7 years ago · bc5e9dd07f
--- a/src/LayerState.cpp
+++ b/src/LayerState.cpp
 lockedLayer = layerId; 
 } 
 /*Derived classes override setActiveLayer() to also set LED indicator lights e.g. LayerState_LED 
 /* Derived classes override setActiveLayer() to also set LED indicator lights e.g. LayerState_LED 
 */ 
 void LayerState::setActiveLayer(const uint8_t layerId) 
 { 
--- a/tutorials/keybrd_5a_LED_on_uC/keybrd_5a_LED_on_uC.ino
+++ b/tutorials/keybrd_5a_LED_on_uC/keybrd_5a_LED_on_uC.ino
 /* keybrd_5_LEDs.ino
 /* keybrd_5a_LED_on_uC.ino
 This sketch:
 is firmware for a simple 2-layer keyboard with three LEDs
--- a/tutorials/keybrd_5b_LED_on_IOE/keybrd_5b_LED_on_IOE.ino
+++ b/tutorials/keybrd_5b_LED_on_IOE/keybrd_5b_LED_on_IOE.ino
 | Left | **0** | **1** | | Right | **0** | **1** |
 |:-----:|-------|-------|-|:-----:|-------|-------|
 | **1** | 1 | 2 | | **1** | 3 |CapsLck|
 | **0** |  a | b | | **0** | c | d  |
 | **1** |CapsLck| a 1 | | **1** | b 2 | c 3 |
 | **0** | fn | x = | | **0** | y - | z / |
 */
 // ################## GLOBAL ###################
 // ================= INCLUDES ==================
 #include <ScanDelay.h>
 #include <LayerState_LED.h>
 #include <Code_LayerHold.h>
 #include <Code_LEDLock.h>
 #include <Key_LayeredKeys.h>
 #include <Code_Sc.h>
 #include <Row.h>
 //left matrix
 #include <Scanner_uC.h>
 #include <LED_uC.h>
 //right matrix
 #include <PortIOE.h>
 // ============ SPEED CONFIGURATION ============
 ScanDelay scanDelay(9000);
 // ================ LEFT SCANNER ===============
 // ================ LEFT ===============
 // ---------------- LEFT SCANNER ---------------
 uint8_t readPins[] = {14, 15};
 const uint8_t READPIN_COUNT = sizeof(readPins)/sizeof(*readPins);
 const uint8_t readPinCount = sizeof(readPins)/sizeof(*readPins);
 Scanner_uC scanner_L(LOW, readPins, READPIN_COUNT);
 Scanner_uC scanner_L(LOW, readPins, readPinCount);
 // =============== RIGHT SCANNER ===============
 // ----------------- LEFT LEDs -----------------
 LED_uC LED_CapsLck(21);
 // =============== RIGHT ===============
 // --------------- RIGHT SCANNER ---------------
 const uint8_t PortIOE::DEVICE_ADDR = 0x20; //MCP23S17 address with all 3 ADDR pins are grounded
 PortIOE port_A(0);
 PortMCP23S17 portRead(port_A, 1<<0 | 1<<1 );
 PortMCP23S17 portRead(port_A, 1<<0 | 1<<1 );//read and LED
 PortIOE port_B(1);
 PortMCP23S17 portWrite(port_B, 0);
 PortMCP23S17 portWrite(port_B, 0); //write to strobe and LED
 Scanner_IOE scanner_R(LOW, portWrite, portRead);
 // ================ RIGHT LEDs =================
 LED_IOE LED_CapsLck(portRead, 1<<6); //tested LED on port A (read)
 //LED_IOE LED_CapsLck(portWrite, 1<<6);//tested LED on port B (write)
 // ---------------- RIGHT LEDs -----------------
 LED_IOE LED_normal(portRead, 1<<5); //port A
 LED_IOE LED_fn(portWrite, 1<<4); //port B
 // =================== CODES ===================
 // ---------------- LAYER CODE -----------------
 enum layers { NORMAL, FN };
 LED* prtsLayerLEDs[] = { &LED_normal, &LED_fn }; //array index matches enum layerIds
 LayerState_LED layerState(prtsLayerLEDs);
 Code_LayerHold l_fn(FN, layerState);
 // ---------------- SCAN CODES -----------------
 Code_Sc s_a(KEY_A);
 Code_Sc s_b(KEY_B);
 Code_Sc s_c(KEY_C);
 Code_Sc s_d(KEY_D);
 Code_Sc s_x(KEY_X);
 Code_Sc s_y(KEY_Y);
 Code_Sc s_z(KEY_Z);
 Code_Sc s_1(KEY_1);
 Code_Sc s_2(KEY_2);
 Code_Sc s_3(KEY_3);
 Code_Sc s_minus(KEY_MINUS);
 Code_Sc s_equal(KEY_EQUAL);
 Code_Sc s_slash(KEY_SLASH);
 Code_LEDLock o_capsLock(KEY_CAPS_LOCK, LED_CapsLck);
 // =================== KEYS ====================
 //row0
 Key* const ptrsKeys_01[] = { &s_a, &s_1 };
 Key_LayeredKeys k_01(ptrsKeys_01);
 Key* const ptrsKeys_02[] = { &s_b, &s_2 };
 Key_LayeredKeys k_02(ptrsKeys_02);
 Key* const ptrsKeys_03[] = { &s_c, &s_3 };
 Key_LayeredKeys k_03(ptrsKeys_03);
 //row1
 Key* const ptrsKeys_11[] = { &s_x, &s_equal };
 Key_LayeredKeys k_11(ptrsKeys_11);
 Key* const ptrsKeys_12[] = { &s_y, &s_minus };
 Key_LayeredKeys k_12(ptrsKeys_12);
 Key* const ptrsKeys_13[] = { &s_z, &s_slash };
 Key_LayeredKeys k_13(ptrsKeys_13);
 LayerStateInterface& Key_LayeredKeys::refLayerState = layerState;
 // =================== ROWS ====================
 // ---------------- LEFT ROWS ------------------
 Key* ptrsKeys_L0[] = { &s_1, &s_2 };
 Key* ptrsKeys_L0[] = { &o_capsLock, &k_01 };
 const uint8_t KEY_COUNT_L0 = sizeof(ptrsKeys_L0)/sizeof(*ptrsKeys_L0);
 Row row_L0(scanner_L, 0, ptrsKeys_L0, KEY_COUNT_L0);
 Key* ptrsKeys_L1[] = { &s_a, &s_b };
 Key* ptrsKeys_L1[] = { &l_fn, &k_11 };
 const uint8_t KEY_COUNT_L1 = sizeof(ptrsKeys_L1)/sizeof(*ptrsKeys_L1);
 Row row_L1(scanner_L, 1, ptrsKeys_L1, KEY_COUNT_L1);
 // ---------------- RIGHT ROWS -----------------
 Key* ptrsKeys_R0[] = { &s_3, &o_capsLock };
 Key* ptrsKeys_R0[] = { &k_02, &k_03};
 const uint8_t KEY_COUNT_R0 = sizeof(ptrsKeys_R0)/sizeof(*ptrsKeys_R0);
 Row row_R0(scanner_R, 1<<0, ptrsKeys_R0, KEY_COUNT_R0);
 Key* ptrsKeys_R1[] = { &s_c, &s_d };
 Key* ptrsKeys_R1[] = { &k_12, &k_13 };
 const uint8_t KEY_COUNT_R1 = sizeof(ptrsKeys_R1)/sizeof(*ptrsKeys_R1);
 Row row_R1(scanner_R, 1<<1, ptrsKeys_R1, KEY_COUNT_R1);
 void setup()
 {
 Keyboard.begin();
 delay(7000);
 scanner_R.begin();
 layerState.begin();//must be after scanner begin for IOE ?? todo
 }
 void loop()