2:6e94a7fd1e37 919 if((simplifiedGCState == GC_READY_TO_RUN) || (simplifiedGCState == GC_RUNNING)) {
jmitc91516 2:6e94a7fd1e37 920 DrawRunButton(true);
jmitc91516 2:6e94a7fd1e37 921 }
jmitc91516 2:6e94a7fd1e37 922 #endif // ALWAYS_WANT_RUN_BUTTON
jmitc91516 2:6e94a7fd1e37 923
jmitc91516 1:a5258871b33d 924 #ifdef USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 1:a5258871b33d 925 DrawHeatOnOffButton();
jmitc91516 1:a5258871b33d 926 #endif
jmitc91516 1:a5258871b33d 927
jmitc91516 2:6e94a7fd1e37 928 GCStateOrFaultCode::DrawSimplifiedStateMessageOnHomePageRunButton(simplifiedGCState);
jmitc91516 0:47c880c1463d 929 }
jmitc91516 0:47c880c1463d 930
jmitc91516 1:a5258871b33d 931 if(structureIndex == GuiStruct_InjectorTempProfilePage_25) {
jmitc91516 1:a5258871b33d 932
jmitc91516 1:a5258871b33d 933 // Make sure the injector temperature profile graph is drawn
jmitc91516 1:a5258871b33d 934 // on entering this page (note that we must do this *after*
jmitc91516 1:a5258871b33d 935 // drawing the injector status rectangle and *after* 'GuiLib_ShowScreen')
jmitc91516 1:a5258871b33d 936
jmitc91516 1:a5258871b33d 937 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 938 getGCStatusLoop->DisplayInjectorTempProfilePageGraph();
jmitc91516 1:a5258871b33d 939 }
jmitc91516 1:a5258871b33d 940 }
jmitc91516 1:a5258871b33d 941
jmitc91516 1:a5258871b33d 942 if(structureIndex == GuiStruct_GasProfilePage_15) {
jmitc91516 1:a5258871b33d 943
jmitc91516 1:a5258871b33d 944 // Make sure the gas pressure profile graph is drawn
jmitc91516 1:a5258871b33d 945 // on entering this page (note that we must do this *after*
jmitc91516 1:a5258871b33d 946 // drawing the gas status rectangle and *after* 'GuiLib_ShowScreen')
jmitc91516 1:a5258871b33d 947
jmitc91516 1:a5258871b33d 948 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 949 getGCStatusLoop->DisplayGasFlowProfilePageGraph();
jmitc91516 1:a5258871b33d 950 }
jmitc91516 1:a5258871b33d 951 }
jmitc91516 1:a5258871b33d 952
jmitc91516 1:a5258871b33d 953 if(structureIndex == GuiStruct_ColumnTempProfilePage_60) {
jmitc91516 1:a5258871b33d 954
jmitc91516 1:a5258871b33d 955 // Make sure the column temperature profile graph is drawn
jmitc91516 1:a5258871b33d 956 // on entering this page (note that we must do this *after*
jmitc91516 1:a5258871b33d 957 // drawing the column status rectangle and *after* 'GuiLib_ShowScreen')
jmitc91516 1:a5258871b33d 958
jmitc91516 1:a5258871b33d 959 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 960 getGCStatusLoop->DisplayColumnTempProfilePageGraph(CONVENTIONAL_COLUMN);
jmitc91516 1:a5258871b33d 961 }
jmitc91516 1:a5258871b33d 962
jmitc91516 1:a5258871b33d 963 //Also in GetGCStatusLoop::DisplayColumnTempProfilePageData
jmitc91516 1:a5258871b33d 964 //#define SWIM_TEST
jmitc91516 1:a5258871b33d 965 #ifdef SWIM_TEST
jmitc91516 1:a5258871b33d 966 SwimDraw* swimDrawInstance = SwimDraw::GetInstance();
jmitc91516 1:a5258871b33d 967 if(swimDrawInstance != NULL) {
jmitc91516 1:a5258871b33d 968 // two horizontal boxes
jmitc91516 1:a5258871b33d 969 swimDrawInstance->DrawRectangle(SixteenBitColorValue(0xFF, 0, 0), 50, 200, 650, 250);
jmitc91516 1:a5258871b33d 970 swimDrawInstance->DrawRectangle(SixteenBitColorValue(0, 0, 0xFF), 50, 350, 650, 400);
jmitc91516 1:a5258871b33d 971
jmitc91516 1:a5258871b33d 972 // two vertical boxes
jmitc91516 1:a5258871b33d 973 swimDrawInstance->DrawRectangle(SixteenBitColorValue(0xFF, 0, 0), 100, 50, 150, 350);
jmitc91516 1:a5258871b33d 974 swimDrawInstance->DrawRectangle(SixteenBitColorValue(0, 0, 0xFF), 500, 50, 550, 350);
jmitc91516 1:a5258871b33d 975 }
jmitc91516 1:a5258871b33d 976 #else // Draw the same boxes with easyGUI
jmitc91516 1:a5258871b33d 977 // GuiLib_FillBox(50, 200, 650, 250, SixteenBitColorValue(0xFF, 0, 0));
jmitc91516 1:a5258871b33d 978 // GuiLib_FillBox(50, 350, 650, 400, SixteenBitColorValue(0, 0, 0xFF));
jmitc91516 1:a5258871b33d 979
jmitc91516 1:a5258871b33d 980 // GuiLib_FillBox(100, 50, 150, 350, SixteenBitColorValue(0xFF, 0, 0));
jmitc91516 1:a5258871b33d 981 // GuiLib_FillBox(500, 50, 550, 350, SixteenBitColorValue(0, 0, 0xFF));
jmitc91516 1:a5258871b33d 982
jmitc91516 1:a5258871b33d 983 // No - draw a dummy profile section
jmitc91516 1:a5258871b33d 984 // DrawProfileSectionUsingGuiLibVLine(SixteenBitColorValue(0xFF, 0, 0), 300, 500, 350, 200, 125);
jmitc91516 1:a5258871b33d 985 #endif // SWIM_TEST
jmitc91516 1:a5258871b33d 986 }
jmitc91516 1:a5258871b33d 987
jmitc91516 1:a5258871b33d 988 // Column page - must draw Lock/Release buttons if required
jmitc91516 7:f0e645cf73a2 989 #ifdef WANT_DOOR_ACTUATOR_BUTTONS_ON_COLUMN_PAGES
jmitc91516 1:a5258871b33d 990 if((structureIndex == GuiStruct_ColumnDHAutoCalibrationPage_Def) ||
jmitc91516 1:a5258871b33d 991 (structureIndex == GuiStruct_ColumnPage1_2) ||
jmitc91516 1:a5258871b33d 992 (structureIndex == GuiStruct_ColumnPage2_9) ||
jmitc91516 5:aceac1035d71 993 (structureIndex == GuiStruct_ColumnMethodPage_Def) ||
jmitc91516 1:a5258871b33d 994 (structureIndex == GuiStruct_ColumnTempProfilePage_60)) {
jmitc91516 7:f0e645cf73a2 995 #else
jmitc91516 7:f0e645cf73a2 996 if(structureIndex == GuiStruct_ColumnDHAutoCalibrationPage_Def) {
jmitc91516 7:f0e645cf73a2 997 #endif
jmitc91516 1:a5258871b33d 998 SetupDoorActuatorCommandUserInterface(usbDevice, usbHostGC, false);
jmitc91516 6:dba3fbdfd5da 999 }
jmitc91516 7:f0e645cf73a2 1000
jmitc91516 6:dba3fbdfd5da 1001 if(structureIndex == GuiStruct_ColumnMethodPage_Def) {
jmitc91516 6:dba3fbdfd5da 1002 if(getGCStatusLoop != NULL) {
jmitc91516 6:dba3fbdfd5da 1003 getGCStatusLoop->ShowColumnMethodPageScrollButtonsIfNecessary();
jmitc91516 6:dba3fbdfd5da 1004 }
jmitc91516 6:dba3fbdfd5da 1005 }
jmitc91516 6:dba3fbdfd5da 1006
jmitc91516 6:dba3fbdfd5da 1007 if(structureIndex == GuiStruct_InjectorMethodPage_Def) {
jmitc91516 6:dba3fbdfd5da 1008 if(getGCStatusLoop != NULL) {
jmitc91516 6:dba3fbdfd5da 1009 getGCStatusLoop->ShowInjectorMethodPageScrollButtonsIfNecessary();
jmitc91516 6:dba3fbdfd5da 1010 }
jmitc91516 6:dba3fbdfd5da 1011 }
jmitc91516 6:dba3fbdfd5da 1012
jmitc91516 6:dba3fbdfd5da 1013 if(structureIndex == GuiStruct_GasMethodPage_Def) {
jmitc91516 6:dba3fbdfd5da 1014 if(getGCStatusLoop != NULL) {
jmitc91516 6:dba3fbdfd5da 1015 getGCStatusLoop->ShowGasMethodPageScrollButtonsIfNecessary();
jmitc91516 6:dba3fbdfd5da 1016 }
jmitc91516 6:dba3fbdfd5da 1017 }
jmitc91516 6:dba3fbdfd5da 1018
jmitc91516 1:a5258871b33d 1019 if(structureIndex == GuiStruct_RunningPage1_7) {
jmitc91516 1:a5258871b33d 1020 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 1021 getGCStatusLoop->UpdateAndDisplayRunningPage1ProgressBar(false);
jmitc91516 1:a5258871b33d 1022 }
jmitc91516 1:a5258871b33d 1023 }
jmitc91516 1:a5258871b33d 1024
jmitc91516 0:47c880c1463d 1025 GuiLib_Refresh();
jmitc91516 0:47c880c1463d 1026 #define DEBUG_HERE
jmitc91516 0:47c880c1463d 1027 #ifdef DEBUG_HERE
jmitc91516 1:a5258871b33d 1028 char dbg2[100];
jmitc91516 1:a5258871b33d 1029 sprintf(dbg2, "After GuiLib_Refresh main 1");
jmitc91516 1:a5258871b33d 1030 EasyGUIDebugPrint(dbg2, 0, 40);
jmitc91516 0:47c880c1463d 1031 #undef DEBUG_HERE
jmitc91516 0:47c880c1463d 1032 #endif
jmitc91516 0:47c880c1463d 1033
jmitc91516 0:47c880c1463d 1034 if(getGCStatusLoop != NULL) {
jmitc91516 0:47c880c1463d 1035 getGCStatusLoop->SetCurrentPage(structureIndex);
jmitc91516 0:47c880c1463d 1036 }
jmitc91516 1:a5258871b33d 1037 } // End of "DisplayEasyGUIStructure"
jmitc91516 0:47c880c1463d 1038
jmitc91516 1:a5258871b33d 1039 /*
jmitc91516 1:a5258871b33d 1040 Draws the specified error message in a standard position (X = 90, Y = 240),
jmitc91516 1:a5258871b33d 1041 blue text on a green background.
jmitc91516 1:a5258871b33d 1042
jmitc91516 1:a5258871b33d 1043 The argument is a pointer to the (null-terminated) message text.
jmitc91516 1:a5258871b33d 1044 */
jmitc91516 0:47c880c1463d 1045 void DrawErrorMessage(char *msg)
jmitc91516 0:47c880c1463d 1046 {
jmitc91516 0:47c880c1463d 1047 const GuiConst_INT16U fontNo = GuiFont_Helv1;
jmitc91516 0:47c880c1463d 1048
jmitc91516 0:47c880c1463d 1049 GuiLib_DrawStr(
jmitc91516 0:47c880c1463d 1050 90, //GuiConst_INT16S X,
jmitc91516 0:47c880c1463d 1051 240, //GuiConst_INT16S Y,
jmitc91516 0:47c880c1463d 1052 fontNo, //GuiConst_INT16U FontNo,
jmitc91516 0:47c880c1463d 1053 msg, //GuiConst_TEXT PrefixLocate *String,
jmitc91516 0:47c880c1463d 1054 GuiLib_ALIGN_LEFT, //GuiConst_INT8U Alignment,
jmitc91516 0:47c880c1463d 1055 GuiLib_PS_ON, //GuiConst_INT8U PsWriting,
jmitc91516 0:47c880c1463d 1056 GuiLib_TRANSPARENT_OFF, //GuiConst_INT8U Transparent,
jmitc91516 0:47c880c1463d 1057 GuiLib_UNDERLINE_OFF, //GuiConst_INT8U Underlining,
jmitc91516 0:47c880c1463d 1058 0, //GuiConst_INT16S BackBoxSizeX,
jmitc91516 0:47c880c1463d 1059 0, //GuiConst_INT16S BackBoxSizeY1,
jmitc91516 0:47c880c1463d 1060 0, //GuiConst_INT16S BackBoxSizeY2,
jmitc91516 0:47c880c1463d 1061 GuiLib_BBP_NONE, //GuiConst_INT8U BackBorderPixels,
jmitc91516 0:47c880c1463d 1062 SixteenBitColorValue(0, 0, 0xFF), //GuiConst_INTCOLOR ForeColor,
jmitc91516 0:47c880c1463d 1063 SixteenBitColorValue(0, 0xFF, 0) //GuiConst_INTCOLOR BackColor
jmitc91516 0:47c880c1463d 1064 );
jmitc91516 0:47c880c1463d 1065 }
jmitc91516 0:47c880c1463d 1066
jmitc91516 1:a5258871b33d 1067 /*
jmitc91516 1:a5258871b33d 1068 Update the easyGUI variable that displays the command to turn the GC heat on or off,
jmitc91516 1:a5258871b33d 1069 so that it matches the GC's current state.
jmitc91516 1:a5258871b33d 1070 */
jmitc91516 0:47c880c1463d 1071 void UpdateHeatOnOffEasyGuiVariable(void)
jmitc91516 0:47c880c1463d 1072 {
jmitc91516 0:47c880c1463d 1073 // Note that the easyGUI variable is not the current status of the heat on the GC,
jmitc91516 0:47c880c1463d 1074 // but the command to toggle its current state
jmitc91516 0:47c880c1463d 1075 if(theGCHeatControl != NULL) {
jmitc91516 0:47c880c1463d 1076 if(theGCHeatControl->IsHeatOn()) {
jmitc91516 0:47c880c1463d 1077 strcpy(GuiVar_heatOnOffCommand, "Heat Off");
jmitc91516 0:47c880c1463d 1078 } else {
jmitc91516 0:47c880c1463d 1079 strcpy(GuiVar_heatOnOffCommand, "Heat On");
jmitc91516 0:47c880c1463d 1080 }
jmitc91516 0:47c880c1463d 1081 }
jmitc91516 0:47c880c1463d 1082 }
jmitc91516 0:47c880c1463d 1083
jmitc91516 1:a5258871b33d 1084 void DrawHeatOnOffButton(void)
jmitc91516 0:47c880c1463d 1085 {
jmitc91516 1:a5258871b33d 1086 // Note that the text on the button is not the current status of the heat on the GC,
jmitc91516 1:a5258871b33d 1087 // but the command to toggle its current state
jmitc91516 1:a5258871b33d 1088 GuiConst_INT8U bitmapIndex = GuiStruct_Bitmap_HeatOn;
jmitc91516 1:a5258871b33d 1089 if(theGCHeatControl != NULL) {
jmitc91516 1:a5258871b33d 1090 if(theGCHeatControl->IsHeatOn()) {
jmitc91516 1:a5258871b33d 1091 bitmapIndex = GuiStruct_Bitmap_HeatOff;
jmitc91516 1:a5258871b33d 1092 }
jmitc91516 1:a5258871b33d 1093 }
jmitc91516 0:47c880c1463d 1094
jmitc91516 0:47c880c1463d 1095 #define DEBUG_HERE
jmitc91516 0:47c880c1463d 1096 #ifdef DEBUG_HERE
jmitc91516 0:47c880c1463d 1097 char dbg[100];
jmitc91516 1:a5258871b33d 1098 sprintf(dbg, "DHOOB - bitmapIndex is %d", bitmapIndex);
jmitc91516 1:a5258871b33d 1099 EasyGUIDebugPrint(dbg, 0, 440);
jmitc91516 0:47c880c1463d 1100 #endif
jmitc91516 0:47c880c1463d 1101 #undef DEBUG_HERE
jmitc91516 0:47c880c1463d 1102
jmitc91516 1:a5258871b33d 1103 // Hard coded coordinates copied from easyGUI (I have not found
jmitc91516 1:a5258871b33d 1104 // a way of getting them from the easyGUI code at runtime)
jmitc91516 1:a5258871b33d 1105 GuiLib_ShowBitmap(bitmapIndex, 0, 404, -1); // No transparent colour
jmitc91516 0:47c880c1463d 1106 }
jmitc91516 0:47c880c1463d 1107
jmitc91516 1:a5258871b33d 1108
jmitc91516 1:a5258871b33d 1109 /*
jmitc91516 1:a5258871b33d 1110 General function to pass a command to the GC, and return success or failure to the caller.
jmitc91516 1:a5258871b33d 1111
jmitc91516 1:a5258871b33d 1112 Args are: the command (null-terminated string)
jmitc91516 1:a5258871b33d 1113 a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1114 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1115
jmitc91516 1:a5258871b33d 1116 Returns true if the GC returned "DACK" in response, false if it returned "DNAK"
jmitc91516 1:a5258871b33d 1117 (or "EPKT", or anything other than "DACK").
jmitc91516 1:a5258871b33d 1118 */
jmitc91516 1:a5258871b33d 1119 bool ExecuteGCCommand(char *cmd, USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 0:47c880c1463d 1120 {
jmitc91516 1:a5258871b33d 1121 #define USE_GC_UTILS // Testing new class
jmitc91516 1:a5258871b33d 1122 #ifdef USE_GC_UTILS
jmitc91516 1:a5258871b33d 1123 return USBHostGCUtilities::SendCommandToGCWithDACKResponse(usbDevice, usbHostGC, cmd);
jmitc91516 1:a5258871b33d 1124 #else
jmitc91516 0:47c880c1463d 1125 while(usbHostGC->ExecutingSetDeviceReport()) {}
jmitc91516 0:47c880c1463d 1126
jmitc91516 0:47c880c1463d 1127 char response[50];
jmitc91516 0:47c880c1463d 1128 usbHostGC->SetDeviceReport(usbDevice, cmd, response);
jmitc91516 0:47c880c1463d 1129 // We expect a response like this: "DACK" for success, "DNAK" for failure
jmitc91516 0:47c880c1463d 1130
jmitc91516 0:47c880c1463d 1131 #define DEBUG_HERE
jmitc91516 0:47c880c1463d 1132 #ifdef DEBUG_HERE
jmitc91516 0:47c880c1463d 1133 char dbg[100];
jmitc91516 0:47c880c1463d 1134 sprintf(dbg, "%s returned %s", cmd, response);
jmitc91516 1:a5258871b33d 1135 EasyGUIDebugPrint(dbg, 0, 20);
jmitc91516 0:47c880c1463d 1136 #endif
jmitc91516 0:47c880c1463d 1137 #undef DEBUG_HERE
jmitc91516 1:a5258871b33d 1138
jmitc91516 1:a5258871b33d 1139 return (response[1] == 'A');
jmitc91516 1:a5258871b33d 1140 #endif // USE_GC_UTILS
jmitc91516 1:a5258871b33d 1141 }
jmitc91516 1:a5258871b33d 1142
jmitc91516 1:a5258871b33d 1143 /*
jmitc91516 1:a5258871b33d 1144 Starts the GC running, by passing it the "CRUN" command.
jmitc91516 0:47c880c1463d 1145
jmitc91516 1:a5258871b33d 1146 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1147 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1148
jmitc91516 1:a5258871b33d 1149 Returns true if the GC returned "DACK" in response, false if it returned "DNAK".
jmitc91516 1:a5258871b33d 1150 */
jmitc91516 1:a5258871b33d 1151 bool StartGCRun(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1152 {
jmitc91516 1:a5258871b33d 1153 return ExecuteGCCommand("CRUN", usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1154 }
jmitc91516 1:a5258871b33d 1155
jmitc91516 1:a5258871b33d 1156 /*
jmitc91516 1:a5258871b33d 1157 Stops the GC running, by passing it the "CSTP" or "CABT" command.
jmitc91516 1:a5258871b33d 1158
jmitc91516 1:a5258871b33d 1159 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1160 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1161
jmitc91516 1:a5258871b33d 1162 Returns true if the GC returned "DACK" in response, false if it returned "DNAK".
jmitc91516 1:a5258871b33d 1163 */
jmitc91516 1:a5258871b33d 1164 bool StopGCRun(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1165 {
jmitc91516 1:a5258871b33d 1166 // TODO: Find out which is the correct command here
jmitc91516 1:a5258871b33d 1167 // char *cmd = "CSTP";
jmitc91516 1:a5258871b33d 1168 char *cmd = "CABT";
jmitc91516 1:a5258871b33d 1169 return ExecuteGCCommand(cmd, usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1170 }
jmitc91516 1:a5258871b33d 1171
jmitc91516 1:a5258871b33d 1172 /*
jmitc91516 1:a5258871b33d 1173 Takes the GC out of standby mode, by passing it the "CDIS" command.
jmitc91516 1:a5258871b33d 1174
jmitc91516 1:a5258871b33d 1175 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1176 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1177
jmitc91516 1:a5258871b33d 1178 Returns true if the GC returned "DACK" in response, false if it returned "DNAK".
jmitc91516 1:a5258871b33d 1179 */
jmitc91516 1:a5258871b33d 1180 bool ExitGCStandbyMode(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1181 {
jmitc91516 1:a5258871b33d 1182 if( ExecuteGCCommand("CDIS", usbDevice, usbHostGC)) {
jmitc91516 1:a5258871b33d 1183 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 1184 getGCStatusLoop->ExitedGCStandbyMode();
jmitc91516 1:a5258871b33d 1185 }
jmitc91516 1:a5258871b33d 1186
jmitc91516 1:a5258871b33d 1187 return true;
jmitc91516 1:a5258871b33d 1188 }
jmitc91516 1:a5258871b33d 1189
jmitc91516 1:a5258871b33d 1190 // 'else'
jmitc91516 1:a5258871b33d 1191 return false;
jmitc91516 0:47c880c1463d 1192 }
jmitc91516 0:47c880c1463d 1193
jmitc91516 1:a5258871b33d 1194 /*
jmitc91516 1:a5258871b33d 1195 Takes the GC out of its error state, by passing it the "CCLR" command.
jmitc91516 1:a5258871b33d 1196
jmitc91516 1:a5258871b33d 1197 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1198 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1199
jmitc91516 1:a5258871b33d 1200 Returns true if the GC returned "DACK" in response, false if it returned "DNAK".
jmitc91516 1:a5258871b33d 1201 */
jmitc91516 1:a5258871b33d 1202 bool ClearGCErrors(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1203 {
jmitc91516 1:a5258871b33d 1204 return ExecuteGCCommand("CCLR", usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1205 }
jmitc91516 1:a5258871b33d 1206
jmitc91516 1:a5258871b33d 1207
jmitc91516 1:a5258871b33d 1208 /*
jmitc91516 1:a5258871b33d 1209 Opens the (column) door on the GC, by passing it the "COPN" command.
jmitc91516 1:a5258871b33d 1210
jmitc91516 1:a5258871b33d 1211 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1212 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1213
jmitc91516 1:a5258871b33d 1214 Returns true if the GC returned "DACK" in response, false if it returned "DNAK".
jmitc91516 1:a5258871b33d 1215 */
jmitc91516 1:a5258871b33d 1216 bool OpenDoor(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1217 {
jmitc91516 1:a5258871b33d 1218 return ExecuteGCCommand("COPN", usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1219 }
jmitc91516 1:a5258871b33d 1220
jmitc91516 1:a5258871b33d 1221
jmitc91516 1:a5258871b33d 1222 /*
jmitc91516 1:a5258871b33d 1223 Set up the variable "GuiVar_doorActuatorCommandFGColour", to show - depending on
jmitc91516 1:a5258871b33d 1224 the current state of the GC - whether the Lock/Unlock facility is enabled or not,
jmitc91516 1:a5258871b33d 1225 by displaying the command in black (enabled) or grey (disabled).
jmitc91516 1:a5258871b33d 1226
jmitc91516 1:a5258871b33d 1227 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1228 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1229
jmitc91516 1:a5258871b33d 1230 No return code.
jmitc91516 1:a5258871b33d 1231 */
jmitc91516 1:a5258871b33d 1232 void SetupDoorActuatorCommandColour(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC, bool actuatorsAreMoving)
jmitc91516 1:a5258871b33d 1233 {
jmitc91516 1:a5258871b33d 1234 // We allow the user to change the state of the actuators only if the GC is in the idle or fault states,
jmitc91516 1:a5258871b33d 1235 // and if there is no other reason why they should be disabled (e.g. we are calibrating, and the oven is hot
jmitc91516 1:a5258871b33d 1236 // even though the heat is not on. Show this to the user by setting the text colour to black (enabled)
jmitc91516 1:a5258871b33d 1237 // or grey (disabled)
jmitc91516 1:a5258871b33d 1238 bool enabled = false;
jmitc91516 1:a5258871b33d 1239 if(!actuatorsAreMoving) {
jmitc91516 1:a5258871b33d 1240 GCStateSimplified simplifiedGCState = GCStateOrFaultCode::GetSimplifiedGCState(GetGCStatus(usbDevice, usbHostGC));
jmitc91516 1:a5258871b33d 1241 if((simplifiedGCState == GC_IDLE) || (simplifiedGCState == GC_FAULTED)) {
jmitc91516 1:a5258871b33d 1242 if(canUnlockDoorActuators) {
jmitc91516 1:a5258871b33d 1243 enabled = true;
jmitc91516 1:a5258871b33d 1244 }
jmitc91516 1:a5258871b33d 1245 }
jmitc91516 1:a5258871b33d 1246 }
jmitc91516 1:a5258871b33d 1247 // All other situations - must be disabled
jmitc91516 1:a5258871b33d 1248
jmitc91516 1:a5258871b33d 1249 if(enabled) {
jmitc91516 1:a5258871b33d 1250 GuiVar_doorActuatorCommandFGColour = 0; // Black
jmitc91516 1:a5258871b33d 1251 } else {
jmitc91516 1:a5258871b33d 1252 GuiVar_doorActuatorCommandFGColour = SixteenBitColorValue(192, 192, 192); // Grey - but bright enough to show up against grey button colour
jmitc91516 1:a5258871b33d 1253 }
jmitc91516 1:a5258871b33d 1254 }
jmitc91516 1:a5258871b33d 1255
jmitc91516 1:a5258871b33d 1256
jmitc91516 1:a5258871b33d 1257 typedef enum enumDoorActuatorStatus { LOCKED, UNLOCKED, CLOSED_BUT_NOT_LOCKED, INTERMEDIATE, MOVING } DoorActuatorStatus;
jmitc91516 1:a5258871b33d 1258 static bool lockingActuators; // Do not display "Release" while we are doing this
jmitc91516 1:a5258871b33d 1259 /*
jmitc91516 1:a5258871b33d 1260 Finds out, and returns, the status of the door actuators.
jmitc91516 1:a5258871b33d 1261
jmitc91516 1:a5258871b33d 1262 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1263 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1264
jmitc91516 1:a5258871b33d 1265 Returns the status, as a value in the 'DoorActuatorStatus' enumeration defined above.
jmitc91516 1:a5258871b33d 1266 */
jmitc91516 1:a5258871b33d 1267 DoorActuatorStatus GetDoorActuatorStatus(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 0:47c880c1463d 1268 {
jmitc91516 0:47c880c1463d 1269 while(usbHostGC->ExecutingSetDeviceReport()) {}
jmitc91516 0:47c880c1463d 1270
jmitc91516 0:47c880c1463d 1271 char response[50];
jmitc91516 1:a5258871b33d 1272 usbHostGC->SetDeviceReport(usbDevice, "QACT1004", response);
jmitc91516 1:a5258871b33d 1273
jmitc91516 1:a5258871b33d 1274
jmitc91516 1:a5258871b33d 1275 // We expect a response of the form "DACnnnnn", where "nnnnn" is the decimal value
jmitc91516 1:a5258871b33d 1276 // of two bytes, the most significant of which contains the states of each of the three actuators,
jmitc91516 1:a5258871b33d 1277 // while the least significant contains the software version (which we ignore).
jmitc91516 1:a5258871b33d 1278
jmitc91516 1:a5258871b33d 1279 int actuatorStatus;
jmitc91516 1:a5258871b33d 1280 sscanf(&response[3], "%d", &actuatorStatus);
jmitc91516 1:a5258871b33d 1281
jmitc91516 1:a5258871b33d 1282 if(actuatorStatus & 0x8000) { // Top bit set
jmitc91516 1:a5258871b33d 1283 return MOVING;
jmitc91516 1:a5258871b33d 1284 }
jmitc91516 1:a5258871b33d 1285
jmitc91516 1:a5258871b33d 1286 int actuator1Status = (actuatorStatus & 0x300) >> 8;
jmitc91516 1:a5258871b33d 1287 int actuator2Status = (actuatorStatus & 0xC00) >> 10;
jmitc91516 1:a5258871b33d 1288 int actuator3Status = (actuatorStatus & 0x3000) >> 12;
jmitc91516 1:a5258871b33d 1289
jmitc91516 1:a5258871b33d 1290 // Status 1 means locked, 2 means unlocked, 3 means closed but not locked (actuators 1 and 2 only),
jmitc91516 1:a5258871b33d 1291 // 0 means intermediate
jmitc91516 1:a5258871b33d 1292 if ((actuator1Status == 1) && (actuator2Status == 1) && (actuator3Status == 1)) {
jmitc91516 1:a5258871b33d 1293 return LOCKED;
jmitc91516 1:a5258871b33d 1294 }
jmitc91516 1:a5258871b33d 1295 // 'else' ...
jmitc91516 1:a5258871b33d 1296 if((actuator1Status == 2) && (actuator2Status == 2) && (actuator3Status == 2)) {
jmitc91516 1:a5258871b33d 1297 return UNLOCKED;
jmitc91516 1:a5258871b33d 1298 }
jmitc91516 1:a5258871b33d 1299 // 'else' ...
jmitc91516 1:a5258871b33d 1300 if((actuator1Status == 3) && (actuator2Status == 3) && (actuator3Status == 2)) {
jmitc91516 1:a5258871b33d 1301 return CLOSED_BUT_NOT_LOCKED;
jmitc91516 1:a5258871b33d 1302 }
jmitc91516 1:a5258871b33d 1303 // 'else' ...
jmitc91516 1:a5258871b33d 1304 return INTERMEDIATE;
jmitc91516 1:a5258871b33d 1305 }
jmitc91516 1:a5258871b33d 1306
jmitc91516 1:a5258871b33d 1307 /*
jmitc91516 1:a5258871b33d 1308 We have now replaced the "Open Door" button with a button to toggle
jmitc91516 1:a5258871b33d 1309 the state of the door actuators - i.e. lock them if they are unlocked
jmitc91516 1:a5258871b33d 1310 and vice versa. We display the corresponding command in the easyGUI variable
jmitc91516 1:a5258871b33d 1311 "GuiVar_doorActuatorCommand". This function reads the current state
jmitc91516 1:a5258871b33d 1312 of the actuators, and sets up that variable appropriately. It also sets up
jmitc91516 1:a5258871b33d 1313 the variable "GuiVar_doorActuatorCommandFGColour", to show - depending on
jmitc91516 1:a5258871b33d 1314 the current state of the GC - whether the facility is enabled or not,
jmitc91516 1:a5258871b33d 1315 by displaying the command in black (enabled) or grey (disabled).
jmitc91516 1:a5258871b33d 1316
jmitc91516 1:a5258871b33d 1317 It also now - since we have a separate state for "closed but not locked" -
jmitc91516 1:a5258871b33d 1318 displays the two "Lock" and "Release" buttons if required.
jmitc91516 1:a5258871b33d 1319
jmitc91516 1:a5258871b33d 1320 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1321 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1322 a boolean set to true before displaying the easyGUI page (GuiLib_ShowScreen), false if afterwards
jmitc91516 1:a5258871b33d 1323
jmitc91516 1:a5258871b33d 1324 No return code.
jmitc91516 1:a5258871b33d 1325 */
jmitc91516 1:a5258871b33d 1326 void SetupDoorActuatorCommandUserInterface(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC, bool beforePageDisplay)
jmitc91516 1:a5258871b33d 1327 {
jmitc91516 1:a5258871b33d 1328 //#define DEBUG_PRINT_HERE
jmitc91516 1:a5258871b33d 1329 #ifdef DEBUG_PRINT_HERE
jmitc91516 1:a5258871b33d 1330 char buff[100];
jmitc91516 1:a5258871b33d 1331 sprintf(buff, "%s", beforePageDisplay ? "Before page display" : "After page display");
jmitc91516 1:a5258871b33d 1332 SpecialDebugPrint(buff, 150, 430);
jmitc91516 1:a5258871b33d 1333 #endif
jmitc91516 1:a5258871b33d 1334
jmitc91516 1:a5258871b33d 1335 DoorActuatorStatus doorActuatorStatus = GetDoorActuatorStatus(usbDevice, usbHostGC);
jmitc91516 0:47c880c1463d 1336
jmitc91516 1:a5258871b33d 1337 // SetupDoorActuatorCommandColour(usbDevice, usbHostGC, (doorActuatorStatus == MOVING));
jmitc91516 1:a5258871b33d 1338 SetupDoorActuatorCommandColour(usbDevice, usbHostGC, false);
jmitc91516 1:a5258871b33d 1339
jmitc91516 1:a5258871b33d 1340 if(beforePageDisplay) {
jmitc91516 1:a5258871b33d 1341
jmitc91516 1:a5258871b33d 1342 // Do nothing - do not change the button text, etc - if the actuators are moving
jmitc91516 1:a5258871b33d 1343 if(doorActuatorStatus != MOVING) {
jmitc91516 1:a5258871b33d 1344 if(doorActuatorStatus == UNLOCKED) {
jmitc91516 1:a5258871b33d 1345 strcpy(GuiVar_doorActuatorCommand, "Close");
jmitc91516 1:a5258871b33d 1346 } else if (doorActuatorStatus == LOCKED) {
jmitc91516 1:a5258871b33d 1347 strcpy(GuiVar_doorActuatorCommand, "Unlock");
jmitc91516 1:a5258871b33d 1348 lockingActuators = false;
jmitc91516 1:a5258871b33d 1349 } else { // i.e. all other states, including INTERMEDIATE (possible emergency stop)
jmitc91516 1:a5258871b33d 1350 if(!lockingActuators) { // Do not display this while we are locking - confusing
jmitc91516 1:a5258871b33d 1351 strcpy(GuiVar_doorActuatorCommand, "Release");
jmitc91516 1:a5258871b33d 1352 }
jmitc91516 1:a5258871b33d 1353 }
jmitc91516 1:a5258871b33d 1354 }
jmitc91516 1:a5258871b33d 1355 } else {
jmitc91516 1:a5258871b33d 1356 if(doorActuatorStatus == CLOSED_BUT_NOT_LOCKED) {
jmitc91516 1:a5258871b33d 1357 GetGCStatusLoop::DisplayColumnLockAndReleaseButtons();
jmitc91516 1:a5258871b33d 1358 #ifdef DEBUG_PRINT_HERE
jmitc91516 1:a5258871b33d 1359 char buff2[100];
jmitc91516 1:a5258871b33d 1360 sprintf(buff2, "%s", "Drawing lock and release buttons");
jmitc91516 1:a5258871b33d 1361 SpecialDebugPrint(buff2, 150, 460);
jmitc91516 1:a5258871b33d 1362 #endif
jmitc91516 1:a5258871b33d 1363 } else { // Including MOVING
jmitc91516 1:a5258871b33d 1364 DrawBackgroundBitmapOverDoorLockAndReleaseButtons();
jmitc91516 1:a5258871b33d 1365 #ifdef DEBUG_PRINT_HERE
jmitc91516 1:a5258871b33d 1366 char buff2[100];
jmitc91516 1:a5258871b33d 1367 sprintf(buff2, "%s", "*** NOT *** drawing lock and release buttons");
jmitc91516 1:a5258871b33d 1368 SpecialDebugPrint(buff2, 150, 460);
jmitc91516 1:a5258871b33d 1369 #undef DEBUG_PRINT_HERE
jmitc91516 1:a5258871b33d 1370 #endif
jmitc91516 1:a5258871b33d 1371 }
jmitc91516 1:a5258871b33d 1372 }
jmitc91516 1:a5258871b33d 1373 }
jmitc91516 1:a5258871b33d 1374
jmitc91516 1:a5258871b33d 1375
jmitc91516 1:a5258871b33d 1376 /*
jmitc91516 1:a5258871b33d 1377 Tells the caller whether or not the door actuator buttons have changed,
jmitc91516 1:a5258871b33d 1378 from the single "Close"/"Unlock" button to the two "Lock" and "Release" buttons,
jmitc91516 1:a5258871b33d 1379 or vice versa
jmitc91516 1:a5258871b33d 1380 */
jmitc91516 1:a5258871b33d 1381 bool DoorActuatorButtonsHaveChanged(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1382 {
jmitc91516 1:a5258871b33d 1383 bool doorActuatorButtonsHaveChanged = false;
jmitc91516 0:47c880c1463d 1384
jmitc91516 1:a5258871b33d 1385 static DoorActuatorStatus previousDoorActuatorStatus = INTERMEDIATE;
jmitc91516 1:a5258871b33d 1386
jmitc91516 1:a5258871b33d 1387 DoorActuatorStatus doorActuatorStatus = GetDoorActuatorStatus(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1388
jmitc91516 1:a5258871b33d 1389 // Do not change buttons if actuators are moving
jmitc91516 1:a5258871b33d 1390 if(doorActuatorStatus != MOVING) {
jmitc91516 1:a5258871b33d 1391 if((doorActuatorStatus == LOCKED) || (doorActuatorStatus == UNLOCKED)) {
jmitc91516 1:a5258871b33d 1392 if((previousDoorActuatorStatus == CLOSED_BUT_NOT_LOCKED) || (previousDoorActuatorStatus == INTERMEDIATE)) {
jmitc91516 1:a5258871b33d 1393 doorActuatorButtonsHaveChanged = true;
jmitc91516 1:a5258871b33d 1394 }
jmitc91516 1:a5258871b33d 1395 } else if (doorActuatorStatus == CLOSED_BUT_NOT_LOCKED) {
jmitc91516 1:a5258871b33d 1396 if(previousDoorActuatorStatus != CLOSED_BUT_NOT_LOCKED) {
jmitc91516 1:a5258871b33d 1397 doorActuatorButtonsHaveChanged = true;
jmitc91516 1:a5258871b33d 1398 }
jmitc91516 1:a5258871b33d 1399 }
jmitc91516 1:a5258871b33d 1400
jmitc91516 1:a5258871b33d 1401 // We ignore the 'moving' state
jmitc91516 1:a5258871b33d 1402 previousDoorActuatorStatus = doorActuatorStatus;
jmitc91516 1:a5258871b33d 1403 }
jmitc91516 1:a5258871b33d 1404
jmitc91516 1:a5258871b33d 1405 return doorActuatorButtonsHaveChanged;
jmitc91516 1:a5258871b33d 1406 }
jmitc91516 1:a5258871b33d 1407
jmitc91516 1:a5258871b33d 1408
jmitc91516 1:a5258871b33d 1409 /*
jmitc91516 1:a5258871b33d 1410 Toggles the state of the door actuator on the GC - i.e. if it is locked,
jmitc91516 1:a5258871b33d 1411 unlocks it, and vice versa.
jmitc91516 1:a5258871b33d 1412
jmitc91516 1:a5258871b33d 1413 Args are: the index of the touch area the user touched (note that we assume
jmitc91516 1:a5258871b33d 1414 this must be one of the 'door actuator areas' (seeEasyGUITouchAreaIndices.h)
jmitc91516 1:a5258871b33d 1415 a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1416 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1417
jmitc91516 1:a5258871b33d 1418 Returns true if the GC executed the operation successfully, false if not
jmitc91516 1:a5258871b33d 1419 */
jmitc91516 1:a5258871b33d 1420 bool DealWithDoorActuatorButtons(int touchAreaIndex, USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1421 {
jmitc91516 1:a5258871b33d 1422 // Disallow movement unless GC is in idle or faulted states
jmitc91516 1:a5258871b33d 1423 int gcStatus = GetGCStatus(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1424 GCStateSimplified simplifiedGCState = GCStateOrFaultCode::GetSimplifiedGCState(gcStatus);
jmitc91516 1:a5258871b33d 1425 if((simplifiedGCState != GC_IDLE) && (simplifiedGCState != GC_FAULTED)) {
jmitc91516 1:a5258871b33d 1426 return false;
jmitc91516 0:47c880c1463d 1427 }
jmitc91516 0:47c880c1463d 1428
jmitc91516 1:a5258871b33d 1429 bool bOK = false;
jmitc91516 1:a5258871b33d 1430
jmitc91516 1:a5258871b33d 1431 DoorActuatorStatus doorActuatorStatus = GetDoorActuatorStatus(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1432
jmitc91516 1:a5258871b33d 1433 if(doorActuatorStatus != MOVING) {
jmitc91516 1:a5258871b33d 1434 if(doorActuatorStatus == UNLOCKED) {
jmitc91516 1:a5258871b33d 1435 // Two touch areas, but only one button - treat both the same
jmitc91516 1:a5258871b33d 1436 // Close actuator, but do not lock it
jmitc91516 1:a5258871b33d 1437 bOK = ExecuteGCCommand("CACT1005", usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1438 } else if (doorActuatorStatus == LOCKED) {
jmitc91516 1:a5258871b33d 1439 // Two touch areas, but only one button - treat both the same
jmitc91516 1:a5258871b33d 1440 // Unlock actuator
jmitc91516 1:a5258871b33d 1441 bOK = ExecuteGCCommand("CACT1006", usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1442 } else if (doorActuatorStatus == CLOSED_BUT_NOT_LOCKED) {
jmitc91516 1:a5258871b33d 1443 // Unlock or Lock, depending on the touch area
jmitc91516 1:a5258871b33d 1444 if(touchAreaIndex == DOOR_ACTUATOR_AREA_1) {
jmitc91516 1:a5258871b33d 1445 // Lock
jmitc91516 1:a5258871b33d 1446 bOK = ExecuteGCCommand("CACT1007", usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1447 if(bOK) {
jmitc91516 1:a5258871b33d 1448 lockingActuators = true;
jmitc91516 1:a5258871b33d 1449 // Get the text ready for the Close/Unlock button
jmitc91516 1:a5258871b33d 1450 strcpy(GuiVar_doorActuatorCommand, "Unlock");
jmitc91516 1:a5258871b33d 1451 }
jmitc91516 1:a5258871b33d 1452 } else {
jmitc91516 1:a5258871b33d 1453 // Assume DOOR_ACTUATOR_AREA_2 - release, i.e. unlock
jmitc91516 1:a5258871b33d 1454 bOK = ExecuteGCCommand("CACT1006", usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1455 if(bOK) {
jmitc91516 1:a5258871b33d 1456 // Get the text ready for the Close/Unlock button
jmitc91516 1:a5258871b33d 1457 strcpy(GuiVar_doorActuatorCommand, "Close");
jmitc91516 1:a5258871b33d 1458 }
jmitc91516 1:a5258871b33d 1459 }
jmitc91516 1:a5258871b33d 1460 } else { // Assume INTERMEDIATE - for safety, always unlock
jmitc91516 1:a5258871b33d 1461 bOK = ExecuteGCCommand("CACT1006", usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1462 }
jmitc91516 1:a5258871b33d 1463 }
jmitc91516 1:a5258871b33d 1464
jmitc91516 1:a5258871b33d 1465 if(bOK) {
jmitc91516 1:a5258871b33d 1466 SetupDoorActuatorCommandUserInterface(usbDevice, usbHostGC, false);
jmitc91516 1:a5258871b33d 1467 }
jmitc91516 1:a5258871b33d 1468
jmitc91516 1:a5258871b33d 1469 return bOK;
jmitc91516 1:a5258871b33d 1470 }
jmitc91516 1:a5258871b33d 1471
jmitc91516 1:a5258871b33d 1472
jmitc91516 1:a5258871b33d 1473 /*
jmitc91516 1:a5258871b33d 1474 Tells the caller whether or not a specified GC command represents the start of a method,
jmitc91516 1:a5258871b33d 1475 and that therefore a new method is now being sent to the GC.
jmitc91516 1:a5258871b33d 1476
jmitc91516 1:a5258871b33d 1477 Params: pointer to a null-terminated string containing the command in question
jmitc91516 1:a5258871b33d 1478
jmitc91516 1:a5258871b33d 1479 Returns true if the command is one that occurs at the start of a method (and nowhere else),
jmitc91516 1:a5258871b33d 1480 false if not.
jmitc91516 1:a5258871b33d 1481
jmitc91516 1:a5258871b33d 1482 This code is intended to be as efficient as possible.
jmitc91516 1:a5258871b33d 1483
jmitc91516 1:a5258871b33d 1484 Currently, called from GetGCStatusLoop class and EthernetThread class
jmitc91516 1:a5258871b33d 1485 */
jmitc91516 1:a5258871b33d 1486 bool IsStartOfMethodCommand(char *gcCommand)
jmitc91516 1:a5258871b33d 1487 {
jmitc91516 1:a5258871b33d 1488 // We are looking for "CLCK" - lock local keyboard.
jmitc91516 1:a5258871b33d 1489 // Ellution only sends this at the start of a method.
jmitc91516 1:a5258871b33d 1490
jmitc91516 1:a5258871b33d 1491 if((gcCommand[0] == 'C') && (gcCommand[1] == 'L') && (gcCommand[2] == 'C') && (gcCommand[3] == 'K')) {
jmitc91516 1:a5258871b33d 1492 return true;
jmitc91516 1:a5258871b33d 1493 }
jmitc91516 1:a5258871b33d 1494
jmitc91516 1:a5258871b33d 1495 return false; // Not "CLCK"
jmitc91516 1:a5258871b33d 1496 }
jmitc91516 1:a5258871b33d 1497
jmitc91516 1:a5258871b33d 1498 /*
jmitc91516 1:a5258871b33d 1499 Tells the caller whether or not a specified GC command represents the end of a method,
jmitc91516 1:a5258871b33d 1500 and that therefore a new method has just been sent to the GC.
jmitc91516 1:a5258871b33d 1501
jmitc91516 1:a5258871b33d 1502 Params: pointer to a null-terminated string containing the command in question
jmitc91516 1:a5258871b33d 1503
jmitc91516 1:a5258871b33d 1504 Returns true if the command is one that occurs at the end of a method (and nowhere else),
jmitc91516 1:a5258871b33d 1505 false if not.
jmitc91516 1:a5258871b33d 1506
jmitc91516 1:a5258871b33d 1507 This code is intended to be as efficient as possible.
jmitc91516 1:a5258871b33d 1508
jmitc91516 1:a5258871b33d 1509 Currently, called from GetGCStatusLoop class and EthernetThread class
jmitc91516 1:a5258871b33d 1510 */
jmitc91516 1:a5258871b33d 1511 bool IsEndOfMethodCommand(char *gcCommand)
jmitc91516 1:a5258871b33d 1512 {
jmitc91516 1:a5258871b33d 1513 // We are looking for "CULK" - unlock local keyboard.
jmitc91516 1:a5258871b33d 1514 // Ellution only sends this at the end of a method.
jmitc91516 1:a5258871b33d 1515
jmitc91516 1:a5258871b33d 1516 if((gcCommand[0] == 'C') && (gcCommand[1] == 'U') && (gcCommand[2] == 'L') && (gcCommand[3] == 'K')) {
jmitc91516 1:a5258871b33d 1517 return true;
jmitc91516 1:a5258871b33d 1518 }
jmitc91516 1:a5258871b33d 1519
jmitc91516 1:a5258871b33d 1520 return false; // Not "CULK"
jmitc91516 0:47c880c1463d 1521 }
jmitc91516 0:47c880c1463d 1522
jmitc91516 1:a5258871b33d 1523
jmitc91516 1:a5258871b33d 1524 /*
jmitc91516 1:a5258871b33d 1525 Tells the caller whether or not a specified GC command is a control command,
jmitc91516 1:a5258871b33d 1526 which received "DACK" in acknowledgement, and is therefore likely
jmitc91516 1:a5258871b33d 1527 to have caused the GC to change its state.
jmitc91516 1:a5258871b33d 1528
jmitc91516 1:a5258871b33d 1529 Params: pointer to a null-terminated string containing the command in question
jmitc91516 1:a5258871b33d 1530
jmitc91516 1:a5258871b33d 1531 Returns true if the command is a control command and if it succeeded, false if not.
jmitc91516 1:a5258871b33d 1532
jmitc91516 1:a5258871b33d 1533 This code is intended to be as efficient as possible.
jmitc91516 1:a5258871b33d 1534
jmitc91516 1:a5258871b33d 1535 Currently, called from GetGCStatusLoop class and EthernetThread class
jmitc91516 1:a5258871b33d 1536 */
jmitc91516 1:a5258871b33d 1537 bool IsSuccessfulControlCommand(char* gcCommand, char* gcResponse)
jmitc91516 1:a5258871b33d 1538 {
jmitc91516 1:a5258871b33d 1539 // Simple criteria - does the command start with 'C'?
jmitc91516 1:a5258871b33d 1540 // - was the response "DACK"?
jmitc91516 1:a5258871b33d 1541
jmitc91516 1:a5258871b33d 1542 if(gcCommand[0] != 'C') {
jmitc91516 1:a5258871b33d 1543 return false;
jmitc91516 1:a5258871b33d 1544 }
jmitc91516 1:a5258871b33d 1545
jmitc91516 1:a5258871b33d 1546
jmitc91516 1:a5258871b33d 1547 if(gcResponse[0] != 'D') {
jmitc91516 1:a5258871b33d 1548 return false;
jmitc91516 1:a5258871b33d 1549 }
jmitc91516 1:a5258871b33d 1550
jmitc91516 1:a5258871b33d 1551 if(gcResponse[1] != 'A') {
jmitc91516 1:a5258871b33d 1552 return false;
jmitc91516 1:a5258871b33d 1553 }
jmitc91516 1:a5258871b33d 1554
jmitc91516 1:a5258871b33d 1555 if(gcResponse[2] != 'C') {
jmitc91516 1:a5258871b33d 1556 return false;
jmitc91516 1:a5258871b33d 1557 }
jmitc91516 1:a5258871b33d 1558
jmitc91516 1:a5258871b33d 1559 if(gcResponse[3] != 'K') {
jmitc91516 1:a5258871b33d 1560 return false;
jmitc91516 1:a5258871b33d 1561 }
jmitc91516 1:a5258871b33d 1562
jmitc91516 1:a5258871b33d 1563 // All the above were true
jmitc91516 1:a5258871b33d 1564 return true;
jmitc91516 1:a5258871b33d 1565 }
jmitc91516 1:a5258871b33d 1566
jmitc91516 1:a5258871b33d 1567
jmitc91516 1:a5258871b33d 1568 /*
jmitc91516 1:a5258871b33d 1569 Increment the run count recorded in the QSPI settings.
jmitc91516 1:a5258871b33d 1570
jmitc91516 1:a5258871b33d 1571 This would be called (for example) after the Run button has been pressed.
jmitc91516 1:a5258871b33d 1572 */
jmitc91516 1:a5258871b33d 1573 void IncrementRunCountInQSPISettings(void)
jmitc91516 0:47c880c1463d 1574 {
jmitc91516 1:a5258871b33d 1575 int runCount = SettingsHandler::GetIntegerValueFromQSPISettings("RunCount", 0);
jmitc91516 1:a5258871b33d 1576
jmitc91516 1:a5258871b33d 1577 // Debug prints
jmitc91516 1:a5258871b33d 1578 char dbg[100];
jmitc91516 1:a5258871b33d 1579 sprintf(dbg, "Run count read: %d", runCount);
jmitc91516 1:a5258871b33d 1580 EasyGUIDebugPrint(dbg, 500, 460);
jmitc91516 1:a5258871b33d 1581
jmitc91516 1:a5258871b33d 1582 SettingsHandler::DisplayQSPIDirectory(600, 250);
jmitc91516 1:a5258871b33d 1583 // End of debug prints
jmitc91516 1:a5258871b33d 1584
jmitc91516 1:a5258871b33d 1585 ++runCount;
jmitc91516 1:a5258871b33d 1586
jmitc91516 1:a5258871b33d 1587 SettingsHandler::PutIntegerValueToQSPISettings("RunCount", runCount);
jmitc91516 1:a5258871b33d 1588 }
jmitc91516 1:a5258871b33d 1589
jmitc91516 1:a5258871b33d 1590 /*
jmitc91516 1:a5258871b33d 1591 Update the values of all the easyGUI variables whose values are derived
jmitc91516 1:a5258871b33d 1592 from the run count. This should be called (for example) after
jmitc91516 1:a5258871b33d 1593 the Run button has been pressed.
jmitc91516 1:a5258871b33d 1594 */
jmitc91516 1:a5258871b33d 1595 void UpdateAllEasyGUIVariablesThatDependOnRunCount(void)
jmitc91516 1:a5258871b33d 1596 {
jmitc91516 1:a5258871b33d 1597 int runCount = SettingsHandler::GetIntegerValueFromQSPISettings("RunCount", 0);
jmitc91516 1:a5258871b33d 1598
jmitc91516 1:a5258871b33d 1599 int linerChangedRunCount = SettingsHandler::GetIntegerValueFromQSPISettings("RunCountWhenLinerChanged", 0);
jmitc91516 1:a5258871b33d 1600 sprintf(GuiVar_injectionCountSinceLinerChanged, "%d", (runCount - linerChangedRunCount));
jmitc91516 1:a5258871b33d 1601
jmitc91516 1:a5258871b33d 1602 int septaChangedRunCount = SettingsHandler::GetIntegerValueFromQSPISettings("RunCountWhenSeptaChanged", 0);
jmitc91516 1:a5258871b33d 1603 sprintf(GuiVar_injectionCountSinceSeptaChanged, "%d", (runCount - septaChangedRunCount));
jmitc91516 1:a5258871b33d 1604
jmitc91516 1:a5258871b33d 1605 int oRingChangedRunCount = SettingsHandler::GetIntegerValueFromQSPISettings("RunCountWhenOringChanged", 0);
jmitc91516 1:a5258871b33d 1606 sprintf(GuiVar_injectionCountSinceOringChanged, "%d", (runCount - oRingChangedRunCount));
jmitc91516 1:a5258871b33d 1607 }
jmitc91516 1:a5258871b33d 1608
jmitc91516 1:a5258871b33d 1609
jmitc91516 1:a5258871b33d 1610 /*
jmitc91516 1:a5258871b33d 1611 Sends the specified command to the GC.
jmitc91516 1:a5258871b33d 1612
jmitc91516 1:a5258871b33d 1613 This must be a "Sxxx" command, that only expects "DACK" or "DNAK" back,
jmitc91516 1:a5258871b33d 1614 not actual data.
jmitc91516 1:a5258871b33d 1615
jmitc91516 1:a5258871b33d 1616 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1617 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1618
jmitc91516 1:a5258871b33d 1619 Returns true if the GC returned "DACK" in response, false if it returned "DNAK".
jmitc91516 1:a5258871b33d 1620 */
jmitc91516 1:a5258871b33d 1621 bool SendAnyCommandToGC(char *cmd, USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1622 {
jmitc91516 1:a5258871b33d 1623 #define USE_GC_UTILS // Testing new class
jmitc91516 1:a5258871b33d 1624 #ifdef USE_GC_UTILS
jmitc91516 1:a5258871b33d 1625 return USBHostGCUtilities::SendCommandToGCWithDACKResponse(usbDevice, usbHostGC, cmd);
jmitc91516 1:a5258871b33d 1626 #else
jmitc91516 0:47c880c1463d 1627 while(usbHostGC->ExecutingSetDeviceReport()) {}
jmitc91516 0:47c880c1463d 1628
jmitc91516 0:47c880c1463d 1629 char response[50];
jmitc91516 1:a5258871b33d 1630 usbHostGC->SetDeviceReport(usbDevice, cmd, response);
jmitc91516 0:47c880c1463d 1631 // We expect a response like this: "DACK" for success, "DNAK" for failure
jmitc91516 0:47c880c1463d 1632
jmitc91516 0:47c880c1463d 1633 return (response[1] == 'A');
jmitc91516 1:a5258871b33d 1634 #endif // USE_GC_UTILS
jmitc91516 1:a5258871b33d 1635 }
jmitc91516 1:a5258871b33d 1636
jmitc91516 1:a5258871b33d 1637
jmitc91516 1:a5258871b33d 1638 /*
jmitc91516 1:a5258871b33d 1639 This function performs the "set up" operations required
jmitc91516 1:a5258871b33d 1640 when the GC starts running. It is intended to be called
jmitc91516 1:a5258871b33d 1641 whenever the GC starts running - note that this may happen
jmitc91516 1:a5258871b33d 1642 not only when the user presses our "Run" button, but if
jmitc91516 1:a5258871b33d 1643 he sends a "CRUN" command to the GC from the PC (e.g. using
jmitc91516 1:a5258871b33d 1644 Ellution), or if something triggers the "Run" pin
jmitc91516 1:a5258871b33d 1645 on the GC board itself (and that does not pass through
jmitc91516 1:a5258871b33d 1646 the LPC4088, so it cannot be detected directly by this software).
jmitc91516 1:a5258871b33d 1647
jmitc91516 1:a5258871b33d 1648 Args are: a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1649 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1650
jmitc91516 1:a5258871b33d 1651 No return code
jmitc91516 1:a5258871b33d 1652 */
jmitc91516 1:a5258871b33d 1653 void SetupForStartOfRun(USBDeviceConnected* usbDevice, USBHostGC* usbHostGC)
jmitc91516 1:a5258871b33d 1654 {
jmitc91516 1:a5258871b33d 1655 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 1656 getGCStatusLoop->SetGCIsRunning();
jmitc91516 1:a5258871b33d 1657 IncrementRunCountInQSPISettings();
jmitc91516 1:a5258871b33d 1658 UpdateAllEasyGUIVariablesThatDependOnRunCount();
jmitc91516 1:a5258871b33d 1659 getGCStatusLoop->UpdateGCMethodRunningProfiles();
jmitc91516 1:a5258871b33d 1660 getGCStatusLoop->SetRunningPage1ProgressBarToZero();
jmitc91516 1:a5258871b33d 1661 getGCStatusLoop->SetupTemperatureWhileRunningEasyGUIVariables();
jmitc91516 1:a5258871b33d 1662 DisplayEasyGuiStructure(GuiStruct_RunningPage1_7, usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1663 }
jmitc91516 0:47c880c1463d 1664 }
jmitc91516 0:47c880c1463d 1665
jmitc91516 1:a5258871b33d 1666
jmitc91516 6:dba3fbdfd5da 1667 static void RemoveUnitsFromEasyGUIStringIfFound(char* destination, GuiConst_TEXT* easyGUIString, const char* units)
jmitc91516 1:a5258871b33d 1668 {
jmitc91516 1:a5258871b33d 1669 strcpy(destination, easyGUIString);
jmitc91516 1:a5258871b33d 1670
jmitc91516 1:a5258871b33d 1671 int unitsLength = strlen(units);
jmitc91516 1:a5258871b33d 1672 int stringLength = strlen(destination);
jmitc91516 1:a5258871b33d 1673
jmitc91516 1:a5258871b33d 1674 if(strcmp(units, &destination[stringLength - unitsLength]) == 0) {
jmitc91516 1:a5258871b33d 1675 destination[stringLength - unitsLength] = '\0';
jmitc91516 1:a5258871b33d 1676 }
jmitc91516 1:a5258871b33d 1677 }
jmitc91516 1:a5258871b33d 1678
jmitc91516 1:a5258871b33d 1679
jmitc91516 1:a5258871b33d 1680 /*
jmitc91516 1:a5258871b33d 1681 This is the main function dealing with user interaction via the LPC4088 touch panel.
jmitc91516 1:a5258871b33d 1682 ************************************************************************************
jmitc91516 1:a5258871b33d 1683
jmitc91516 1:a5258871b33d 1684 It is (currently, until we rationalise this code) called by the GetGCStatusLoop code
jmitc91516 1:a5258871b33d 1685 that deals with touch events. (Ideally, we should move it into the GetGCStatusLoop class
jmitc91516 1:a5258871b33d 1686 at some point.)
jmitc91516 1:a5258871b33d 1687
jmitc91516 1:a5258871b33d 1688 Args are: the touch coordinates (x, y and z - we do not use the z coordinate)
jmitc91516 1:a5258871b33d 1689 a pointer to the USBHostGC instance that corresponds to the GC,
jmitc91516 1:a5258871b33d 1690 a pointer to the USBDeviceConnected instance that (also) corresponds to the GC
jmitc91516 1:a5258871b33d 1691 a count of timer ticks
jmitc91516 1:a5258871b33d 1692 a boolean set to true if the touch is 'new', false if not (a touch is 'new'
jmitc91516 1:a5258871b33d 1693 if it occurs after a period when the user appears not to have touched the screen).
jmitc91516 1:a5258871b33d 1694
jmitc91516 1:a5258871b33d 1695 Looks to see if the user has touched a defined easyGUI touch area, and responds accordingly.
jmitc91516 1:a5258871b33d 1696
jmitc91516 1:a5258871b33d 1697 No return code.
jmitc91516 1:a5258871b33d 1698
jmitc91516 1:a5258871b33d 1699 See EasyGUITouchAreaIndices.h for the touch area index values.
jmitc91516 1:a5258871b33d 1700 */
jmitc91516 0:47c880c1463d 1701 void TouchCallback(touch_coordinate_t touchCoords, USBDeviceConnected* usbDevice, USBHostGC* usbHostGC, int tickCount, bool newTouch)
jmitc91516 0:47c880c1463d 1702 {
jmitc91516 1:a5258871b33d 1703 EasyGUIDebugPrintWithCounter("TouchCallback 0 ", 500, 440);
jmitc91516 1:a5258871b33d 1704
jmitc91516 0:47c880c1463d 1705 GuiConst_INT32S touchAreaIndex = GuiLib_TouchCheck((GuiConst_INT16S)touchCoords.x, (GuiConst_INT16S)touchCoords.y);
jmitc91516 0:47c880c1463d 1706
jmitc91516 1:a5258871b33d 1707 EasyGUIDebugPrintWithCounter("TouchCallback 1 ", 500, 440);
jmitc91516 1:a5258871b33d 1708
jmitc91516 0:47c880c1463d 1709 if(touchAreaIndex >= 0) {
jmitc91516 1:a5258871b33d 1710
jmitc91516 1:a5258871b33d 1711 //#define ALLOW_DEBUG_PRINTS_HERE
jmitc91516 1:a5258871b33d 1712 #ifdef ALLOW_DEBUG_PRINTS_HERE
jmitc91516 1:a5258871b33d 1713 char buff[300];
jmitc91516 1:a5258871b33d 1714 sprintf(buff, "tAI: %d", touchAreaIndex);
jmitc91516 1:a5258871b33d 1715 SpecialDebugPrint(buff, 150, 410);
jmitc91516 1:a5258871b33d 1716 #undef ALLOW_DEBUG_PRINTS_HERE
jmitc91516 1:a5258871b33d 1717 #endif // ALLOW_DEBUG_PRINTS_HERE
jmitc91516 1:a5258871b33d 1718
jmitc91516 0:47c880c1463d 1719 bool dealtWithTouch = false;
jmitc91516 0:47c880c1463d 1720
jmitc91516 0:47c880c1463d 1721 // page selector?
jmitc91516 0:47c880c1463d 1722 TouchPanelPageSelector* touchPanelPageSelector = touchPanelPageSelectors.GetTouchPanelPageSelector(touchAreaIndex);
jmitc91516 0:47c880c1463d 1723
jmitc91516 0:47c880c1463d 1724 if( touchPanelPageSelector != NULL) {
jmitc91516 1:a5258871b33d 1725
jmitc91516 1:a5258871b33d 1726 // User has touched a page selector
jmitc91516 1:a5258871b33d 1727 // ********************************
jmitc91516 1:a5258871b33d 1728
jmitc91516 0:47c880c1463d 1729 // Do not keep switching pages if the user keeps 'touching' -
jmitc91516 0:47c880c1463d 1730 // switch only if he 'lets go', then presses again
jmitc91516 0:47c880c1463d 1731 if(newTouch) {
jmitc91516 1:a5258871b33d 1732
jmitc91516 1:a5258871b33d 1733 // Depending on the touch area, we may need to do extra stuff here
jmitc91516 1:a5258871b33d 1734 // before displaying the appropriate page
jmitc91516 0:47c880c1463d 1735
jmitc91516 1:a5258871b33d 1736 if(touchAreaIndex == GAS_SAVER_RETURN_TO_READY) {
jmitc91516 0:47c880c1463d 1737 // Take GC out of standby mode
jmitc91516 0:47c880c1463d 1738 ExitGCStandbyMode(usbDevice, usbHostGC);
jmitc91516 0:47c880c1463d 1739 }
jmitc91516 0:47c880c1463d 1740
jmitc91516 1:a5258871b33d 1741 if(touchAreaIndex == CLEAR_ERRORS_BUTTON) {
jmitc91516 0:47c880c1463d 1742 // Take GC out of error state
jmitc91516 0:47c880c1463d 1743 ClearGCErrors(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1744
jmitc91516 1:a5258871b33d 1745 // Make sure the component status rectangles change colour immediately,
jmitc91516 1:a5258871b33d 1746 // not after ~10 seconds
jmitc91516 1:a5258871b33d 1747 if(getGCStatusLoop != NULL) {
jmitc91516 1:a5258871b33d 1748 getGCStatusLoop->UpdateHomePageGCComponentStatusColorAreas();
jmitc91516 1:a5258871b33d 1749
jmitc91516 1:a5258871b33d 1750 getGCStatusLoop->UpdateSingleGCComponentPageStatusColorArea(COLUMN);
jmitc91516 1:a5258871b33d 1751 getGCStatusLoop->UpdateSingleGCComponentPageStatusColorArea(INJECTOR);
jmitc91516 1:a5258871b33d 1752 getGCStatusLoop->UpdateSingleGCComponentPageStatusColorArea(DETECTOR);
jmitc91516 1:a5258871b33d 1753 getGCStatusLoop->UpdateSingleGCComponentPageStatusColorArea(GAS);
jmitc91516 1:a5258871b33d 1754 }
jmitc91516 0:47c880c1463d 1755 }
jmitc91516 0:47c880c1463d 1756
jmitc91516 1:a5258871b33d 1757 if(touchAreaIndex == ABORT_RUN_YES) {
jmitc91516 1:a5258871b33d 1758
jmitc91516 1:a5258871b33d 1759 // Abort Run request confirmed
jmitc91516 1:a5258871b33d 1760
jmitc91516 1:a5258871b33d 1761 //#define DEBUG_PRINT_ON_FAILURE
jmitc91516 1:a5258871b33d 1762 #ifdef DEBUG_PRINT_ON_FAILURE
jmitc91516 1:a5258871b33d 1763 if(!StopGCRun(usbDevice, usbHostGC)) {
jmitc91516 1:a5258871b33d 1764 SpecialDebugPrint("*** StopGCRun failed ***", 150, 430);
jmitc91516 1:a5258871b33d 1765 }
jmitc91516 1:a5258871b33d 1766 #undef DEBUG_PRINT_ON_FAILURE
jmitc91516 1:a5258871b33d 1767 #else
jmitc91516 1:a5258871b33d 1768 StopGCRun(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1769 #endif // DEBUG_PRINT_ON_FAILURE
jmitc91516 1:a5258871b33d 1770
jmitc91516 1:a5258871b33d 1771 getGCStatusLoop->ClearGCIsRunning();
jmitc91516 1:a5258871b33d 1772
jmitc91516 1:a5258871b33d 1773 #ifdef SERVICE_INTERVALS_ACTIVE
jmitc91516 1:a5258871b33d 1774 ServiceInterval::TellAllServiceIntervalsInstrumentHasCycled();
jmitc91516 1:a5258871b33d 1775 #endif // SERVICE_INTERVALS_ACTIVE
jmitc91516 1:a5258871b33d 1776
jmitc91516 1:a5258871b33d 1777 #ifdef TURN_HEAT_OFF_ON_ABORT
jmitc91516 1:a5258871b33d 1778 // Turn heat off
jmitc91516 1:a5258871b33d 1779 if(heatOnOffAvailable) {
jmitc91516 1:a5258871b33d 1780 if(theGCHeatControl != NULL) {
jmitc91516 1:a5258871b33d 1781 if(theGCHeatControl->IsHeatOn()) {
jmitc91516 1:a5258871b33d 1782 theGCHeatControl->TurnHeatOff();
jmitc91516 1:a5258871b33d 1783 #ifdef USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 1:a5258871b33d 1784 DrawHeatOnOffButton();
jmitc91516 1:a5258871b33d 1785 #else
jmitc91516 1:a5258871b33d 1786 UpdateHeatOnOffEasyGuiVariable();
jmitc91516 1:a5258871b33d 1787 #endif // USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 1:a5258871b33d 1788 }
jmitc91516 1:a5258871b33d 1789
jmitc91516 1:a5258871b33d 1790 StartHeatOnOffTimeout();
jmitc91516 1:a5258871b33d 1791 }
jmitc91516 1:a5258871b33d 1792 }
jmitc91516 1:a5258871b33d 1793 #endif // TURN_HEAT_OFF_ON_ABORT
jmitc91516 1:a5258871b33d 1794 }
jmitc91516 1:a5258871b33d 1795
jmitc91516 1:a5258871b33d 1796 if(touchAreaIndex == SETTINGS_TO_NETWORK_PARAMS_BUTTON) {
jmitc91516 1:a5258871b33d 1797 // We are about to display the Network Parameters page - so tell the class
jmitc91516 1:a5258871b33d 1798 // to display the real IP address, etc - i.e. the values we are actually using
jmitc91516 1:a5258871b33d 1799 NetworkParameters *networkParameters = NetworkParameters::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1800 if(networkParameters != NULL) {
jmitc91516 1:a5258871b33d 1801 networkParameters->RestoreRealValues();
jmitc91516 1:a5258871b33d 1802 }
jmitc91516 1:a5258871b33d 1803 }
jmitc91516 1:a5258871b33d 1804
jmitc91516 1:a5258871b33d 1805 if(touchAreaIndex == SETTINGS_TO_SERVICING_PAGE_BUTTON) {
jmitc91516 1:a5258871b33d 1806 strcpy(GuiVar_engineersLockCodeMessage, "No lock code entered");
jmitc91516 1:a5258871b33d 1807 }
jmitc91516 1:a5258871b33d 1808
jmitc91516 1:a5258871b33d 1809 if(touchAreaIndex == SERVICING_PAGE_GC_CMDS_BUTTON ) {
jmitc91516 1:a5258871b33d 1810 // Clear the easyGUI variables that display the command and the response
jmitc91516 1:a5258871b33d 1811 GuiVar_debugCommandTx[0] = '\0';
jmitc91516 1:a5258871b33d 1812 GuiVar_debugCommandRx[0] = '\0';
jmitc91516 1:a5258871b33d 1813 }
jmitc91516 1:a5258871b33d 1814
jmitc91516 1:a5258871b33d 1815 if(touchPanelPageSelector->CanChangePage()) {
jmitc91516 1:a5258871b33d 1816 DisplayEasyGuiStructure(touchPanelPageSelector->GetPageNumber(usbDevice, usbHostGC), usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1817 }
jmitc91516 0:47c880c1463d 1818 }
jmitc91516 1:a5258871b33d 1819
jmitc91516 0:47c880c1463d 1820 dealtWithTouch = true; // The user touched a page selector, so we have still 'dealt' with this,
jmitc91516 0:47c880c1463d 1821 // whether we had a 'new touch' or not
jmitc91516 1:a5258871b33d 1822 } // TouchPanelPageSelector
jmitc91516 0:47c880c1463d 1823
jmitc91516 0:47c880c1463d 1824 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1825
jmitc91516 1:a5258871b33d 1826 if(touchAreaIndex == RUN_BUTTON) {
jmitc91516 0:47c880c1463d 1827 if(newTouch) { // As above - do not do this repeatedly - GC does not like it...
jmitc91516 1:a5258871b33d 1828
jmitc91516 1:a5258871b33d 1829 EasyGUIDebugPrintWithCounter("TouchCallback 4.1 ", 500, 440);
jmitc91516 1:a5258871b33d 1830
jmitc91516 0:47c880c1463d 1831 if(GCIsReadyToRun(usbDevice, usbHostGC)) {
jmitc91516 1:a5258871b33d 1832 // Start run - if this works, display the 'Run' page, etc, else do nothing
jmitc91516 0:47c880c1463d 1833 if(StartGCRun(usbDevice, usbHostGC)) {
jmitc91516 1:a5258871b33d 1834 SetupForStartOfRun(usbDevice, usbHostGC);
jmitc91516 0:47c880c1463d 1835 } else {
jmitc91516 0:47c880c1463d 1836 DrawErrorMessage("*** Run failed to start ***");
jmitc91516 0:47c880c1463d 1837
jmitc91516 0:47c880c1463d 1838 // Give user time to read error, then erase it
jmitc91516 0:47c880c1463d 1839 Thread::wait(2000);
jmitc91516 0:47c880c1463d 1840
jmitc91516 0:47c880c1463d 1841 DisplayEasyGuiStructure(GuiStruct_HomePage_1, usbDevice, usbHostGC);
jmitc91516 0:47c880c1463d 1842 }
jmitc91516 1:a5258871b33d 1843 } else {
jmitc91516 1:a5258871b33d 1844 // GC is not ready to run - tell the user why
jmitc91516 1:a5258871b33d 1845 getGCStatusLoop->SetupGCNotReadyStateEasyGUIVariable();
jmitc91516 1:a5258871b33d 1846
jmitc91516 1:a5258871b33d 1847 DisplayEasyGuiStructure(GuiStruct_GCNotReadyToRunPage_Def, usbDevice, usbHostGC);
jmitc91516 0:47c880c1463d 1848 }
jmitc91516 0:47c880c1463d 1849 }
jmitc91516 0:47c880c1463d 1850
jmitc91516 0:47c880c1463d 1851 dealtWithTouch = true;
jmitc91516 0:47c880c1463d 1852 }
jmitc91516 1:a5258871b33d 1853 } // Run button
jmitc91516 0:47c880c1463d 1854
jmitc91516 0:47c880c1463d 1855 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1856
jmitc91516 1:a5258871b33d 1857 if(touchAreaIndex == HEAT_ON_BUTTON) { // Heat on/off button
jmitc91516 0:47c880c1463d 1858 if(newTouch) { // As above - do not do this repeatedly - GC does not like it...
jmitc91516 0:47c880c1463d 1859 if(heatOnOffAvailable) {
jmitc91516 0:47c880c1463d 1860 if(theGCHeatControl != NULL) {
jmitc91516 0:47c880c1463d 1861 if(theGCHeatControl->IsHeatOn()) {
jmitc91516 0:47c880c1463d 1862 theGCHeatControl->TurnHeatOff();
jmitc91516 0:47c880c1463d 1863 } else {
jmitc91516 0:47c880c1463d 1864 theGCHeatControl->TurnHeatOn();
jmitc91516 0:47c880c1463d 1865 }
jmitc91516 1:a5258871b33d 1866 #ifdef USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 1:a5258871b33d 1867 // If we do not do this first, we do not see the bitmap change on the button
jmitc91516 1:a5258871b33d 1868 // (I don't understand why...)
jmitc91516 1:a5258871b33d 1869 DisplayEasyGuiStructure(GuiStruct_HomePage_1, usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1870 DrawHeatOnOffButton();
jmitc91516 1:a5258871b33d 1871 #else
jmitc91516 0:47c880c1463d 1872 UpdateHeatOnOffEasyGuiVariable();
jmitc91516 0:47c880c1463d 1873 // Make GuiVar_heatOnOffCommand update visible on screen
jmitc91516 0:47c880c1463d 1874 DisplayEasyGuiStructure(GuiStruct_HomePage_1, usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1875 #endif // USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 0:47c880c1463d 1876
jmitc91516 0:47c880c1463d 1877 StartHeatOnOffTimeout();
jmitc91516 1:a5258871b33d 1878
jmitc91516 1:a5258871b33d 1879 // Update the door lock/unlock command colour
jmitc91516 1:a5258871b33d 1880 // *before* we display the column page(s)
jmitc91516 1:a5258871b33d 1881 SetupDoorActuatorCommandColour(usbDevice, usbHostGC, false);
jmitc91516 0:47c880c1463d 1882 }
jmitc91516 0:47c880c1463d 1883 }
jmitc91516 0:47c880c1463d 1884 }
jmitc91516 0:47c880c1463d 1885
jmitc91516 0:47c880c1463d 1886 // Whether we changed the heat or not, the user still 'touched' our area,
jmitc91516 0:47c880c1463d 1887 // so no-one else should try and deal with this touch
jmitc91516 0:47c880c1463d 1888 dealtWithTouch = true;
jmitc91516 0:47c880c1463d 1889 }
jmitc91516 1:a5258871b33d 1890 } // Heat ON/Off button
jmitc91516 1:a5258871b33d 1891
jmitc91516 1:a5258871b33d 1892 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1893
jmitc91516 1:a5258871b33d 1894 if((touchAreaIndex == COLUMN_PAGE1_EDIT_COLUMN_MAX_TEMP) ||
jmitc91516 4:6840cf2b153a 1895 (touchAreaIndex == COLUMN_DH_PAGE1_EDIT_COLUMN_MAX_TEMP) ||
jmitc91516 4:6840cf2b153a 1896 (touchAreaIndex == COLUMN_PAGE2_EDIT_COLUMN_MAX_TEMP)) {
jmitc91516 1:a5258871b33d 1897
jmitc91516 1:a5258871b33d 1898 NumericKeypadPageHandler* numericKeypadPageHandler = NumericKeypadPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1899 if(numericKeypadPageHandler != NULL) {
jmitc91516 1:a5258871b33d 1900
jmitc91516 6:dba3fbdfd5da 1901 // Remove units from the initial value to be displayed in the keypad
jmitc91516 1:a5258871b33d 1902 char temp[50];
jmitc91516 6:dba3fbdfd5da 1903 RemoveUnitsFromEasyGUIStringIfFound(temp, GuiVar_columnMaxTemp2, GetGCStatusLoop::GetDegCUnitsWithSpace());
jmitc91516 4:6840cf2b153a 1904 int easyGUICallingPage = GuiStruct_ColumnPage1_2;
jmitc91516 5:aceac1035d71 1905 if (touchAreaIndex == COLUMN_PAGE2_EDIT_COLUMN_MAX_TEMP) {
jmitc91516 4:6840cf2b153a 1906 easyGUICallingPage = GuiStruct_ColumnPage2_9;
jmitc91516 4:6840cf2b153a 1907 }
jmitc91516 4:6840cf2b153a 1908
jmitc91516 1:a5258871b33d 1909 numericKeypadPageHandler->StartEditing(temp);
jmitc91516 1:a5258871b33d 1910 numericKeypadPageHandler->SetEasyGUIVariableToEdit(GuiVar_columnMaxTemp2);
jmitc91516 4:6840cf2b153a 1911 numericKeypadPageHandler->SetEasyGUICallingPage(easyGUICallingPage);
jmitc91516 1:a5258871b33d 1912 numericKeypadPageHandler->SetEditVariableRange(0, 500);
jmitc91516 1:a5258871b33d 1913 numericKeypadPageHandler->SetEditVariableName("Col. Max Temp");
jmitc91516 6:dba3fbdfd5da 1914 numericKeypadPageHandler->SetEditVariableUnits(GetGCStatusLoop::GetDegCUnitsWithoutSpace());
jmitc91516 1:a5258871b33d 1915 numericKeypadPageHandler->SetApplyFunctionPtr(&SetColumnMaxTempFromEasyGuiVariable);
jmitc91516 1:a5258871b33d 1916 numericKeypadPageHandler->DisplayEasyGUIPage();
jmitc91516 1:a5258871b33d 1917 }
jmitc91516 1:a5258871b33d 1918
jmitc91516 1:a5258871b33d 1919 dealtWithTouch = true;
jmitc91516 1:a5258871b33d 1920 }
jmitc91516 0:47c880c1463d 1921 }
jmitc91516 1:a5258871b33d 1922
jmitc91516 1:a5258871b33d 1923 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1924
jmitc91516 1:a5258871b33d 1925 if(touchAreaIndex == ENTER_ENGINEERS_LOCK_CODE) {
jmitc91516 1:a5258871b33d 1926
jmitc91516 1:a5258871b33d 1927 NumericKeypadPageHandler* numericKeypadPageHandler = NumericKeypadPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1928 if(numericKeypadPageHandler != NULL) {
jmitc91516 1:a5258871b33d 1929 numericKeypadPageHandler->StartEditingInLockMode(842, GuiStruct_ServicingHomePage_Def, GuiVar_engineersLockCodeMessage, "Invalid lock code");
jmitc91516 1:a5258871b33d 1930 numericKeypadPageHandler->SetEasyGUICallingPage(GuiStruct_EngineersLockPage_Def);
jmitc91516 1:a5258871b33d 1931 numericKeypadPageHandler->SetEditVariableRange(0, 32767);
jmitc91516 1:a5258871b33d 1932 numericKeypadPageHandler->SetEditVariableName("Lock Code");
jmitc91516 1:a5258871b33d 1933 numericKeypadPageHandler->DisplayEasyGUIPage();
jmitc91516 1:a5258871b33d 1934 }
jmitc91516 1:a5258871b33d 1935
jmitc91516 1:a5258871b33d 1936 dealtWithTouch = true;
jmitc91516 1:a5258871b33d 1937 }
jmitc91516 1:a5258871b33d 1938 }
jmitc91516 1:a5258871b33d 1939
jmitc91516 1:a5258871b33d 1940 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1941
jmitc91516 1:a5258871b33d 1942 if((touchAreaIndex == DOOR_ACTUATOR_AREA_1) || (touchAreaIndex == DOOR_ACTUATOR_AREA_2)) {
jmitc91516 1:a5258871b33d 1943 DealWithDoorActuatorButtons(touchAreaIndex, usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1944
jmitc91516 1:a5258871b33d 1945 dealtWithTouch = true;
jmitc91516 1:a5258871b33d 1946 }
jmitc91516 1:a5258871b33d 1947 } // Open door
jmitc91516 1:a5258871b33d 1948
jmitc91516 1:a5258871b33d 1949 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1950 NetworkParameters *networkParameters = NetworkParameters::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1951
jmitc91516 1:a5258871b33d 1952 if(networkParameters != NULL) {
jmitc91516 1:a5258871b33d 1953
jmitc91516 1:a5258871b33d 1954 if(networkParameters->TouchAreaIsNetworkParameter(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 1955
jmitc91516 1:a5258871b33d 1956 networkParameters->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 1957
jmitc91516 1:a5258871b33d 1958 dealtWithTouch = true;
jmitc91516 1:a5258871b33d 1959 }
jmitc91516 1:a5258871b33d 1960 }
jmitc91516 1:a5258871b33d 1961 } // Network parameter
jmitc91516 1:a5258871b33d 1962
jmitc91516 1:a5258871b33d 1963 #define USE_GAS_CALIBRATION_PAGE_HANDLER
jmitc91516 1:a5258871b33d 1964 #ifdef USE_GAS_CALIBRATION_PAGE_HANDLER
jmitc91516 1:a5258871b33d 1965 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1966 GasCalibrationPageHandler *gasCalibrationPageHandler = GasCalibrationPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1967
jmitc91516 1:a5258871b33d 1968 if(gasCalibrationPageHandler != NULL) {
jmitc91516 1:a5258871b33d 1969
jmitc91516 1:a5258871b33d 1970 if(gasCalibrationPageHandler->TouchAreaIsOnCalibrationPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 1971
jmitc91516 1:a5258871b33d 1972 dealtWithTouch = gasCalibrationPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 1973 }
jmitc91516 1:a5258871b33d 1974 }
jmitc91516 1:a5258871b33d 1975 } // Touch area on Gas Calibration page
jmitc91516 1:a5258871b33d 1976 #undef USE_GAS_CALIBRATION_PAGE_HANDLER
jmitc91516 1:a5258871b33d 1977 #endif // USE_GAS_CALIBRATION_PAGE_HANDLER
jmitc91516 1:a5258871b33d 1978
jmitc91516 1:a5258871b33d 1979 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1980 ColumnDHAutoCalibrationPageHandler *columnDHAutoCalibrationPageHandler = ColumnDHAutoCalibrationPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1981
jmitc91516 1:a5258871b33d 1982 if(columnDHAutoCalibrationPageHandler != NULL) {
jmitc91516 1:a5258871b33d 1983
jmitc91516 1:a5258871b33d 1984 if(columnDHAutoCalibrationPageHandler->TouchAreaIsOnCalibrationPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 1985
jmitc91516 1:a5258871b33d 1986 dealtWithTouch = columnDHAutoCalibrationPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 1987 }
jmitc91516 1:a5258871b33d 1988 }
jmitc91516 1:a5258871b33d 1989 } // Touch area on DH Column Auto Calibration page
jmitc91516 1:a5258871b33d 1990
jmitc91516 1:a5258871b33d 1991 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 1992 ColumnDHManualCalibrationPageHandler *columnDHManualCalibrationPageHandler = ColumnDHManualCalibrationPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 1993
jmitc91516 1:a5258871b33d 1994 if(columnDHManualCalibrationPageHandler != NULL) {
jmitc91516 1:a5258871b33d 1995
jmitc91516 1:a5258871b33d 1996 if(columnDHManualCalibrationPageHandler->TouchAreaIsOnCalibrationPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 1997
jmitc91516 1:a5258871b33d 1998 dealtWithTouch = columnDHManualCalibrationPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 1999 }
jmitc91516 1:a5258871b33d 2000 }
jmitc91516 1:a5258871b33d 2001 } // Touch area on DH Column Manual Calibration page
jmitc91516 1:a5258871b33d 2002
jmitc91516 1:a5258871b33d 2003 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2004 ColumnDHSensorCalibrationPageHandler *columnDHSensorCalibrationPageHandler = ColumnDHSensorCalibrationPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2005
jmitc91516 1:a5258871b33d 2006 if(columnDHSensorCalibrationPageHandler != NULL) {
jmitc91516 1:a5258871b33d 2007
jmitc91516 1:a5258871b33d 2008 if(columnDHSensorCalibrationPageHandler->TouchAreaIsOnCalibrationPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2009
jmitc91516 1:a5258871b33d 2010 dealtWithTouch = columnDHSensorCalibrationPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2011 }
jmitc91516 1:a5258871b33d 2012 }
jmitc91516 1:a5258871b33d 2013 } // Touch area on DH Column Sensor Calibration page
jmitc91516 1:a5258871b33d 2014
jmitc91516 1:a5258871b33d 2015 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2016 ColumnDHPSUDACPageHandler *columnDHPSUDACPageHandler = ColumnDHPSUDACPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2017
jmitc91516 1:a5258871b33d 2018 if(columnDHPSUDACPageHandler != NULL) {
jmitc91516 1:a5258871b33d 2019
jmitc91516 1:a5258871b33d 2020 if(columnDHPSUDACPageHandler->TouchAreaIsOnPSUDACPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2021
jmitc91516 1:a5258871b33d 2022 dealtWithTouch = columnDHPSUDACPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2023 }
jmitc91516 1:a5258871b33d 2024 }
jmitc91516 1:a5258871b33d 2025 } // Touch area on DH PSU DAC page
jmitc91516 1:a5258871b33d 2026
jmitc91516 1:a5258871b33d 2027 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2028 NudgeAndDampPageHandler *nudgeAndDampPageHandler = NudgeAndDampPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2029
jmitc91516 1:a5258871b33d 2030 if(nudgeAndDampPageHandler != NULL) {
jmitc91516 1:a5258871b33d 2031
jmitc91516 1:a5258871b33d 2032 if(nudgeAndDampPageHandler->TouchAreaIsOnNudgeAndDampPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2033
jmitc91516 1:a5258871b33d 2034 dealtWithTouch = nudgeAndDampPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2035 }
jmitc91516 1:a5258871b33d 2036 }
jmitc91516 1:a5258871b33d 2037 } // Touch area on one of the Nudge and Damp pages
jmitc91516 1:a5258871b33d 2038
jmitc91516 1:a5258871b33d 2039 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2040 DebugCommandsPageHandler *debugCommandsPageHandler = DebugCommandsPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2041
jmitc91516 1:a5258871b33d 2042 if(debugCommandsPageHandler != NULL) {
jmitc91516 1:a5258871b33d 2043
jmitc91516 1:a5258871b33d 2044 if(debugCommandsPageHandler->TouchAreaIsOnDebugCommandsPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2045
jmitc91516 1:a5258871b33d 2046 dealtWithTouch = debugCommandsPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2047 }
jmitc91516 1:a5258871b33d 2048 }
jmitc91516 1:a5258871b33d 2049 } // Touch area on the GC (Debug) Commands page
jmitc91516 1:a5258871b33d 2050
jmitc91516 1:a5258871b33d 2051 if(!dealtWithTouch) { // Try Column Oven Fan page - no 'PageHandler' class for this -
jmitc91516 1:a5258871b33d 2052 // trivial - only two touch areas/buttons, each of which simply sends
jmitc91516 1:a5258871b33d 2053 // a command (without arguments) to the GC - no values displayed
jmitc91516 1:a5258871b33d 2054 if(touchAreaIndex == COLUMN_OVEN_FAN_NORMAL) {
jmitc91516 1:a5258871b33d 2055 ExecuteGCCommand("CFNO",usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2056 dealtWithTouch = true;
jmitc91516 1:a5258871b33d 2057 } else if(touchAreaIndex == COLUMN_OVEN_FAN_COOLING) {
jmitc91516 1:a5258871b33d 2058 ExecuteGCCommand("CFCO",usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2059 dealtWithTouch = true;
jmitc91516 1:a5258871b33d 2060 }
jmitc91516 1:a5258871b33d 2061 }
jmitc91516 1:a5258871b33d 2062
jmitc91516 1:a5258871b33d 2063 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2064 GasBackPressureDACPageHandler *gasBackPressureDACPageHandler = GasBackPressureDACPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2065
jmitc91516 1:a5258871b33d 2066 if(gasBackPressureDACPageHandler != NULL) {
jmitc91516 1:a5258871b33d 2067
jmitc91516 1:a5258871b33d 2068 if(gasBackPressureDACPageHandler->TouchAreaIsOnGasBackPressureDACPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2069
jmitc91516 1:a5258871b33d 2070 dealtWithTouch = gasBackPressureDACPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2071 }
jmitc91516 1:a5258871b33d 2072 }
jmitc91516 1:a5258871b33d 2073 } // Touch area on Gas Backpressure DAC page
jmitc91516 1:a5258871b33d 2074
jmitc91516 1:a5258871b33d 2075 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2076 GasChannelDACAndADCPageHandler *gasChannelDACAndADCPageHandler = GasChannelDACAndADCPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2077
jmitc91516 1:a5258871b33d 2078 if(gasChannelDACAndADCPageHandler != NULL) {
jmitc91516 1:a5258871b33d 2079
jmitc91516 1:a5258871b33d 2080 if(gasChannelDACAndADCPageHandler->TouchAreaIsOnGasChannelDACAndADCPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2081
jmitc91516 1:a5258871b33d 2082 dealtWithTouch = gasChannelDACAndADCPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2083 }
jmitc91516 1:a5258871b33d 2084 }
jmitc91516 1:a5258871b33d 2085 } // Touch area on Gas channel DAC and ADC page
jmitc91516 1:a5258871b33d 2086
jmitc91516 1:a5258871b33d 2087 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2088 NumericKeypadPageHandler *numericKeypadPageHandler = NumericKeypadPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2089
jmitc91516 1:a5258871b33d 2090 if(numericKeypadPageHandler != NULL) {
jmitc91516 1:a5258871b33d 2091
jmitc91516 1:a5258871b33d 2092 if(numericKeypadPageHandler->TouchAreaIsOnNumericKeypadPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2093
jmitc91516 1:a5258871b33d 2094 dealtWithTouch = numericKeypadPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2095 }
jmitc91516 1:a5258871b33d 2096 }
jmitc91516 1:a5258871b33d 2097 } // Touch area on numeric keypad page
jmitc91516 1:a5258871b33d 2098
jmitc91516 1:a5258871b33d 2099 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2100 EthernetKeypadPageHandler *ethernetKeypadPageHandler = EthernetKeypadPageHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2101
jmitc91516 1:a5258871b33d 2102 if(ethernetKeypadPageHandler != NULL) {
jmitc91516 1:a5258871b33d 2103
jmitc91516 1:a5258871b33d 2104 if(ethernetKeypadPageHandler->TouchAreaIsOnEthernetKeypadPage(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2105
jmitc91516 1:a5258871b33d 2106 dealtWithTouch = ethernetKeypadPageHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2107 }
jmitc91516 1:a5258871b33d 2108 }
jmitc91516 1:a5258871b33d 2109 } // Touch area on numeric keypad page
jmitc91516 1:a5258871b33d 2110
jmitc91516 1:a5258871b33d 2111 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2112
jmitc91516 1:a5258871b33d 2113 DetectorIgnitionHandler *detectorIgnitionHandler = DetectorIgnitionHandler::GetInstance(usbDevice, usbHostGC);
jmitc91516 1:a5258871b33d 2114
jmitc91516 1:a5258871b33d 2115 if(detectorIgnitionHandler != NULL) {
jmitc91516 1:a5258871b33d 2116
jmitc91516 1:a5258871b33d 2117 if(detectorIgnitionHandler->TouchAreaIsDetectorIgniteButton(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2118
jmitc91516 1:a5258871b33d 2119 dealtWithTouch = detectorIgnitionHandler->DealWithTouch(touchAreaIndex);
jmitc91516 1:a5258871b33d 2120 }
jmitc91516 1:a5258871b33d 2121 }
jmitc91516 1:a5258871b33d 2122 } // Handling detector ignition
jmitc91516 1:a5258871b33d 2123
jmitc91516 1:a5258871b33d 2124 if(!dealtWithTouch) {
jmitc91516 1:a5258871b33d 2125 #ifdef SERVICE_INTERVALS_ACTIVE
jmitc91516 1:a5258871b33d 2126 if(ServiceInterval::IsServicedTouchArea(touchAreaIndex)) {
jmitc91516 1:a5258871b33d 2127
jmitc91516 1:a5258871b33d 2128 ServiceInterval::DealWithServicedTouchArea(touchAreaIndex);
jmitc91516 1:a5258871b33d 2129
jmitc91516 1:a5258871b33d 2130 // This is a ServiceInterval touch area -
jmitc91516 1:a5258871b33d 2131 // nothing else can deal with it,
jmitc91516 1:a5258871b33d 2132 // whether we actually did anything or not
jmitc91516 1:a5258871b33d 2133 dealtWithTouch = true;
jmitc91516 1:a5258871b33d 2134 }
jmitc91516 1:a5258871b33d 2135 #endif // SERVICE_INTERVALS_ACTIVE
jmitc91516 1:a5258871b33d 2136 } // Service interval
jmitc91516 6:dba3fbdfd5da 2137
jmitc91516 6:dba3fbdfd5da 2138 if(!dealtWithTouch) {
jmitc91516 6:dba3fbdfd5da 2139 if(touchAreaIndex == COLUMN_METHOD_SCROLL_UP) {
jmitc91516 6:dba3fbdfd5da 2140 getGCStatusLoop->ScrollColumnMethodRampsUpIfPossible();
jmitc91516 6:dba3fbdfd5da 2141 dealtWithTouch = true;
jmitc91516 6:dba3fbdfd5da 2142 } else if(touchAreaIndex == COLUMN_METHOD_SCROLL_DOWN) {
jmitc91516 6:dba3fbdfd5da 2143 getGCStatusLoop->ScrollColumnMethodRampsDownIfPossible();
jmitc91516 6:dba3fbdfd5da 2144 dealtWithTouch = true;
jmitc91516 6:dba3fbdfd5da 2145 } else if(touchAreaIndex == INJECTOR_METHOD_SCROLL_UP) {
jmitc91516 6:dba3fbdfd5da 2146 getGCStatusLoop->ScrollInjectorMethodRampsUpIfPossible();
jmitc91516 6:dba3fbdfd5da 2147 dealtWithTouch = true;
jmitc91516 6:dba3fbdfd5da 2148 } else if(touchAreaIndex == INJECTOR_METHOD_SCROLL_DOWN) {
jmitc91516 6:dba3fbdfd5da 2149 getGCStatusLoop->ScrollInjectorMethodRampsDownIfPossible();
jmitc91516 6:dba3fbdfd5da 2150 dealtWithTouch = true;
jmitc91516 7:f0e645cf73a2 2151 } else if(touchAreaIndex == GAS_METHOD_SCROLL_UP) {
jmitc91516 7:f0e645cf73a2 2152 getGCStatusLoop->ScrollGasMethodRampsUpIfPossible();
jmitc91516 7:f0e645cf73a2 2153 dealtWithTouch = true;
jmitc91516 7:f0e645cf73a2 2154 } else if(touchAreaIndex == GAS_METHOD_SCROLL_DOWN) {
jmitc91516 7:f0e645cf73a2 2155 getGCStatusLoop->ScrollGasMethodRampsDownIfPossible();
jmitc91516 7:f0e645cf73a2 2156 dealtWithTouch = true;
jmitc91516 6:dba3fbdfd5da 2157 }
jmitc91516 6:dba3fbdfd5da 2158 }
jmitc91516 0:47c880c1463d 2159 }
jmitc91516 0:47c880c1463d 2160 }
jmitc91516 0:47c880c1463d 2161
jmitc91516 1:a5258871b33d 2162
jmitc91516 1:a5258871b33d 2163 /*
jmitc91516 1:a5258871b33d 2164 Waits (indefinitely) for a USB device to be connected -
jmitc91516 1:a5258871b33d 2165 note that, if there is no USB device, we will hang at this point -
jmitc91516 1:a5258871b33d 2166 there is no timeout.
jmitc91516 0:47c880c1463d 2167
jmitc91516 1:a5258871b33d 2168 Args are: a pointer to the USBHost instance on which we are to look for the USB device
jmitc91516 1:a5258871b33d 2169
jmitc91516 1:a5258871b33d 2170 Returns a pointer to the USB device
jmitc91516 1:a5258871b33d 2171 */
jmitc91516 1:a5258871b33d 2172 USBDeviceConnected* GetUSBDevice(USBHost* usbHost)
jmitc91516 1:a5258871b33d 2173 {
jmitc91516 1:a5258871b33d 2174 USBDeviceConnected* usbDevice = NULL;
jmitc91516 0:47c880c1463d 2175
jmitc91516 1:a5258871b33d 2176 while(usbDevice == NULL) {
jmitc91516 1:a5258871b33d 2177 for (uint8_t i = 0; i < MAX_DEVICE_CONNECTED; ++i) {
jmitc91516 1:a5258871b33d 2178 usbDevice = usbHost->getDevice(i);
jmitc91516 1:a5258871b33d 2179
jmitc91516 1:a5258871b33d 2180 if (usbDevice) {
jmitc91516 1:a5258871b33d 2181 return usbDevice;
jmitc91516 1:a5258871b33d 2182 }
jmitc91516 1:a5258871b33d 2183 }
jmitc91516 0:47c880c1463d 2184 }
jmitc91516 1:a5258871b33d 2185
jmitc91516 1:a5258871b33d 2186 return NULL;
jmitc91516 0:47c880c1463d 2187 }
jmitc91516 0:47c880c1463d 2188
jmitc91516 1:a5258871b33d 2189 /*
jmitc91516 1:a5258871b33d 2190 Function that executes the easyGUI code in VarInit.c, to initialise all the easyGUI variables
jmitc91516 1:a5258871b33d 2191 to the values we have specified in the easyGUI application.
jmitc91516 1:a5258871b33d 2192 */
jmitc91516 1:a5258871b33d 2193 static void InitialiseAllEasyGUIVariables(void)
jmitc91516 0:47c880c1463d 2194 {
jmitc91516 1:a5258871b33d 2195 #include "VarInit.h" // Renamed from the easyGUI file "VarInit.c", so as not to confuse the mbed compiler
jmitc91516 1:a5258871b33d 2196 }
jmitc91516 0:47c880c1463d 2197
jmitc91516 1:a5258871b33d 2198
jmitc91516 1:a5258871b33d 2199 /*
jmitc91516 1:a5258871b33d 2200 Sets up the easyGUI user interface in an acceptable initial state.
jmitc91516 0:47c880c1463d 2201
jmitc91516 1:a5258871b33d 2202 No return code.
jmitc91516 1:a5258871b33d 2203 */
jmitc91516 1:a5258871b33d 2204 void InitEasyGUIDisplay(int initialEasyGUIPage)
jmitc91516 1:a5258871b33d 2205 {
jmitc91516 1:a5258871b33d 2206 // easyGUI stuff - note function calls require 'extern "C"' in relevant header
jmitc91516 0:47c880c1463d 2207
jmitc91516 0:47c880c1463d 2208 // Need to set up heat on/off command easyGUI variable
jmitc91516 0:47c880c1463d 2209 // before we display the home page for the first time -
jmitc91516 0:47c880c1463d 2210 // but we do not have a heat control object at this point -
jmitc91516 0:47c880c1463d 2211 // default to 'Heat On'
jmitc91516 0:47c880c1463d 2212 strcpy(GuiVar_heatOnOffCommand, "Heat On");
jmitc91516 1:a5258871b33d 2213 #ifdef USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 1:a5258871b33d 2214 DrawHeatOnOffButton();
jmitc91516 1:a5258871b33d 2215 #endif
jmitc91516 0:47c880c1463d 2216
jmitc91516 8:26e49e6955bd 2217 #ifdef USE_QSPI_BITMAPS
jmitc91516 8:26e49e6955bd 2218 // Before we display the first page - needs BootScreen
jmitc91516 8:26e49e6955bd 2219 qspiBitmaps.SetupArray();
jmitc91516 8:26e49e6955bd 2220 #endif
jmitc91516 8:26e49e6955bd 2221
jmitc91516 0:47c880c1463d 2222 GuiDisplay_Lock();
jmitc91516 0:47c880c1463d 2223
jmitc91516 0:47c880c1463d 2224 GuiLib_Init();
jmitc91516 0:47c880c1463d 2225
jmitc91516 1:a5258871b33d 2226 DisplayEasyGuiStructure(initialEasyGUIPage, NULL, NULL);
jmitc91516 0:47c880c1463d 2227
jmitc91516 0:47c880c1463d 2228 GuiDisplay_Unlock();
jmitc91516 1:a5258871b33d 2229 }
jmitc91516 1:a5258871b33d 2230
jmitc91516 1:a5258871b33d 2231 void InitialiseLPC4088(DMBoard* board, void **frameBufferAddress1, void **frameBufferAddress2)
jmitc91516 1:a5258871b33d 2232 {
jmitc91516 1:a5258871b33d 2233 RtosLog* log = board->logger();
jmitc91516 1:a5258871b33d 2234 Display* disp = board->display();
jmitc91516 0:47c880c1463d 2235
jmitc91516 1:a5258871b33d 2236 DMBoard::BoardError err;
jmitc91516 1:a5258871b33d 2237
jmitc91516 1:a5258871b33d 2238 do {
jmitc91516 1:a5258871b33d 2239 err = board->init();
jmitc91516 1:a5258871b33d 2240 if (err != DMBoard::Ok) {
jmitc91516 1:a5258871b33d 2241 log->printf("Failed to initialize the board, got error %d\r\n", err);
jmitc91516 1:a5258871b33d 2242 break;
jmitc91516 1:a5258871b33d 2243 }
jmitc91516 1:a5258871b33d 2244
jmitc91516 1:a5258871b33d 2245 #ifdef MEMORY_TEST_OCT_2016
jmitc91516 1:a5258871b33d 2246 for (int ind = 0; ind < clogLength; ++ind) {
jmitc91516 1:a5258871b33d 2247 clogUpMemory[ind] = 'A';
jmitc91516 1:a5258871b33d 2248 }
jmitc91516 1:a5258871b33d 2249 #endif // MEMORY_TEST_OCT_2016
jmitc91516 1:a5258871b33d 2250
jmitc91516 1:a5258871b33d 2251
jmitc91516 1:a5258871b33d 2252 #define COLOR_FLICKERING_FIX_1
jmitc91516 1:a5258871b33d 2253 #ifdef COLOR_FLICKERING_FIX_1
jmitc91516 1:a5258871b33d 2254 // Possible fix for display flickering on LPC4088
jmitc91516 1:a5258871b33d 2255 uint32_t* reg = ((uint32_t*)0x400fc188);
jmitc91516 1:a5258871b33d 2256 *reg |= (3<<10);
jmitc91516 1:a5258871b33d 2257 #undef COLOR_FLICKERING_FIX_1
jmitc91516 1:a5258871b33d 2258 #endif
jmitc91516 1:a5258871b33d 2259 log->printf("\n\nHello World!\n\n");
jmitc91516 1:a5258871b33d 2260
jmitc91516 1:a5258871b33d 2261 void* fb = disp->allocateFramebuffer();
jmitc91516 1:a5258871b33d 2262 if (fb == NULL) {
jmitc91516 1:a5258871b33d 2263 log->printf("Failed to allocate memory for a frame buffer\r\n");
jmitc91516 1:a5258871b33d 2264 err = DMBoard::MemoryError;
jmitc91516 1:a5258871b33d 2265 break;
jmitc91516 1:a5258871b33d 2266 }
jmitc91516 1:a5258871b33d 2267
jmitc91516 1:a5258871b33d 2268 *frameBufferAddress1 = fb;
jmitc91516 1:a5258871b33d 2269
jmitc91516 1:a5258871b33d 2270 // Allocate a second frame buffer - what will its address be?
jmitc91516 1:a5258871b33d 2271 void* fb2 = disp->allocateFramebuffer();
jmitc91516 1:a5258871b33d 2272 *frameBufferAddress2 = fb2;
jmitc91516 1:a5258871b33d 2273
jmitc91516 1:a5258871b33d 2274 Display::DisplayError disperr;
jmitc91516 1:a5258871b33d 2275 // disperr = disp->powerUp(fb, Display::Resolution_24bit_rgb888);
jmitc91516 1:a5258871b33d 2276 // Start display in default mode (16-bit) (24-bit uses too much memory)
jmitc91516 1:a5258871b33d 2277 #define COLOR_FLICKERING_FIX_2
jmitc91516 1:a5258871b33d 2278 #ifdef COLOR_FLICKERING_FIX_2
jmitc91516 1:a5258871b33d 2279 // Second possible fix for colour flickering problem,
jmitc91516 1:a5258871b33d 2280 // suggested by Embedded Artists - specify low frame rate
jmitc91516 1:a5258871b33d 2281 disp->powerDown();
jmitc91516 1:a5258871b33d 2282 disperr = disp->powerUp(fb, Display::Resolution_16bit_rgb565, FrameRate_Low);
jmitc91516 1:a5258871b33d 2283 #undef COLOR_FLICKERING_FIX_2
jmitc91516 1:a5258871b33d 2284 #else
jmitc91516 1:a5258871b33d 2285 disperr = disp->powerUp(fb);
jmitc91516 1:a5258871b33d 2286 #endif
jmitc91516 1:a5258871b33d 2287 if (disperr != Display::DisplayError_Ok) {
jmitc91516 1:a5258871b33d 2288 log->printf("Failed to initialize the display, got error %d\r\n", disperr);
jmitc91516 1:a5258871b33d 2289 break;
jmitc91516 1:a5258871b33d 2290 }
jmitc91516 2:6e94a7fd1e37 2291
jmitc91516 2:6e94a7fd1e37 2292 #define TEST_BACKLIGHT
jmitc91516 2:6e94a7fd1e37 2293 #ifdef TEST_BACKLIGHT
jmitc91516 2:6e94a7fd1e37 2294 disp->backlight(100);
jmitc91516 2:6e94a7fd1e37 2295 #endif // TEST_BACKLIGHT
jmitc91516 1:a5258871b33d 2296
jmitc91516 1:a5258871b33d 2297 } while(false);
jmitc91516 1:a5258871b33d 2298
jmitc91516 1:a5258871b33d 2299 if (err != DMBoard::Ok) {
jmitc91516 1:a5258871b33d 2300 log->printf("\nTERMINATING\n");
jmitc91516 1:a5258871b33d 2301 wait_ms(2000); // allow RtosLog to flush messages
jmitc91516 1:a5258871b33d 2302 mbed_die();
jmitc91516 1:a5258871b33d 2303 }
jmitc91516 1:a5258871b33d 2304 }
jmitc91516 1:a5258871b33d 2305
jmitc91516 1:a5258871b33d 2306 int main()
jmitc91516 1:a5258871b33d 2307 {
jmitc91516 1:a5258871b33d 2308 DMBoard* board = &DMBoard::instance();
jmitc91516 1:a5258871b33d 2309 void *frameBuffer1;
jmitc91516 1:a5258871b33d 2310 void *frameBuffer2;
jmitc91516 1:a5258871b33d 2311 InitialiseLPC4088(board, &frameBuffer1, &frameBuffer2);
jmitc91516 1:a5258871b33d 2312 GuiDisplay_SetFrameAddress(frameBuffer1);
jmitc91516 1:a5258871b33d 2313
jmitc91516 1:a5258871b33d 2314 SwimDraw* swimDrawInstance = SwimDraw::GetInstance();
jmitc91516 1:a5258871b33d 2315 if(swimDrawInstance != NULL) {
jmitc91516 1:a5258871b33d 2316 swimDrawInstance->Initialise(board, frameBuffer1);
jmitc91516 1:a5258871b33d 2317 }
jmitc91516 1:a5258871b33d 2318
jmitc91516 1:a5258871b33d 2319 InitialiseAllEasyGUIVariables();
jmitc91516 1:a5258871b33d 2320
jmitc91516 1:a5258871b33d 2321 // The first thing we do is try to connect to the GC -
jmitc91516 1:a5258871b33d 2322 // so tell the user this first of all...
jmitc91516 1:a5258871b33d 2323 InitEasyGUIDisplay(GuiStruct_GCConnectionPage_Def);
jmitc91516 1:a5258871b33d 2324
jmitc91516 1:a5258871b33d 2325
jmitc91516 1:a5258871b33d 2326 SetupEasyGUIBuildDateVariable();
jmitc91516 1:a5258871b33d 2327
jmitc91516 1:a5258871b33d 2328
jmitc91516 1:a5258871b33d 2329 char dbgBuff[100];
jmitc91516 1:a5258871b33d 2330 sprintf(dbgBuff, "FrameBuffers are: %X, %X", frameBuffer1, frameBuffer2);
jmitc91516 1:a5258871b33d 2331 EasyGUIDebugPrint(dbgBuff, 100, 100);
jmitc91516 0:47c880c1463d 2332
jmitc91516 0:47c880c1463d 2333 // Now the USB 'stuff'
jmitc91516 0:47c880c1463d 2334
jmitc91516 0:47c880c1463d 2335 USBHost* usbHost = USBHost::getHostInst();
jmitc91516 0:47c880c1463d 2336 USBHostGC usbHostGC;
jmitc91516 0:47c880c1463d 2337
jmitc91516 0:47c880c1463d 2338 DrawErrorMessage("Waiting for USB device...");
jmitc91516 1:a5258871b33d 2339 // Note that 'GetUSBDevice' will not return until it finds a USB device -
jmitc91516 1:a5258871b33d 2340 // it does *not* timeout
jmitc91516 1:a5258871b33d 2341 USBDeviceConnected* usbDevice = GetUSBDevice(usbHost);
jmitc91516 0:47c880c1463d 2342
jmitc91516 0:47c880c1463d 2343 DrawErrorMessage(" ");
jmitc91516 0:47c880c1463d 2344
jmitc91516 0:47c880c1463d 2345 if(usbDevice != NULL) {
jmitc91516 0:47c880c1463d 2346 USB_TYPE enumerateRetVal = usbHost->enumerate(usbDevice, &usbHostGC);
jmitc91516 0:47c880c1463d 2347
jmitc91516 0:47c880c1463d 2348 if (usbHostGC.DeviceIsGC()) {
jmitc91516 0:47c880c1463d 2349 if (usbHostGC.AttachGCDevice(usbDevice)) {
jmitc91516 0:47c880c1463d 2350
jmitc91516 0:47c880c1463d 2351 DrawErrorMessage("Found GC device ");
jmitc91516 0:47c880c1463d 2352
jmitc91516 0:47c880c1463d 2353
jmitc91516 1:a5258871b33d 2354 #ifdef OLD_TOUCH_LISTENER
jmitc91516 0:47c880c1463d 2355 SetupUSBGCTouchListener(board, usbDevice, &usbHostGC);
jmitc91516 0:47c880c1463d 2356
jmitc91516 0:47c880c1463d 2357 DrawErrorMessage("After call to SetupUSBGCTouchListener ");
jmitc91516 1:a5258871b33d 2358 #endif
jmitc91516 0:47c880c1463d 2359
jmitc91516 0:47c880c1463d 2360 getGCStatusLoop = GetGCStatusLoop::GetInstance(usbDevice, &usbHostGC);
jmitc91516 0:47c880c1463d 2361
jmitc91516 0:47c880c1463d 2362 DrawErrorMessage("After creation of GetGCStatusLoop instance ");
jmitc91516 0:47c880c1463d 2363
jmitc91516 0:47c880c1463d 2364
jmitc91516 0:47c880c1463d 2365 theGCHeatControl = new GCHeatControl(usbDevice, &usbHostGC);
jmitc91516 0:47c880c1463d 2366
jmitc91516 1:a5258871b33d 2367 #ifdef USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 1:a5258871b33d 2368 DrawHeatOnOffButton();
jmitc91516 1:a5258871b33d 2369 #else
jmitc91516 0:47c880c1463d 2370 UpdateHeatOnOffEasyGuiVariable();
jmitc91516 1:a5258871b33d 2371 #endif // USE_HEAT_ONOFF_BUTTON_BITMAPS
jmitc91516 1:a5258871b33d 2372
jmitc91516 0:47c880c1463d 2373 DrawErrorMessage("After UpdateHeatOnOffEasyGuiVariable ");
jmitc91516 0:47c880c1463d 2374
jmitc91516 1:a5258871b33d 2375
jmitc91516 0:47c880c1463d 2376 getGCStatusLoop->SetHomePageGCComponentStatusColorAreas(&homePageGCComponentStatusColorAreas);
jmitc91516 0:47c880c1463d 2377 getGCStatusLoop->SetSingleGCComponentPageStatusColorAreas(&singleGCComponentPageStatusColorAreas);
jmitc91516 0:47c880c1463d 2378
jmitc91516 0:47c880c1463d 2379 DrawErrorMessage("Point 1 ");
jmitc91516 0:47c880c1463d 2380
jmitc91516 1:a5258871b33d 2381 #ifdef SERVICE_INTERVALS_ACTIVE
jmitc91516 1:a5258871b33d 2382 ServiceInterval::SetupAllServiceIntervals();
jmitc91516 1:a5258871b33d 2383 // Note these two functions *** have different names ***
jmitc91516 1:a5258871b33d 2384 ServiceInterval::StartAllServiceIntervals();
jmitc91516 1:a5258871b33d 2385 #endif // SERVICE_INTERVALS_ACTIVE
jmitc91516 1:a5258871b33d 2386
jmitc91516 1:a5258871b33d 2387 DrawErrorMessage("Point 2 ");
jmitc91516 1:a5258871b33d 2388
jmitc91516 0:47c880c1463d 2389 getGCStatusLoop->SetupAllEasyGUIVariables();
jmitc91516 1:a5258871b33d 2390 SetupDoorActuatorCommandUserInterface(usbDevice, &usbHostGC, true);
jmitc91516 1:a5258871b33d 2391
jmitc91516 1:a5258871b33d 2392 DrawErrorMessage("Point 3 ");
jmitc91516 1:a5258871b33d 2393 #ifdef USE_QSPI_BITMAPS
jmitc91516 1:a5258871b33d 2394 getGCStatusLoop->SetQSPIBitmaps(&qspiBitmaps);
jmitc91516 1:a5258871b33d 2395 // Test - what does it do if it cannot find the bitmaps??
jmitc91516 1:a5258871b33d 2396 #endif
jmitc91516 1:a5258871b33d 2397 DrawErrorMessage("Point 4 ");
jmitc91516 0:47c880c1463d 2398
jmitc91516 0:47c880c1463d 2399 getGCStatusLoop->SetCurrentPage(GuiStruct_HomePage_1);
jmitc91516 0:47c880c1463d 2400
jmitc91516 1:a5258871b33d 2401 DrawErrorMessage("Point 5 ");
jmitc91516 0:47c880c1463d 2402
jmitc91516 1:a5258871b33d 2403 //DisplayEasyGuiStructure(GuiStruct_HomePage_1, usbDevice, &usbHostGC);
jmitc91516 1:a5258871b33d 2404
jmitc91516 1:a5258871b33d 2405 DebugPrint("Before MainLoopWithEthernet", 100, 450);
jmitc91516 1:a5258871b33d 2406
jmitc91516 1:a5258871b33d 2407 // Currently, this never returns - but it allows time for the TouchCallback function to be invoked
jmitc91516 1:a5258871b33d 2408 //getGCStatusLoop->MainLoop(board);
jmitc91516 1:a5258871b33d 2409 getGCStatusLoop->MainLoopWithEthernet(board);
jmitc91516 0:47c880c1463d 2410
jmitc91516 0:47c880c1463d 2411 // Should never reach this code - but just in case...
jmitc91516 0:47c880c1463d 2412 delete theGCHeatControl;
jmitc91516 0:47c880c1463d 2413
jmitc91516 0:47c880c1463d 2414 } else {
jmitc91516 0:47c880c1463d 2415 DrawErrorMessage("Failed to attach GC device to host ");
jmitc91516 0:47c880c1463d 2416 }
jmitc91516 0:47c880c1463d 2417 } else {
jmitc91516 0:47c880c1463d 2418 DrawErrorMessage(" *** USB device found, is *not* a GC *** ");
jmitc91516 0:47c880c1463d 2419 }
jmitc91516 0:47c880c1463d 2420 } else {
jmitc91516 0:47c880c1463d 2421 DrawErrorMessage(" *** No USB device found *** ");
jmitc91516 0:47c880c1463d 2422 }
jmitc91516 0:47c880c1463d 2423
jmitc91516 0:47c880c1463d 2424 while(true) {}
jmitc91516 0:47c880c1463d 2425 }
jmitc91516 0:47c880c1463d 2426
jmitc91516 0:47c880c1463d 2427