The codebase to run the *spark d-fuser controller www.sparkav.co.uk/dvimixer
Dependencies: SPK-TVOne DMX DmxArtNet NetServicesMin OSC PinDetect mRotaryEncoder iniparser mbed spk_oled_ssd1305 filter
main.cpp
- Committer:
- tobyspark
- Date:
- 2012-11-23
- Revision:
- 38:2701101dcd56
- Parent:
- 37:744bef2e8be8
- Child:
- 39:7d9a5eef93c9
File content as of revision 38:2701101dcd56:
/* *SPARK D-FUSER * A project by Toby Harris * * 'DJ' controller styke RS232 Control for TV-One products * Good for 1T-C2-750, others will need some extra work * * www.sparkav.co.uk/dvimixer */ /* Copyright (c) 2011 Toby Harris, MIT License * * Permission is hereby granted, free of charge, to any person obtaining a copy of this software * and associated documentation files (the "Software"), to deal in the Software without restriction, * including without limitation the rights to use, copy, modify, merge, publish, distribute, * sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all copies or * substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /* ROADMAP / HISTORY * v10 - Port to mBed, keying redux - Apr'11 * v11 - Sign callbacks, code clean-up - Apr'11 * v12 - TVOne header split into two: defines and mbed class. v002 header updates pulled down. Removed sign callbacks, rewrite of debug and signing. - Apr'11 * v13 - Menu system for Resolution + Keying implemented, it writing to debug, it sending TVOne commands - Apr'11 * v14 - Fixes for new PCB - Oct'11 * v15 - TBZ PCB, OLED - Mar'12 * v16 - Comms menu, OSC, ArtNet - April'12 * v17 - RJ45 - May'12 * v18 - DMX - July'12 * v19 - TVOne mixing comms further optimised - August'12 * v20 - Keying values and resolutions load from USB mass storage - September'12 * v21 - Mixing behaviour upgrade: blend-additive as continuum, test cards on startup if no valid source - October'12 * v22 - EDID passthrough override and EDID upload from USB mass storage * v23 - Set keying values from controller, requires a guided, step-through process for user * vxx - TODO: Writes back to .ini on USB mass storage: keyer updates, comms, hdcp, edid internal/passthrough, ...? * vxx - TODO: EDID creation from resolution */ #include "mbed.h" #include "spk_tvone_mbed.h" #include "spk_utils.h" #include "spk_mRotaryEncoder.h" #include "spk_oled_ssd1305.h" #include "spk_oled_gfx.h" #include "spk_settings.h" #include "EthernetNetIf.h" #include "mbedOSC.h" #include "DmxArtNet.h" #include "DMX.h" #include "filter.h" #define kSPKDFSoftwareVersion "23" // MBED PINS #define kMBED_AIN_XFADE p20 #define kMBED_AIN_FADEUP p19 #define kMBED_DIN_TAP_L p24 #define kMBED_DIN_TAP_R p23 #define kMBED_ENC_SW p15 #define kMBED_ENC_A p16 #define kMBED_ENC_B p17 #define kMBED_RS232_TTLTX p13 #define kMBED_RS232_TTLRX p14 #define kMBED_OLED_MOSI p5 #define kMBED_OLED_SCK p7 #define kMBED_OLED_CS p8 #define kMBED_OLED_RES p9 #define kMBED_OLED_DC p10 #define kMBED_DIN_ETHLO_DMXHI p30 #define kMBED_DOUT_RS485_TXHI_RXLO p29 #define kMBED_RS485_TTLTX p28 #define kMBED_RS485_TTLRX p27 // DISPLAY #define kMenuLine1 3 #define kMenuLine2 4 #define kCommsStatusLine 6 #define kTVOneStatusLine 7 // NETWORKING #define kOSCMbedPort 10000 #define kOSCMbedIPAddress 10,0,0,2 #define kOSCMbedSubnetMask 255,255,255,0 #define kOSCMbedGateway 10,0,0,1 #define kOSCMbedDNS 10,0,0,1 #define kArtNetBindIPAddress 2,0,0,100 #define kArtNetBroadcastAddress 2,255,255,255 #define kDMXInChannelXFade 0 #define kDMXInChannelFadeUp 1 #define kDMXOutChannelXFade 0 #define kDMXOutChannelFadeUp 1 // 8.3 format filename only, no subdirs #define kSPKDFSettingsFilename "SPKDF.ini" #define kStringBufferLength 30 //// DEBUG // Comment out one or the other... //Serial *debug = new Serial(USBTX, USBRX); // For debugging via USB serial Serial *debug = NULL; // For release (no debugging) //// SOFT RESET extern "C" void mbed_reset(); //// mBED PIN ASSIGNMENTS // Inputs AnalogIn xFadeAIN(kMBED_AIN_XFADE); AnalogIn fadeUpAIN(kMBED_AIN_FADEUP); DigitalIn tapLeftDIN(kMBED_DIN_TAP_L); DigitalIn tapRightDIN(kMBED_DIN_TAP_R); medianFilter xFadeFilter(9); medianFilter fadeUpFilter(9); SPKRotaryEncoder menuEnc(kMBED_ENC_A, kMBED_ENC_B, kMBED_ENC_SW); DigitalIn rj45ModeDIN(kMBED_DIN_ETHLO_DMXHI); // Outputs PwmOut fadeAPO(LED1); PwmOut fadeBPO(LED2); DigitalOut dmxDirectionDOUT(kMBED_DOUT_RS485_TXHI_RXLO); // SPKTVOne(PinName txPin, PinName rxPin, PinName signWritePin, PinName signErrorPin, Serial *debugSerial) SPKTVOne tvOne(kMBED_RS232_TTLTX, kMBED_RS232_TTLRX, LED3, LED4, debug); // SPKDisplay(PinName mosi, PinName clk, PinName cs, PinName dc, PinName res, Serial *debugSerial = NULL); SPKDisplay screen(kMBED_OLED_MOSI, kMBED_OLED_SCK, kMBED_OLED_CS, kMBED_OLED_DC, kMBED_OLED_RES, debug); // Saved Settings SPKSettings settings; // Menu SPKMenu *selectedMenu; SPKMenu mainMenu; SPKMenu resolutionMenu; SPKMenu mixModeMenu; SPKMenu mixModeAdditiveMenu; SPKMenu mixModeKeyerMenuUpdate; SPKMenu mixModeKeyerMenuMinY; SPKMenu mixModeKeyerMenuMaxY; SPKMenu mixModeKeyerMenuMinU; SPKMenu mixModeKeyerMenuMaxU; SPKMenu mixModeKeyerMenuMinV; SPKMenu mixModeKeyerMenuMaxV; enum { mixBlend, mixAdditive, mixKey }; int mixKeyStartIndex = 1; // need this hard coded as mixBlend and mixAdditive are now combined into the same menu item int mixMode = mixBlend; // Start with safe mix mode, and test to get out of it. Safe mode will work with inputs missing and without hold frames. float fadeCurve = 0.0f; // 0 = "X", ie. as per blend, 1 = "/\", ie. as per additive <-- pictograms! SPKMenu commsMenu; enum { commsNone, commsOSC, commsArtNet, commsDMXIn, commsDMXOut}; int commsMode = commsNone; SPKMenu advancedMenu; enum { advancedHDCPOn, advancedHDCPOff, advancedEDIDPassthrough, advancedEDIDInternal, advancedTestSources, advancedConformProcessor, advancedLoadDefaults, advancedSetResolutions }; // RJ45 Comms enum { rj45Ethernet = 0, rj45DMX = 1}; // These values from circuit int rj45Mode = -1; EthernetNetIf *ethernet = NULL; OSCClass *osc = NULL; OSCMessage sendMessage; OSCMessage receiveMessage; DmxArtNet *artNet = NULL; DMX *dmx = NULL; // Fade logic constants const float xFadeTolerance = 0.05; const float fadeUpTolerance = 0.05; // A&B Fade as resolved percent int fadeAPercent = 0; int fadeBPercent = 0; int oldFadeAPercent = 0; int oldFadeBPercent = 0; // Tap button states bool tapLeftWasFirstPressed = false; // Key mode parameters int keyerParamsSet = -1; // last keyParams index uploaded to unit // TVOne input sources stable flag bool tvOneRGB1Stable = false; bool tvOneRGB2Stable = false; // TVOne behaviour flags bool tvOneHDCPOn = false; bool tvOneEDIDPassthrough = false; const int32_t EDIDPassthroughSlot = 7; void processOSCIn(float &xFade, float &fadeUp) { string statusMessage; if (!strcmp( receiveMessage.getTopAddress() , "dvimxr" )) { statusMessage = "OSC: /dvimxr"; if (!strcmp( receiveMessage.getSubAddress() , "xFade" )) { if (receiveMessage.getArgNum() == 1) if (receiveMessage.getTypeTag(0) == 'f') { xFade = receiveMessage.getArgFloat(0); char buffer[15]; snprintf(buffer, kStringBufferLength, "/xFade %1.2f", xFade); statusMessage += buffer; } } else if (!strcmp( receiveMessage.getSubAddress() , "fadeUp" )) { if (receiveMessage.getArgNum() == 1) if (receiveMessage.getTypeTag(0) == 'f') { fadeUp = receiveMessage.getArgFloat(0); char buffer[15]; snprintf(buffer, kStringBufferLength, "/fadeUp %1.2f", fadeUp); statusMessage += buffer; } } else { statusMessage += receiveMessage.getSubAddress(); statusMessage += " - Ignoring"; } } else { statusMessage = "OSC: "; statusMessage += receiveMessage.getTopAddress(); statusMessage += " - Ignoring"; } screen.clearBufferRow(kCommsStatusLine); screen.textToBuffer(statusMessage, kCommsStatusLine); if (debug) debug->printf("%s \r\n", statusMessage.c_str()); } void processOSCOut(float &xFade, float &fadeUp) { char statusMessageBuffer[kStringBufferLength]; sendMessage.setAddress("dvimxr", "xFadeFadeUp"); sendMessage.setArgs("ff", &xFade, &fadeUp); osc->sendOsc(&sendMessage); screen.clearBufferRow(kCommsStatusLine); snprintf(statusMessageBuffer, kStringBufferLength, "OSC Out: xF %.2f fUp %.2f", xFade, fadeUp); screen.textToBuffer(statusMessageBuffer, kCommsStatusLine); if (debug) debug->printf(statusMessageBuffer); } void processArtNetIn(float &xFade, float &fadeUp) { screen.clearBufferRow(kCommsStatusLine); screen.textToBuffer("ArtNet activity", kCommsStatusLine); if (debug) debug->printf("ArtNet activity"); } void processArtNetOut(float &xFade, float &fadeUp) { char statusMessageBuffer[kStringBufferLength]; int xFadeDMX = xFade*255; int fadeUpDMX = fadeUp*255; // Universe 0, Channel 0 = xFade, Channel 1 = fadeUp char dmxData[2] = {xFadeDMX, fadeUpDMX}; artNet->Send_ArtDmx(0, 0, dmxData, 2); screen.clearBufferRow(kCommsStatusLine); snprintf(statusMessageBuffer, kStringBufferLength, "A'Net Out: xF%3i fUp %3i", xFadeDMX, fadeUpDMX); screen.textToBuffer(statusMessageBuffer, kCommsStatusLine); if (debug) debug->printf(statusMessageBuffer); } void processDMXIn(float &xFade, float &fadeUp) { char statusMessageBuffer[kStringBufferLength]; int xFadeDMX = dmx->get(kDMXInChannelXFade); int fadeUpDMX = dmx->get(kDMXInChannelFadeUp); xFade = (float)xFadeDMX/255; fadeUp = (float)fadeUpDMX/255; screen.clearBufferRow(kCommsStatusLine); snprintf(statusMessageBuffer, kStringBufferLength, "DMX In: xF %3i fUp %3i", xFadeDMX, fadeUpDMX); screen.textToBuffer(statusMessageBuffer, kCommsStatusLine); if (debug) debug->printf(statusMessageBuffer); } void processDMXOut(float &xFade, float &fadeUp) { char statusMessageBuffer[kStringBufferLength]; int xFadeDMX = xFade*255; int fadeUpDMX = fadeUp*255; dmx->put(kDMXOutChannelXFade, xFadeDMX); dmx->put(kDMXOutChannelFadeUp, fadeUpDMX); screen.clearBufferRow(kCommsStatusLine); snprintf(statusMessageBuffer, kStringBufferLength, "DMX Out: xF %3i fUp %3i", xFadeDMX, fadeUpDMX); screen.textToBuffer(statusMessageBuffer, kCommsStatusLine); if (debug) debug->printf(statusMessageBuffer); } inline float fadeCalc (const float AIN, const float tolerance) { float pos ; if (AIN < tolerance) pos = 0; else if (AIN > 1.0 - tolerance) pos = 1; else pos = (AIN - tolerance) / (1 - 2*tolerance); if (debug && false) debug->printf("fadeCalc in: %f out: %f \r\n", AIN, pos); return pos; } bool handleTVOneSources() { bool ok = true; int32_t payload = 0; ok = ok && tvOne.readCommand(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustSourceSourceStable, payload); bool RGB1 = (payload == 1); ok = ok && tvOne.readCommand(kTV1SourceRGB2, kTV1WindowIDA, kTV1FunctionAdjustSourceSourceStable, payload); bool RGB2 = (payload == 1); ok = ok && tvOne.readCommand(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsWindowSource, payload); int sourceA = payload; ok = ok && tvOne.readCommand(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsWindowSource, payload); int sourceB = payload; if (debug) debug->printf("HandleTVOneSources: RGB1: %i, RGB2: %i, sourceA: %#x, sourceB: %#i \r\n", RGB1, RGB2, sourceA, sourceB); string tvOneDetectString; if (!ok) { tvOneDetectString = "TVOne: link failed"; } else if (!RGB1 || !RGB2) { if (!RGB1 && !RGB2) tvOneDetectString = "TVOne: no sources"; else if (!RGB1) tvOneDetectString = "TVOne: no right source"; else if (!RGB2) tvOneDetectString = "TVOne: no left source"; } else { tvOneDetectString = "TVOne: OK"; } screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(tvOneDetectString, kTVOneStatusLine); // Assign appropriate source depending on whether DVI input is good // If that assign command completes ok, and the DVI input is good, finally flag the unit has had a live source // Note any further losses on this input will be handled by the unit holding the last frame, so we don't need to switch back to SIS. if (ok && !tvOneRGB1Stable) { if (RGB1 && (sourceB != kTV1SourceRGB1)) ok = ok && tvOne.command(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsWindowSource, kTV1SourceRGB1); if (!RGB1 && (sourceB != kTV1SourceSIS2)) ok = ok && tvOne.command(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsWindowSource, kTV1SourceSIS2); // Wierd: Can't set to SIS1 sometimes. if (ok && RGB1) tvOneRGB1Stable = true; } if (ok && !tvOneRGB2Stable) { if (RGB2 && (sourceA != kTV1SourceRGB2)) ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsWindowSource, kTV1SourceRGB2); if (!RGB2 && (sourceA != kTV1SourceSIS2)) ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsWindowSource, kTV1SourceSIS2); if (ok && RGB2) tvOneRGB2Stable = true; } return ok; } bool setKeyParamsTo(int index) { // Only spend the time uploading six parameters if we need to // Might want to bounds check here bool ok; if (index != keyerParamsSet) { ok = tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMinY, settings.keyerParamSet(index)[SPKSettings::minY]); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMaxY, settings.keyerParamSet(index)[SPKSettings::maxY]); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMinU, settings.keyerParamSet(index)[SPKSettings::minU]); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMaxU, settings.keyerParamSet(index)[SPKSettings::maxU]); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMinV, settings.keyerParamSet(index)[SPKSettings::minV]); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMaxV, settings.keyerParamSet(index)[SPKSettings::maxV]); keyerParamsSet = index; } else { ok = true; } return ok; } void actionMixMode() { if (debug) debug->printf("Changing mix mode \r\n"); bool ok = true; string sentOK; char sentMSGBuffer[kStringBufferLength]; // Set Keyer if (mixMode < mixKeyStartIndex) { // Set Keyer Off. Quicker to set and fail than to test for on and then turn off tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerEnable, false); if (mixMode == mixBlend) { // Turn off Additive Mixing on output ok = tvOne.command(0, kTV1WindowIDA, 0x298, 0); snprintf(sentMSGBuffer, kStringBufferLength, "Blend"); } if (mixMode == mixAdditive) { // First set B to what you'd expect for additive; it may be left at 100 if optimised blend mixing was previous mixmode. ok = tvOne.command(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsMaxFadeLevel, fadeBPercent); // Then turn on Additive Mixing ok = ok && tvOne.command(0, kTV1WindowIDA, 0x298, 1); snprintf(sentMSGBuffer, kStringBufferLength, "Additive"); } } else { int index = mixMode - mixKeyStartIndex; ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerEnable, true); ok = ok && setKeyParamsTo(index); snprintf(sentMSGBuffer, kStringBufferLength, "Keyer On with %i", index); } if (ok) sentOK = "Sent:"; else sentOK = "Send Error:"; screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(sentOK + sentMSGBuffer, kTVOneStatusLine); } bool conformProcessor() { bool ok = true; int32_t on = 1; int32_t off = 0; // Independent output ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionMode, 2); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustOutputsOutputEnable, on); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustOutputsLockMethod, off); // Make sure our windows exist ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsEnable, on); ok = ok && tvOne.command(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsEnable, on); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsLayerPriority, 0); ok = ok && tvOne.command(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsLayerPriority, 1); // Assign inputs to windows, so that left on the crossfader is left on the processor viewed from front ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsWindowSource, kTV1SourceRGB2); ok = ok && tvOne.command(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsWindowSource, kTV1SourceRGB1); // Set scaling to fit source within output, maintaining aspect ratio ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustWindowsZoomLevel, 100); ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDB, kTV1FunctionAdjustWindowsZoomLevel, 100); ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustWindowsShrinkEnable, off); ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDB, kTV1FunctionAdjustWindowsShrinkEnable, off); int32_t fit = 1; ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustSourceAspectCorrect, fit); ok = ok && tvOne.command(kTV1SourceRGB2, kTV1WindowIDA, kTV1FunctionAdjustSourceAspectCorrect, fit); int32_t oneToOne = 4; ok = ok && tvOne.command(kTV1SourceSIS2, kTV1WindowIDA, kTV1FunctionAdjustSourceAspectCorrect, oneToOne); // On source loss, hold on the last frame received. int32_t freeze = 1; ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustSourceOnSourceLoss, freeze); ok = ok && tvOne.command(kTV1SourceRGB2, kTV1WindowIDA, kTV1FunctionAdjustSourceOnSourceLoss, freeze); // Set resolution and fade levels for maximum chance of being seen int32_t slot = tvOneEDIDPassthrough ? EDIDPassthroughSlot : 5; ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustOutputsOutputResolution, kTV1ResolutionVGA); ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustSourceEDID, slot); ok = ok && tvOne.command(kTV1SourceRGB2, kTV1WindowIDA, kTV1FunctionAdjustSourceEDID, slot); ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsMaxFadeLevel, 100); ok = ok && tvOne.command(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsMaxFadeLevel, 100); // Upload Matrox EDID to mem4 (ie. index 3). Use this EDID slot when setting Matrox resolutions. char edidData[256]; int i; { LocalFileSystem local("local"); FILE *file = fopen("/local/matroxe.did", "r"); // 8.3, avoid .bin as mbed executable extension if (file) { for ( i=0; i<256; i++) { int edidByte = fgetc(file); if (edidByte == EOF) break; else edidData[i] = edidByte; } fclose(file); ok = ok && tvOne.uploadEDID(edidData, i, 3); } else { if (debug) debug->printf("Could not open Matrox EDID file 'matroxe.did'"); } } // Save current state in preset one //ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionPreset, 0); // Set Preset 1 //ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionPresetStore, 1); // Store // Save current state for power on ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionPowerOnPresetStore, 1); return ok; } void setResolutionMenuItems() { resolutionMenu.clearMenuItems(); for (int i=0; i < settings.resolutionsCount(); i++) { resolutionMenu.addMenuItem(SPKMenuItem(settings.resolutionName(i), settings.resolutionIndex(i), settings.resolutionEDIDIndex(i))); } resolutionMenu.addMenuItem(SPKMenuItem("Back to Main Menu", &mainMenu)); } void setMixModeMenuItems() { mixModeMenu.clearMenuItems(); mixModeMenu.addMenuItem(SPKMenuItem("Crossfade", &mixModeAdditiveMenu)); for (int i=0; i < settings.keyerSetCount(); i++) { mixModeMenu.addMenuItem(SPKMenuItem(settings.keyerParamName(i), &mixModeKeyerMenuUpdate)); } mixModeMenu.addMenuItem(SPKMenuItem("Back to Main Menu", &mainMenu)); } void setCommsMenuItems() { if (rj45Mode == rj45Ethernet) { commsMenu.title = "Network Mode [Ethernet]"; commsMenu.clearMenuItems(); commsMenu.addMenuItem(SPKMenuItem("None", commsNone)); commsMenu.addMenuItem(SPKMenuItem("OSC", commsOSC)); commsMenu.addMenuItem(SPKMenuItem("ArtNet", commsArtNet)); commsMenu.addMenuItem(SPKMenuItem("Back to Main Menu", &mainMenu)); commsMenu = 0; } else if (rj45Mode == rj45DMX) { commsMenu.title = "Network Mode [DMX]"; commsMenu.clearMenuItems(); commsMenu.addMenuItem(SPKMenuItem("None", commsNone)); commsMenu.addMenuItem(SPKMenuItem("DMX In", commsDMXIn)); commsMenu.addMenuItem(SPKMenuItem("DMX Out", commsDMXOut)); commsMenu.addMenuItem(SPKMenuItem("Back to Main Menu", &mainMenu)); commsMenu = 0; } } int main() { if (debug) { debug->printf("\r\n\r\n"); debug->printf("*spark d-fuser -----------\r\n"); debug->printf(" debug channel\r\n"); } // Set display font screen.fontStartCharacter = &characterBytesStartChar; screen.fontEndCharacter = &characterBytesEndChar; screen.fontCharacters = characterBytes; // Splash screen string softwareLine = "SW "; softwareLine += kSPKDFSoftwareVersion; screen.imageToBuffer(spkDisplayLogo); screen.textToBuffer("SPK:D-Fuser",0); screen.textToBuffer(softwareLine,1); screen.sendBuffer(); // Load saved settings bool settingsAreCustom = false; settingsAreCustom = settings.load(kSPKDFSettingsFilename); if (settingsAreCustom) { softwareLine += "; ini OK"; screen.textToBuffer(softwareLine, 1); } // Set menu structure mixModeMenu.title = "Mix Mode"; setMixModeMenuItems(); mixModeAdditiveMenu.title = "Crossfade"; mixModeAdditiveMenu.addMenuItem(SPKMenuItem("[title overridden]", &mixModeMenu, true)); mixModeKeyerMenuUpdate.title = "Update Keyer Settings?"; mixModeKeyerMenuUpdate.addMenuItem(SPKMenuItem("[title overridden]", &mixModeKeyerMenuMaxY, true)); mixModeKeyerMenuMaxY.title = "UP until lighter gone"; mixModeKeyerMenuMaxY.addMenuItem(SPKMenuItem("[title overridden]", &mixModeKeyerMenuMinY, true)); mixModeKeyerMenuMinY.title = "UP to bring back darker"; mixModeKeyerMenuMinY.addMenuItem(SPKMenuItem("[title overridden]", &mixModeKeyerMenuMaxU, true)); mixModeKeyerMenuMaxU.title = "UP until lighter gone"; mixModeKeyerMenuMaxU.addMenuItem(SPKMenuItem("[title overridden]", &mixModeKeyerMenuMinU, true)); mixModeKeyerMenuMinU.title = "UP to bring back darker"; mixModeKeyerMenuMinU.addMenuItem(SPKMenuItem("[title overridden]", &mixModeKeyerMenuMaxV, true)); mixModeKeyerMenuMaxV.title = "UP until lighter gone"; mixModeKeyerMenuMaxV.addMenuItem(SPKMenuItem("[title overridden]", &mixModeKeyerMenuMinV, true)); mixModeKeyerMenuMinV.title = "UP to bring back darker"; mixModeKeyerMenuMinV.addMenuItem(SPKMenuItem("[title overridden]", &mixModeMenu, true)); resolutionMenu.title = "Resolution"; setResolutionMenuItems(); commsMenu.title = "Network Mode"; setCommsMenuItems(); advancedMenu.title = "Troubleshooting"; advancedMenu.addMenuItem(SPKMenuItem("HDCP Off", advancedHDCPOff)); advancedMenu.addMenuItem(SPKMenuItem("HDCP On", advancedHDCPOn)); advancedMenu.addMenuItem(SPKMenuItem("EDID Passthrough", advancedEDIDPassthrough)); advancedMenu.addMenuItem(SPKMenuItem("EDID Internal", advancedEDIDInternal)); advancedMenu.addMenuItem(SPKMenuItem("Test Processor Sources", advancedTestSources)); advancedMenu.addMenuItem(SPKMenuItem("Conform Processor", advancedConformProcessor)); if (settingsAreCustom) advancedMenu.addMenuItem(SPKMenuItem("Revert Controller", advancedLoadDefaults)); advancedMenu.addMenuItem(SPKMenuItem("Back to Main Menu", &mainMenu)); mainMenu.title = "Main Menu"; mainMenu.addMenuItem(SPKMenuItem(mixModeMenu.title, &mixModeMenu)); mainMenu.addMenuItem(SPKMenuItem(resolutionMenu.title, &resolutionMenu)); mainMenu.addMenuItem(SPKMenuItem(commsMenu.title, &commsMenu)); mainMenu.addMenuItem(SPKMenuItem(advancedMenu.title, &advancedMenu)); selectedMenu = &mainMenu; // Misc I/O stuff fadeAPO.period(0.001); fadeBPO.period(0.001); // Test for TV One connectivity and determine unit type // TODO: Determine and fall back if not dfuser firmware? // TODO: Use software version to select resolution slots? // TODO: Use product / board type to select TVOne conform type? // kTV1FunctionReadSoftwareVersion // kTV1FunctionReadProductType // kTV1FunctionReadBoardType // Display menu and framing lines screen.horizLineToBuffer(kMenuLine1*pixInPage - 1); screen.clearBufferRow(kMenuLine1); screen.textToBuffer(selectedMenu->title, kMenuLine1); screen.clearBufferRow(kMenuLine2); screen.textToBuffer(selectedMenu->selectedString(), kMenuLine2); screen.horizLineToBuffer(kMenuLine2*pixInPage + pixInPage); screen.horizLineToBuffer(kCommsStatusLine*pixInPage - 1); screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer("TVOne: OK", kTVOneStatusLine); // handleTVOneSources will update this // If we do not have two solid sources, act on this as we rely on the window having a source for crossfade behaviour // Once we've had two solid inputs, don't check any more as we're ok as the unit is set to hold on last frame. bool ok = handleTVOneSources(); // Update display before starting mixer loop screen.sendBuffer(); //// CONTROLS TEST while (0) { if (debug) debug->printf("xFade: %f, fadeOut: %f, tapLeft %i, tapRight: %i encPos: %i encChange:%i encHasPressed:%i \r\n" , xFadeAIN.read(), fadeUpAIN.read(), tapLeftDIN.read(), tapRightDIN.read(), menuEnc.getPos(), menuEnc.getChange(), menuEnc.hasPressed()); } //// MIXER RUN while (1) { bool updateMixMode = false; //// Task background things if ((osc || artNet) && rj45Mode == rj45Ethernet) { Net::poll(); } //// RJ45 SWITCH if (rj45ModeDIN != rj45Mode) { if (debug) debug->printf("Handling RJ45 mode change\r\n"); // update state rj45Mode = rj45ModeDIN; setCommsMenuItems(); // cancel old comms commsMode = commsNone; commsMenu = commsMode; // refresh display if (selectedMenu == &commsMenu) { screen.clearBufferRow(kMenuLine1); screen.clearBufferRow(kMenuLine2); screen.textToBuffer(selectedMenu->title, kMenuLine1); screen.textToBuffer(selectedMenu->selectedString(), kMenuLine2); } if (rj45Mode == rj45Ethernet) screen.textToBuffer("RJ45: Ethernet Engaged", kCommsStatusLine); if (rj45Mode == rj45DMX) screen.textToBuffer("RJ45: DMX Engaged", kCommsStatusLine); } //// MENU int menuChange = menuEnc.getChange(); // Update GUI if (menuChange != 0) { if (selectedMenu->selectedItem().handlingControls) { if (selectedMenu == &mixModeAdditiveMenu) { fadeCurve += menuChange * 0.05; if (fadeCurve > 1.0f) fadeCurve = 1.0f; if (fadeCurve < 0.0f) fadeCurve = 0.0f; int newMixMode = (fadeCurve > 0.0f) ? mixAdditive: mixBlend; if (newMixMode != mixMode) { mixMode = newMixMode; updateMixMode = true; } screen.clearBufferRow(kMenuLine2); screen.textToBuffer("Blend [ ----- ] Add", kMenuLine2); screen.characterToBuffer('X', 38 + fadeCurve*20.0f, kMenuLine2); if (debug) debug->printf("Fade curve changed by %i to %f \r\n", menuChange, fadeCurve); } else if (selectedMenu == &mixModeKeyerMenuUpdate) { if (menuChange < 0) { settings.editingKeyerSetIndex = mixModeMenu.selectedIndex() - mixKeyStartIndex; screen.textToBuffer("[Yes/ ]", kMenuLine2); } else { settings.editingKeyerSetIndex = -1; screen.textToBuffer("[ /No]", kMenuLine2); } } else if (selectedMenu == &mixModeKeyerMenuMinY) { int value = settings.editingKeyerSetValue(SPKSettings::minY); value += menuChange; if (value < 0) value = 0; if (value > settings.editingKeyerSetValue(SPKSettings::maxY)) value = settings.editingKeyerSetValue(SPKSettings::maxY); settings.setEditingKeyerSetValue(SPKSettings::minY, value); screen.clearBufferRow(kMenuLine2); char paramLine[kStringBufferLength]; snprintf(paramLine, kStringBufferLength, "[%3i/%3i][ / ][ / ]", value, settings.editingKeyerSetValue(SPKSettings::maxY)); screen.textToBuffer(paramLine, kMenuLine2); tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMinY, value); } else if (selectedMenu == &mixModeKeyerMenuMaxY) { int value = settings.editingKeyerSetValue(SPKSettings::maxY); value += menuChange; if (value < 0) value = 0; if (value > 255) value = 255; settings.setEditingKeyerSetValue(SPKSettings::maxY, value); screen.clearBufferRow(kMenuLine2); char paramLine[kStringBufferLength]; snprintf(paramLine, kStringBufferLength, "[ /%3i][ / ][ / ]", value); screen.textToBuffer(paramLine, kMenuLine2); tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMaxY, value); } else if (selectedMenu == &mixModeKeyerMenuMinU) { int value = settings.editingKeyerSetValue(SPKSettings::minU); value += menuChange; if (value > settings.editingKeyerSetValue(SPKSettings::maxU)) value = settings.editingKeyerSetValue(SPKSettings::maxU); if (value > 255) value = 255; settings.setEditingKeyerSetValue(SPKSettings::minU, value); screen.clearBufferRow(kMenuLine2); char paramLine[kStringBufferLength]; snprintf(paramLine, kStringBufferLength, "[%3i/%3i][%3i/%3i][ / ]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY), value, settings.editingKeyerSetValue(SPKSettings::maxU)); screen.textToBuffer(paramLine, kMenuLine2); tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMinU, value); } else if (selectedMenu == &mixModeKeyerMenuMaxU) { int value = settings.editingKeyerSetValue(SPKSettings::maxU); value += menuChange; if (value < 0) value = 0; if (value > 255) value = 255; settings.setEditingKeyerSetValue(SPKSettings::maxU, value); screen.clearBufferRow(kMenuLine2); char paramLine[kStringBufferLength]; snprintf(paramLine, kStringBufferLength, "[%3i/%3i][ /%3i][ / ]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY), value); screen.textToBuffer(paramLine, kMenuLine2); tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMaxU, value); } else if (selectedMenu == &mixModeKeyerMenuMinV) { int value = settings.editingKeyerSetValue(SPKSettings::minV); value += menuChange; if (value > settings.editingKeyerSetValue(SPKSettings::maxV)) value = settings.editingKeyerSetValue(SPKSettings::maxV); if (value > 255) value = 255; settings.setEditingKeyerSetValue(SPKSettings::minV, value); screen.clearBufferRow(kMenuLine2); char paramLine[kStringBufferLength]; snprintf(paramLine, kStringBufferLength, "[%3i/%3i][%3i/%3i][%3i/%3i]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY), settings.editingKeyerSetValue(SPKSettings::minU), settings.editingKeyerSetValue(SPKSettings::maxU), value, settings.editingKeyerSetValue(SPKSettings::maxV)); screen.textToBuffer(paramLine, kMenuLine2); tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMinV, value); } else if (selectedMenu == &mixModeKeyerMenuMaxV) { int value = settings.editingKeyerSetValue(SPKSettings::maxV); value += menuChange; if (value < 0) value = 0; if (value > 255) value = 255; settings.setEditingKeyerSetValue(SPKSettings::maxV, value); screen.clearBufferRow(kMenuLine2); char paramLine[kStringBufferLength]; snprintf(paramLine, kStringBufferLength, "[%3i/%3i][%3i/%3i][ /%3i]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY), settings.editingKeyerSetValue(SPKSettings::minU), settings.editingKeyerSetValue(SPKSettings::maxU), value); screen.textToBuffer(paramLine, kMenuLine2); tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustKeyerMaxV, value); } } else { if (debug) debug->printf("Menu changed by %i\r\n", menuChange); *selectedMenu = selectedMenu->selectedIndex() + menuChange; // update OLED line 2 here screen.clearBufferRow(kMenuLine2); screen.textToBuffer(selectedMenu->selectedString(), kMenuLine2); if (debug) debug->printf("%s \r\n", selectedMenu->selectedString().c_str()); } } // Action menu item if (menuEnc.hasPressed()) { if (debug) debug->printf("Action Menu Item!\r\n"); // Are we changing menus? if (selectedMenu->selectedItem().type == SPKMenuItem::changesToMenu) { // If we're exiting the menu, we should set its selected index back to the menu's beginning... SPKMenu* menuToReset = selectedMenu->selectedItem().payload.menu == &mainMenu? selectedMenu : NULL; // point selected menu pointer to the new menu pointer selectedMenu = selectedMenu->selectedItem().payload.menu; // ...doing this, of course, after we've used the value if (menuToReset) *menuToReset = 0; // update OLED lines 1&2 screen.clearBufferRow(kMenuLine1); screen.clearBufferRow(kMenuLine2); screen.textToBuffer(selectedMenu->title, kMenuLine1); screen.textToBuffer(selectedMenu->selectedString(), kMenuLine2); if (debug) { debug->printf("\r\n"); debug->printf("%s \r\n", selectedMenu->title.c_str()); debug->printf("%s \r\n", selectedMenu->selectedString().c_str()); } // Are we changing menus that should have a command attached? if (selectedMenu == &mixModeAdditiveMenu) { screen.clearBufferRow(kMenuLine2); screen.textToBuffer("Blend [ ----- ] Add", kMenuLine2); screen.characterToBuffer('X', 38 + fadeCurve*20.0f, kMenuLine2); mixMode = fadeCurve > 0 ? mixAdditive : mixBlend; updateMixMode = true; } else if (selectedMenu == &mixModeKeyerMenuUpdate) { screen.clearBufferRow(kMenuLine2); if (settings.editingKeyerSetIndex == mixModeMenu.selectedIndex() - mixKeyStartIndex) screen.textToBuffer("[Yes/ ]", kMenuLine2); else screen.textToBuffer("[ /No]", kMenuLine2); mixMode = mixKey; updateMixMode = true; } else if (selectedMenu == &mixModeKeyerMenuMinY) { char paramLine[kStringBufferLength]; screen.clearBufferRow(kMenuLine2); snprintf(paramLine, kStringBufferLength, "[%3i/%3i][ / ][ / ]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY)); screen.textToBuffer(paramLine, kMenuLine2); } else if (selectedMenu == &mixModeKeyerMenuMaxY) { // First, check outcome of menu that got us here: mixModeKeyerMenuUpdate if (settings.editingKeyerSetIndex == -1) { selectedMenu = &mixModeMenu; // update OLED lines 1&2 screen.clearBufferRow(kMenuLine1); screen.clearBufferRow(kMenuLine2); screen.textToBuffer(selectedMenu->title, kMenuLine1); screen.textToBuffer(selectedMenu->selectedString(), kMenuLine2); } else { char paramLine[kStringBufferLength]; screen.clearBufferRow(kMenuLine2); snprintf(paramLine, kStringBufferLength, "[ /%3i][ / ][ / ]", settings.editingKeyerSetValue(SPKSettings::maxY)); screen.textToBuffer(paramLine, kMenuLine2); } } else if (selectedMenu == &mixModeKeyerMenuMinU) { char paramLine[kStringBufferLength]; screen.clearBufferRow(kMenuLine2); snprintf(paramLine, kStringBufferLength, "[%3i/%3i][%3i/%3i][ / ]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY), settings.editingKeyerSetValue(SPKSettings::minU), settings.editingKeyerSetValue(SPKSettings::maxU)); screen.textToBuffer(paramLine, kMenuLine2); } else if (selectedMenu == &mixModeKeyerMenuMaxU) { char paramLine[kStringBufferLength]; screen.clearBufferRow(kMenuLine2); snprintf(paramLine, kStringBufferLength, "[%3i/%3i][ /%3i][ / ]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY), settings.editingKeyerSetValue(SPKSettings::maxU)); screen.textToBuffer(paramLine, kMenuLine2); } else if (selectedMenu == &mixModeKeyerMenuMinV) { char paramLine[kStringBufferLength]; screen.clearBufferRow(kMenuLine2); snprintf(paramLine, kStringBufferLength, "[%3i/%3i][%3i/%3i][%3i/%3i]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY), settings.editingKeyerSetValue(SPKSettings::minU), settings.editingKeyerSetValue(SPKSettings::maxU), settings.editingKeyerSetValue(SPKSettings::minV), settings.editingKeyerSetValue(SPKSettings::maxV)); screen.textToBuffer(paramLine, kMenuLine2); } else if (selectedMenu == &mixModeKeyerMenuMaxV) { char paramLine[kStringBufferLength]; screen.clearBufferRow(kMenuLine2); snprintf(paramLine, kStringBufferLength, "[%3i/%3i][%3i/%3i][ /%3i]", settings.editingKeyerSetValue(SPKSettings::minY), settings.editingKeyerSetValue(SPKSettings::maxY), settings.editingKeyerSetValue(SPKSettings::minU), settings.editingKeyerSetValue(SPKSettings::maxU), settings.editingKeyerSetValue(SPKSettings::maxV)); screen.textToBuffer(paramLine, kMenuLine2); } } // With that out of the way, we should be actioning a specific menu's payload? else if (selectedMenu == &resolutionMenu) { bool ok = true; ok = tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustOutputsOutputResolution, resolutionMenu.selectedItem().payload.command[0]); int32_t slot = tvOneEDIDPassthrough ? EDIDPassthroughSlot : resolutionMenu.selectedItem().payload.command[1]; ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustSourceEDID, slot); ok = ok && tvOne.command(kTV1SourceRGB2, kTV1WindowIDA, kTV1FunctionAdjustSourceEDID, slot); // Save new resolution and EDID into TV One unit for power-on. Cycling TV One power sometimes needed for EDID. Pffft. if (ok) ok = ok && tvOne.command(0, kTV1WindowIDA, kTV1FunctionPowerOnPresetStore, 1); string sentOK; if (ok) sentOK = "Sent: "; else sentOK = "Send Error: "; char sentMSGBuffer[kStringBufferLength]; snprintf(sentMSGBuffer, kStringBufferLength,"Res %i, EDID %i", resolutionMenu.selectedItem().payload.command[0], resolutionMenu.selectedItem().payload.command[1]); screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(sentOK + sentMSGBuffer, kTVOneStatusLine); if (debug) { debug->printf("Changing resolution"); } } else if (selectedMenu == &commsMenu) { string commsTypeString = "Network:"; char commsStatusBuffer[kStringBufferLength] = "--"; // Tear down any existing comms // This is the action of commsNone // And also clears the way for other comms actions commsMode = commsNone; if (osc) {delete osc; osc = NULL;} if (ethernet) {delete ethernet; ethernet = NULL;} if (artNet) { artNet->ArtPollReply.NumPorts = 0; strcpy(artNet->ArtPollReply.NodeReport, "Shutdown"); artNet->SendArtPollReply(); artNet->Done(); delete artNet; artNet = NULL; } if (dmx) {delete dmx; dmx = NULL;} // Ensure we can't change to comms modes the hardware isn't switched to if (rj45Mode == rj45DMX && (commsMenu.selectedItem().payload.command[0] == commsOSC || commsMenu.selectedItem().payload.command[0] == commsArtNet)) { commsTypeString = "RJ45 not in Ethernet mode"; } else if (rj45Mode == rj45Ethernet && (commsMenu.selectedItem().payload.command[0] == commsDMXIn || commsMenu.selectedItem().payload.command[0] == commsDMXOut)) { commsTypeString = "RJ45 not in DMX mode"; } // Action! else if (commsMenu.selectedItem().payload.command[0] == commsOSC) { commsMode = commsOSC; commsTypeString = "OSC: "; ethernet = new EthernetNetIf( IpAddr(kOSCMbedIPAddress), IpAddr(kOSCMbedSubnetMask), IpAddr(kOSCMbedGateway), IpAddr(kOSCMbedDNS) ); EthernetErr ethError = ethernet->setup(); if(ethError) { if (debug) debug->printf("Ethernet setup error, %d", ethError); snprintf(commsStatusBuffer, kStringBufferLength, "Ethernet setup failed"); commsMenu = commsNone; // break out of here. this setup should be a function that returns a boolean } osc = new OSCClass(); osc->setReceiveMessage(&receiveMessage); osc->begin(kOSCMbedPort); snprintf(commsStatusBuffer, kStringBufferLength, "Listening on %i", kOSCMbedPort); } else if (commsMenu.selectedItem().payload.command[0] == commsArtNet) { commsMode = commsArtNet; commsTypeString = "ArtNet: "; artNet = new DmxArtNet(); artNet->BindIpAddress = IpAddr(kArtNetBindIPAddress); artNet->BCastAddress = IpAddr(kArtNetBroadcastAddress); artNet->InitArtPollReplyDefaults(); artNet->ArtPollReply.PortType[0] = 128; // Bit 7 = Set is this channel can output data from the Art-Net Network. artNet->ArtPollReply.GoodOutput[0] = 128; // Bit 7 = Set – Data is being transmitted. artNet->ArtPollReply.PortType[2] = 64; // Bit 6 = Set if this channel can input onto the Art-NetNetwork. artNet->ArtPollReply.GoodInput[2] = 128; // Bit 7 = Set – Data received. artNet->Init(); artNet->SendArtPollReply(); // announce to art-net nodes snprintf(commsStatusBuffer, kStringBufferLength, "Listening"); } else if (commsMenu.selectedItem().payload.command[0] == commsDMXIn) { commsMode = commsDMXIn; commsTypeString = "DMX In: "; dmxDirectionDOUT = 0; dmx = new DMX(kMBED_RS485_TTLTX, kMBED_RS485_TTLRX); } else if (commsMenu.selectedItem().payload.command[0] == commsDMXOut) { commsMode = commsDMXOut; commsTypeString = "DMX Out: "; dmxDirectionDOUT = 1; dmx = new DMX(kMBED_RS485_TTLTX, kMBED_RS485_TTLRX); } screen.clearBufferRow(kCommsStatusLine); screen.textToBuffer(commsTypeString + commsStatusBuffer, kCommsStatusLine); } else if (selectedMenu == &advancedMenu) { if (advancedMenu.selectedItem().payload.command[0] == advancedHDCPOff) { bool ok; ok = tvOne.setHDCPOn(false); std::string sendOK = ok ? "Sent: HDCP Off" : "Send Error: HDCP Off"; screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(sendOK, kTVOneStatusLine); } else if (advancedMenu.selectedItem().payload.command[0] == advancedHDCPOn) { bool ok; ok = tvOne.setHDCPOn(true); std::string sendOK = ok ? "Sent: HDCP On" : "Send Error: HDCP On"; screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(sendOK, kTVOneStatusLine); } else if (advancedMenu.selectedItem().payload.command[0] == advancedEDIDPassthrough) { tvOneEDIDPassthrough = true; bool ok = true; int32_t slot = tvOneEDIDPassthrough ? EDIDPassthroughSlot : resolutionMenu.selectedItem().payload.command[1]; ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustSourceEDID, slot); ok = ok && tvOne.command(kTV1SourceRGB2, kTV1WindowIDA, kTV1FunctionAdjustSourceEDID, slot); std::string sendOK = ok ? "Sent: EDID. Next:conform?" : "Send Error: EDID"; screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(sendOK, kTVOneStatusLine); } else if (advancedMenu.selectedItem().payload.command[0] == advancedEDIDInternal) { tvOneEDIDPassthrough = false; bool ok = true; int32_t slot = tvOneEDIDPassthrough ? EDIDPassthroughSlot : resolutionMenu.selectedItem().payload.command[1]; ok = ok && tvOne.command(kTV1SourceRGB1, kTV1WindowIDA, kTV1FunctionAdjustSourceEDID, slot); ok = ok && tvOne.command(kTV1SourceRGB2, kTV1WindowIDA, kTV1FunctionAdjustSourceEDID, slot); std::string sendOK = ok ? "Sent: EDID. Next:conform?" : "Send Error: EDID"; screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(sendOK, kTVOneStatusLine); } else if (advancedMenu.selectedItem().payload.command[0] == advancedTestSources) { tvOneRGB1Stable = false; tvOneRGB2Stable = false; handleTVOneSources(); } else if (advancedMenu.selectedItem().payload.command[0] == advancedConformProcessor) { screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer("Conforming...", kTVOneStatusLine); screen.sendBuffer(); bool ok = conformProcessor(); std::string sendOK = ok ? "Conform success" : "Send Error: Conform"; screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(sendOK, kTVOneStatusLine); } else if (advancedMenu.selectedItem().payload.command[0] == advancedLoadDefaults) { settings.loadDefaults(); setMixModeMenuItems(); setResolutionMenuItems(); screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer("Controller reverted", kTVOneStatusLine); } else if (advancedMenu.selectedItem().payload.command[0] == advancedSetResolutions) { bool ok; ok = tvOne.setCustomResolutions(); screen.clearBufferRow(kTVOneStatusLine); screen.textToBuffer(ok ? "Resolutions set" : "Res' could not be set", kTVOneStatusLine); } } else { if (debug) { debug->printf("Warning: No action identified"); } } } // Send any updates to the display screen.sendBuffer(); //// MIX MIX MIX MIX MIX MIX MIX MIX MIX MIX MIX MIXMIX MIX MIXMIX MIX MIX MIX MIX MIXMIX MIX MIX bool updateFade = false; float xFade = 0; float fadeUp = 1; //// TASK: Process control surface // Get new states of tap buttons, remembering at end of loop() assign these current values to the previous variables const bool tapLeft = !tapLeftDIN; const bool tapRight = !tapRightDIN; // We're taking a further median of the AINs on top of mbed libs v29. // This takes some values from last passes and most from now. With debug off, seem to need median size > 5 xFadeFilter.process(xFadeAIN.read()); fadeUpFilter.process(fadeUpAIN.read()); xFadeFilter.process(xFadeAIN.read()); fadeUpFilter.process(fadeUpAIN.read()); xFadeFilter.process(xFadeAIN.read()); fadeUpFilter.process(fadeUpAIN.read()); xFadeFilter.process(xFadeAIN.read()); fadeUpFilter.process(fadeUpAIN.read()); const float xFadeAINCached = xFadeFilter.process(xFadeAIN.read()); const float fadeUpAINCached = fadeUpFilter.process(fadeUpAIN.read()); // When a tap is depressed, we can ignore any move of the crossfader but not fade to black if (tapLeft || tapRight) { // If both are pressed, take to the one that is new, ie. not the first pressed. if (tapLeft && tapRight) { xFade = tapLeftWasFirstPressed ? 1 : 0; } // If just one is pressed, take to that and remember which is pressed else if (tapLeft) { xFade = 0; tapLeftWasFirstPressed = 1; } else if (tapRight) { xFade = 1; tapLeftWasFirstPressed = 0; } } else xFade = 1.0 - fadeCalc(xFadeAINCached, xFadeTolerance); fadeUp = 1.0 - fadeCalc(fadeUpAINCached, fadeUpTolerance); //// TASK: Process Network Comms In, ie. modify TVOne state if (commsMode == commsOSC) { if (osc->newMessage) { osc->newMessage = false; // fixme! processOSCIn(xFade, fadeUp); } } if (commsMode == commsArtNet) { if (artNet->Work()) processArtNetIn(xFade, fadeUp); } if (commsMode == commsDMXIn) { processDMXIn(xFade, fadeUp); } if (commsMode == commsDMXOut) { processDMXOut(xFade, fadeUp); } // Calculate new A&B fade percents int newFadeAPercent = 0; int newFadeBPercent = 0; if (mixMode == mixBlend) { if (fadeUp < 1.0) { // we need to set fade level of both windows as there is no way AFAIK to implement fade to black as a further window on top of A&B newFadeAPercent = (1.0-xFade) * fadeUp * 100.0; newFadeBPercent = xFade * fadeUp * 100.0; } else { // we can optimise and just fade A in and out over a fully up B, doubling the rate of fadeA commands sent. newFadeAPercent = (1.0-xFade) * 100.0; newFadeBPercent = 100.0; } } else if (mixMode == mixAdditive) { // we need to set fade level of both windows according to the fade curve profile float newFadeA = (1.0-xFade) * (1.0 + fadeCurve); float newFadeB = xFade * (1 + fadeCurve); if (newFadeA > 1.0) newFadeA = 1.0; if (newFadeB > 1.0) newFadeB = 1.0; newFadeAPercent = newFadeA * fadeUp * 100.0; newFadeBPercent = newFadeB * fadeUp * 100.0; } else if (mixMode >= mixKeyStartIndex) { newFadeAPercent = (1.0-xFade) * fadeUp * 100.0; newFadeBPercent = fadeUp * 100.0; } //// TASK: Send to TVOne if percents have changed // No amount of median filtering is stopping flipflopping between two adjacent percents, so... bool fadeAPercentHasChanged; bool fadeBPercentHasChanged; if (oldFadeAPercent == newFadeAPercent && (newFadeAPercent == fadeAPercent - 1 || newFadeAPercent == fadeAPercent + 1)) fadeAPercentHasChanged = false; else fadeAPercentHasChanged = newFadeAPercent != fadeAPercent; if (oldFadeBPercent == newFadeBPercent && (newFadeBPercent == fadeBPercent - 1 || newFadeBPercent == fadeBPercent + 1)) fadeBPercentHasChanged = false; else fadeBPercentHasChanged = newFadeBPercent != fadeBPercent; // If changing mixMode from additive, we want to do this before updating fade values if (updateMixMode && mixMode != mixAdditive) actionMixMode(); // We want to send the higher first, otherwise black flashes can happen on taps if (fadeAPercentHasChanged && newFadeAPercent >= newFadeBPercent) { oldFadeAPercent = fadeAPercent; fadeAPercent = newFadeAPercent; updateFade = true; fadeAPO = fadeAPercent / 100.0; tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsMaxFadeLevel, fadeAPercent); } if (fadeBPercentHasChanged) { oldFadeBPercent = fadeBPercent; fadeBPercent = newFadeBPercent; updateFade = true; fadeBPO = fadeBPercent / 100.0; tvOne.command(0, kTV1WindowIDB, kTV1FunctionAdjustWindowsMaxFadeLevel, fadeBPercent); } if (fadeAPercentHasChanged && newFadeAPercent < newFadeBPercent) { oldFadeAPercent = fadeAPercent; fadeAPercent = newFadeAPercent; updateFade = true; fadeAPO = fadeAPercent / 100.0; tvOne.command(0, kTV1WindowIDA, kTV1FunctionAdjustWindowsMaxFadeLevel, fadeAPercent); } if (updateFade && debug) { //debug->printf("xFade = %3f fadeUp = %3f \r\n", xFadeAIN.read(), fadeUpAIN.read()); debug->printf("xFade = %3f fadeUp = %3f \r\n", xFadeAINCached, fadeUpAINCached); debug->printf("xFade = %3f fadeUp = %3f fadeA% = %i fadeB% = %i \r\n", xFade, fadeUp, fadeAPercent, fadeBPercent); debug->printf("\r\n"); } // If changing mixMode to additive, we want to do this before updating fade values if (updateMixMode && mixMode == mixAdditive) actionMixMode(); //// TASK: Process Network Comms Out, ie. send out any fade updates if (commsMode == commsOSC && updateFade) { processOSCOut(xFade, fadeUp); } if (commsMode == commsArtNet && updateFade) { processArtNetOut(xFade, fadeUp); } if (commsMode == commsDMXOut && updateFade) { processDMXOut(xFade, fadeUp); } // Housekeeping if (tvOne.millisSinceLastCommandSent() > 1500) { // We should check up on any source that hasn't ever been stable if (!tvOneRGB1Stable || !tvOneRGB2Stable) handleTVOneSources(); } } }