From e8701195e66f2d27ffe17fb514eae8173795aaf7 Mon Sep 17 00:00:00 2001 From: Georgiy Bondarenko <69736697+nehilo@users.noreply.github.com> Date: Thu, 4 Mar 2021 22:54:23 +0500 Subject: Initial commit --- Marlin/src/feature/max7219.cpp | 700 +++++++++++++++++++++++++++++++++++++++++ 1 file changed, 700 insertions(+) create mode 100644 Marlin/src/feature/max7219.cpp (limited to 'Marlin/src/feature/max7219.cpp') diff --git a/Marlin/src/feature/max7219.cpp b/Marlin/src/feature/max7219.cpp new file mode 100644 index 0000000..ebcb564 --- /dev/null +++ b/Marlin/src/feature/max7219.cpp @@ -0,0 +1,700 @@ +/** + * Marlin 3D Printer Firmware + * Copyright (c) 2020 MarlinFirmware [https://github.com/MarlinFirmware/Marlin] + * + * Based on Sprinter and grbl. + * Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm + * + * This program is free software: you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation, either version 3 of the License, or + * (at your option) any later version. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program. If not, see . + * + */ + +/** + * This module is off by default, but can be enabled to facilitate the display of + * extra debug information during code development. + * + * Just connect up 5V and GND to give it power, then connect up the pins assigned + * in Configuration_adv.h. For example, on the Re-ARM you could use: + * + * #define MAX7219_CLK_PIN 77 + * #define MAX7219_DIN_PIN 78 + * #define MAX7219_LOAD_PIN 79 + * + * send() is called automatically at startup, and then there are a number of + * support functions available to control the LEDs in the 8x8 grid. + */ + +#include "../inc/MarlinConfigPre.h" + +#if ENABLED(MAX7219_DEBUG) + +#define MAX7219_ERRORS // Disable to save 406 bytes of Program Memory + +#include "max7219.h" + +#include "../module/planner.h" +#include "../module/stepper.h" +#include "../MarlinCore.h" +#include "../HAL/shared/Delay.h" + +#if ENABLED(MAX7219_SIDE_BY_SIDE) && MAX7219_NUMBER_UNITS > 1 + #define HAS_SIDE_BY_SIDE 1 +#endif + +#if _ROT == 0 || _ROT == 180 + #define MAX7219_X_LEDS TERN(HAS_SIDE_BY_SIDE, 8, MAX7219_LINES) + #define MAX7219_Y_LEDS TERN(HAS_SIDE_BY_SIDE, MAX7219_LINES, 8) +#elif _ROT == 90 || _ROT == 270 + #define MAX7219_X_LEDS TERN(HAS_SIDE_BY_SIDE, MAX7219_LINES, 8) + #define MAX7219_Y_LEDS TERN(HAS_SIDE_BY_SIDE, 8, MAX7219_LINES) +#else + #error "MAX7219_ROTATE must be a multiple of +/- 90°." +#endif + +Max7219 max7219; + +uint8_t Max7219::led_line[MAX7219_LINES]; // = { 0 }; +uint8_t Max7219::suspended; // = 0; + +#define LINE_REG(Q) (max7219_reg_digit0 + ((Q) & 0x7)) + +#if _ROT == 0 || _ROT == 270 + #define _LED_BIT(Q) (7 - ((Q) & 0x7)) +#else + #define _LED_BIT(Q) ((Q) & 0x7) +#endif +#if _ROT == 0 || _ROT == 180 + #define LED_BIT(X,Y) _LED_BIT(X) +#else + #define LED_BIT(X,Y) _LED_BIT(Y) +#endif +#if _ROT == 0 || _ROT == 90 + #define _LED_IND(P,Q) (_LED_TOP(P) + ((Q) & 0x7)) +#else + #define _LED_IND(P,Q) (_LED_TOP(P) + (7 - ((Q) & 0x7))) +#endif + +#if HAS_SIDE_BY_SIDE + #if (_ROT == 0 || _ROT == 90) == DISABLED(MAX7219_REVERSE_ORDER) + #define _LED_TOP(Q) ((MAX7219_NUMBER_UNITS - 1 - ((Q) >> 3)) << 3) + #else + #define _LED_TOP(Q) ((Q) & ~0x7) + #endif + #if _ROT == 0 || _ROT == 180 + #define LED_IND(X,Y) _LED_IND(Y,Y) + #elif _ROT == 90 || _ROT == 270 + #define LED_IND(X,Y) _LED_IND(X,X) + #endif +#else + #if (_ROT == 0 || _ROT == 270) == DISABLED(MAX7219_REVERSE_ORDER) + #define _LED_TOP(Q) ((Q) & ~0x7) + #else + #define _LED_TOP(Q) ((MAX7219_NUMBER_UNITS - 1 - ((Q) >> 3)) << 3) + #endif + #if _ROT == 0 || _ROT == 180 + #define LED_IND(X,Y) _LED_IND(X,Y) + #elif _ROT == 90 || _ROT == 270 + #define LED_IND(X,Y) _LED_IND(Y,X) + #endif +#endif + +#define XOR_7219(X,Y) do{ led_line[LED_IND(X,Y)] ^= _BV(LED_BIT(X,Y)); }while(0) +#define SET_7219(X,Y) do{ led_line[LED_IND(X,Y)] |= _BV(LED_BIT(X,Y)); }while(0) +#define CLR_7219(X,Y) do{ led_line[LED_IND(X,Y)] &= ~_BV(LED_BIT(X,Y)); }while(0) +#define BIT_7219(X,Y) TEST(led_line[LED_IND(X,Y)], LED_BIT(X,Y)) + +#ifdef CPU_32_BIT + #define SIG_DELAY() DELAY_US(1) // Approximate a 1µs delay on 32-bit ARM + #undef CRITICAL_SECTION_START + #undef CRITICAL_SECTION_END + #define CRITICAL_SECTION_START() NOOP + #define CRITICAL_SECTION_END() NOOP +#else + #define SIG_DELAY() DELAY_NS(250) +#endif + +void Max7219::error(const char * const func, const int32_t v1, const int32_t v2/*=-1*/) { + #if ENABLED(MAX7219_ERRORS) + SERIAL_ECHOPGM("??? Max7219::"); + serialprintPGM(func); + SERIAL_CHAR('('); + SERIAL_ECHO(v1); + if (v2 > 0) SERIAL_ECHOPAIR(", ", v2); + SERIAL_CHAR(')'); + SERIAL_EOL(); + #else + UNUSED(func); UNUSED(v1); UNUSED(v2); + #endif +} + +/** + * Flip the lowest n_bytes of the supplied bits: + * flipped(x, 1) flips the low 8 bits of x. + * flipped(x, 2) flips the low 16 bits of x. + * flipped(x, 3) flips the low 24 bits of x. + * flipped(x, 4) flips the low 32 bits of x. + */ +inline uint32_t flipped(const uint32_t bits, const uint8_t n_bytes) { + uint32_t mask = 1, outbits = 0; + LOOP_L_N(b, n_bytes * 8) { + outbits <<= 1; + if (bits & mask) outbits |= 1; + mask <<= 1; + } + return outbits; +} + +void Max7219::noop() { + CRITICAL_SECTION_START(); + SIG_DELAY(); + WRITE(MAX7219_DIN_PIN, LOW); + for (uint8_t i = 16; i--;) { + SIG_DELAY(); + WRITE(MAX7219_CLK_PIN, LOW); + SIG_DELAY(); + SIG_DELAY(); + WRITE(MAX7219_CLK_PIN, HIGH); + SIG_DELAY(); + } + CRITICAL_SECTION_END(); +} + +void Max7219::putbyte(uint8_t data) { + CRITICAL_SECTION_START(); + for (uint8_t i = 8; i--;) { + SIG_DELAY(); + WRITE(MAX7219_CLK_PIN, LOW); // tick + SIG_DELAY(); + WRITE(MAX7219_DIN_PIN, (data & 0x80) ? HIGH : LOW); // send 1 or 0 based on data bit + SIG_DELAY(); + WRITE(MAX7219_CLK_PIN, HIGH); // tock + SIG_DELAY(); + data <<= 1; + } + CRITICAL_SECTION_END(); +} + +void Max7219::pulse_load() { + SIG_DELAY(); + WRITE(MAX7219_LOAD_PIN, LOW); // tell the chip to load the data + SIG_DELAY(); + WRITE(MAX7219_LOAD_PIN, HIGH); + SIG_DELAY(); +} + +void Max7219::send(const uint8_t reg, const uint8_t data) { + SIG_DELAY(); + CRITICAL_SECTION_START(); + SIG_DELAY(); + putbyte(reg); // specify register + SIG_DELAY(); + putbyte(data); // put data + CRITICAL_SECTION_END(); +} + +// Send out a single native row of bits to just one unit +void Max7219::refresh_unit_line(const uint8_t line) { + if (suspended) return; + #if MAX7219_NUMBER_UNITS == 1 + send(LINE_REG(line), led_line[line]); + #else + for (uint8_t u = MAX7219_NUMBER_UNITS; u--;) + if (u == (line >> 3)) send(LINE_REG(line), led_line[line]); else noop(); + #endif + pulse_load(); +} + +// Send out a single native row of bits to all units +void Max7219::refresh_line(const uint8_t line) { + if (suspended) return; + #if MAX7219_NUMBER_UNITS == 1 + refresh_unit_line(line); + #else + for (uint8_t u = MAX7219_NUMBER_UNITS; u--;) + send(LINE_REG(line), led_line[(u << 3) | (line & 0x7)]); + #endif + pulse_load(); +} + +void Max7219::set(const uint8_t line, const uint8_t bits) { + led_line[line] = bits; + refresh_unit_line(line); +} + +#if ENABLED(MAX7219_NUMERIC) + + // Draw an integer with optional leading zeros and optional decimal point + void Max7219::print(const uint8_t start, int16_t value, uint8_t size, const bool leadzero=false, bool dec=false) { + if (suspended) return; + constexpr uint8_t led_numeral[10] = { 0x7E, 0x60, 0x6D, 0x79, 0x63, 0x5B, 0x5F, 0x70, 0x7F, 0x7A }, + led_decimal = 0x80, led_minus = 0x01; + bool blank = false, neg = value < 0; + if (neg) value *= -1; + while (size--) { + const bool minus = neg && blank; + if (minus) neg = false; + send( + max7219_reg_digit0 + start + size, + minus ? led_minus : blank ? 0x00 : led_numeral[value % 10] | (dec ? led_decimal : 0x00) + ); + pulse_load(); // tell the chips to load the clocked out data + value /= 10; + if (!value && !leadzero) blank = true; + dec = false; + } + } + + // Draw a float with a decimal point and optional digits + void Max7219::print(const uint8_t start, const float value, const uint8_t pre_size, const uint8_t post_size, const bool leadzero=false) { + if (pre_size) print(start, value, pre_size, leadzero, !!post_size); + if (post_size) { + const int16_t after = ABS(value) * (10 ^ post_size); + print(start + pre_size, after, post_size, true); + } + } + +#endif // MAX7219_NUMERIC + +// Modify a single LED bit and send the changed line +void Max7219::led_set(const uint8_t x, const uint8_t y, const bool on) { + if (x >= MAX7219_X_LEDS || y >= MAX7219_Y_LEDS) return error(PSTR("led_set"), x, y); + if (BIT_7219(x, y) == on) return; + XOR_7219(x, y); + refresh_unit_line(LED_IND(x, y)); +} + +void Max7219::led_on(const uint8_t x, const uint8_t y) { + if (x >= MAX7219_X_LEDS || y >= MAX7219_Y_LEDS) return error(PSTR("led_on"), x, y); + led_set(x, y, true); +} + +void Max7219::led_off(const uint8_t x, const uint8_t y) { + if (x >= MAX7219_X_LEDS || y >= MAX7219_Y_LEDS) return error(PSTR("led_off"), x, y); + led_set(x, y, false); +} + +void Max7219::led_toggle(const uint8_t x, const uint8_t y) { + if (x >= MAX7219_X_LEDS || y >= MAX7219_Y_LEDS) return error(PSTR("led_toggle"), x, y); + led_set(x, y, !BIT_7219(x, y)); +} + +void Max7219::send_row(const uint8_t row) { + if (suspended) return; + #if _ROT == 0 || _ROT == 180 // Native Lines are horizontal too + #if MAX7219_X_LEDS <= 8 + refresh_unit_line(LED_IND(0, row)); // A single unit line + #else + refresh_line(LED_IND(0, row)); // Same line, all units + #endif + #else // Native lines are vertical + UNUSED(row); + refresh(); // Actually a column + #endif +} + +void Max7219::send_column(const uint8_t col) { + if (suspended) return; + #if _ROT == 90 || _ROT == 270 // Native Lines are vertical too + #if MAX7219_Y_LEDS <= 8 + refresh_unit_line(LED_IND(col, 0)); // A single unit line + #else + refresh_line(LED_IND(col, 0)); // Same line, all units + #endif + #else // Native lines are horizontal + UNUSED(col); + refresh(); // Actually a row + #endif +} + +void Max7219::clear() { + ZERO(led_line); + refresh(); +} + +void Max7219::fill() { + memset(led_line, 0xFF, sizeof(led_line)); + refresh(); +} + +void Max7219::clear_row(const uint8_t row) { + if (row >= MAX7219_Y_LEDS) return error(PSTR("clear_row"), row); + LOOP_L_N(x, MAX7219_X_LEDS) CLR_7219(x, row); + send_row(row); +} + +void Max7219::clear_column(const uint8_t col) { + if (col >= MAX7219_X_LEDS) return error(PSTR("set_column"), col); + LOOP_L_N(y, MAX7219_Y_LEDS) CLR_7219(col, y); + send_column(col); +} + +/** + * Plot the low order bits of val to the specified row of the matrix. + * With 4 Max7219 units in the chain, it's possible to set 32 bits at + * once with a single call to the function (if rotated 90° or 270°). + */ +void Max7219::set_row(const uint8_t row, const uint32_t val) { + if (row >= MAX7219_Y_LEDS) return error(PSTR("set_row"), row); + uint32_t mask = _BV32(MAX7219_X_LEDS - 1); + LOOP_L_N(x, MAX7219_X_LEDS) { + if (val & mask) SET_7219(x, row); else CLR_7219(x, row); + mask >>= 1; + } + send_row(row); +} + +/** + * Plot the low order bits of val to the specified column of the matrix. + * With 4 Max7219 units in the chain, it's possible to set 32 bits at + * once with a single call to the function (if rotated 0° or 180°). + */ +void Max7219::set_column(const uint8_t col, const uint32_t val) { + if (col >= MAX7219_X_LEDS) return error(PSTR("set_column"), col); + uint32_t mask = _BV32(MAX7219_Y_LEDS - 1); + LOOP_L_N(y, MAX7219_Y_LEDS) { + if (val & mask) SET_7219(col, y); else CLR_7219(col, y); + mask >>= 1; + } + send_column(col); +} + +void Max7219::set_rows_16bits(const uint8_t y, uint32_t val) { + #if MAX7219_X_LEDS == 8 + if (y > MAX7219_Y_LEDS - 2) return error(PSTR("set_rows_16bits"), y, val); + set_row(y + 1, val); val >>= 8; + set_row(y + 0, val); + #else // at least 16 bits on each row + if (y > MAX7219_Y_LEDS - 1) return error(PSTR("set_rows_16bits"), y, val); + set_row(y, val); + #endif +} + +void Max7219::set_rows_32bits(const uint8_t y, uint32_t val) { + #if MAX7219_X_LEDS == 8 + if (y > MAX7219_Y_LEDS - 4) return error(PSTR("set_rows_32bits"), y, val); + set_row(y + 3, val); val >>= 8; + set_row(y + 2, val); val >>= 8; + set_row(y + 1, val); val >>= 8; + set_row(y + 0, val); + #elif MAX7219_X_LEDS == 16 + if (y > MAX7219_Y_LEDS - 2) return error(PSTR("set_rows_32bits"), y, val); + set_row(y + 1, val); val >>= 16; + set_row(y + 0, val); + #else // at least 24 bits on each row. In the 3 matrix case, just display the low 24 bits + if (y > MAX7219_Y_LEDS - 1) return error(PSTR("set_rows_32bits"), y, val); + set_row(y, val); + #endif +} + +void Max7219::set_columns_16bits(const uint8_t x, uint32_t val) { + #if MAX7219_Y_LEDS == 8 + if (x > MAX7219_X_LEDS - 2) return error(PSTR("set_columns_16bits"), x, val); + set_column(x + 0, val); val >>= 8; + set_column(x + 1, val); + #else // at least 16 bits in each column + if (x > MAX7219_X_LEDS - 1) return error(PSTR("set_columns_16bits"), x, val); + set_column(x, val); + #endif +} + +void Max7219::set_columns_32bits(const uint8_t x, uint32_t val) { + #if MAX7219_Y_LEDS == 8 + if (x > MAX7219_X_LEDS - 4) return error(PSTR("set_rows_32bits"), x, val); + set_column(x + 3, val); val >>= 8; + set_column(x + 2, val); val >>= 8; + set_column(x + 1, val); val >>= 8; + set_column(x + 0, val); + #elif MAX7219_Y_LEDS == 16 + if (x > MAX7219_X_LEDS - 2) return error(PSTR("set_rows_32bits"), x, val); + set_column(x + 1, val); val >>= 16; + set_column(x + 0, val); + #else // at least 24 bits on each row. In the 3 matrix case, just display the low 24 bits + if (x > MAX7219_X_LEDS - 1) return error(PSTR("set_rows_32bits"), x, val); + set_column(x, val); + #endif +} + +// Initialize the Max7219 +void Max7219::register_setup() { + LOOP_L_N(i, MAX7219_NUMBER_UNITS) + send(max7219_reg_scanLimit, 0x07); + pulse_load(); // Tell the chips to load the clocked out data + + LOOP_L_N(i, MAX7219_NUMBER_UNITS) + send(max7219_reg_decodeMode, 0x00); // Using an led matrix (not digits) + pulse_load(); // Tell the chips to load the clocked out data + + LOOP_L_N(i, MAX7219_NUMBER_UNITS) + send(max7219_reg_shutdown, 0x01); // Not in shutdown mode + pulse_load(); // Tell the chips to load the clocked out data + + LOOP_L_N(i, MAX7219_NUMBER_UNITS) + send(max7219_reg_displayTest, 0x00); // No display test + pulse_load(); // Tell the chips to load the clocked out data + + LOOP_L_N(i, MAX7219_NUMBER_UNITS) + send(max7219_reg_intensity, 0x01 & 0x0F); // The first 0x0F is the value you can set + // Range: 0x00 to 0x0F + pulse_load(); // Tell the chips to load the clocked out data +} + +#ifdef MAX7219_INIT_TEST + + uint8_t test_mode = 0; + millis_t next_patt_ms; + bool patt_on; + + #if MAX7219_INIT_TEST == 2 + + #define MAX7219_LEDS (MAX7219_X_LEDS * MAX7219_Y_LEDS) + + constexpr millis_t pattern_delay = 4; + + int8_t spiralx, spiraly, spiral_dir; + IF<(MAX7219_LEDS > 255), uint16_t, uint8_t>::type spiral_count; + + void Max7219::test_pattern() { + constexpr int8_t way[][2] = { { 1, 0 }, { 0, 1 }, { -1, 0 }, { 0, -1 } }; + led_set(spiralx, spiraly, patt_on); + const int8_t x = spiralx + way[spiral_dir][0], y = spiraly + way[spiral_dir][1]; + if (!WITHIN(x, 0, MAX7219_X_LEDS - 1) || !WITHIN(y, 0, MAX7219_Y_LEDS - 1) || BIT_7219(x, y) == patt_on) + spiral_dir = (spiral_dir + 1) & 0x3; + spiralx += way[spiral_dir][0]; + spiraly += way[spiral_dir][1]; + if (!spiral_count--) { + if (!patt_on) + test_mode = 0; + else { + spiral_count = MAX7219_LEDS; + spiralx = spiraly = spiral_dir = 0; + patt_on = false; + } + } + } + + #else + + constexpr millis_t pattern_delay = 20; + int8_t sweep_count, sweepx, sweep_dir; + + void Max7219::test_pattern() { + set_column(sweepx, patt_on ? 0xFFFFFFFF : 0x00000000); + sweepx += sweep_dir; + if (!WITHIN(sweepx, 0, MAX7219_X_LEDS - 1)) { + if (!patt_on) { + sweep_dir *= -1; + sweepx += sweep_dir; + } + else + sweepx -= MAX7219_X_LEDS * sweep_dir; + patt_on ^= true; + next_patt_ms += 100; + if (++test_mode > 4) test_mode = 0; + } + } + + #endif + + void Max7219::run_test_pattern() { + const millis_t ms = millis(); + if (PENDING(ms, next_patt_ms)) return; + next_patt_ms = ms + pattern_delay; + test_pattern(); + } + + void Max7219::start_test_pattern() { + clear(); + test_mode = 1; + patt_on = true; + #if MAX7219_INIT_TEST == 2 + spiralx = spiraly = spiral_dir = 0; + spiral_count = MAX7219_LEDS; + #else + sweep_dir = 1; + sweepx = 0; + sweep_count = MAX7219_X_LEDS; + #endif + } + +#endif // MAX7219_INIT_TEST + +void Max7219::init() { + SET_OUTPUT(MAX7219_DIN_PIN); + SET_OUTPUT(MAX7219_CLK_PIN); + OUT_WRITE(MAX7219_LOAD_PIN, HIGH); + delay(1); + + register_setup(); + + LOOP_LE_N(i, 7) { // Empty registers to turn all LEDs off + led_line[i] = 0x00; + send(max7219_reg_digit0 + i, 0); + pulse_load(); // Tell the chips to load the clocked out data + } + + #ifdef MAX7219_INIT_TEST + start_test_pattern(); + #endif +} + +/** + * This code demonstrates some simple debugging using a single 8x8 LED Matrix. If your feature could + * benefit from matrix display, add its code here. Very little processing is required, so the 7219 is + * ideal for debugging when realtime feedback is important but serial output can't be used. + */ + +// Apply changes to update a marker +void Max7219::mark16(const uint8_t pos, const uint8_t v1, const uint8_t v2) { + #if MAX7219_X_LEDS > 8 // At least 16 LEDs on the X-Axis. Use single line. + led_off(v1 & 0xF, pos); + led_on(v2 & 0xF, pos); + #elif MAX7219_Y_LEDS > 8 // At least 16 LEDs on the Y-Axis. Use a single column. + led_off(pos, v1 & 0xF); + led_on(pos, v2 & 0xF); + #else // Single 8x8 LED matrix. Use two lines to get 16 LEDs. + led_off(v1 & 0x7, pos + (v1 >= 8)); + led_on(v2 & 0x7, pos + (v2 >= 8)); + #endif +} + +// Apply changes to update a tail-to-head range +void Max7219::range16(const uint8_t y, const uint8_t ot, const uint8_t nt, const uint8_t oh, const uint8_t nh) { + #if MAX7219_X_LEDS > 8 // At least 16 LEDs on the X-Axis. Use single line. + if (ot != nt) for (uint8_t n = ot & 0xF; n != (nt & 0xF) && n != (nh & 0xF); n = (n + 1) & 0xF) + led_off(n & 0xF, y); + if (oh != nh) for (uint8_t n = (oh + 1) & 0xF; n != ((nh + 1) & 0xF); n = (n + 1) & 0xF) + led_on(n & 0xF, y); + #elif MAX7219_Y_LEDS > 8 // At least 16 LEDs on the Y-Axis. Use a single column. + if (ot != nt) for (uint8_t n = ot & 0xF; n != (nt & 0xF) && n != (nh & 0xF); n = (n + 1) & 0xF) + led_off(y, n & 0xF); + if (oh != nh) for (uint8_t n = (oh + 1) & 0xF; n != ((nh + 1) & 0xF); n = (n + 1) & 0xF) + led_on(y, n & 0xF); + #else // Single 8x8 LED matrix. Use two lines to get 16 LEDs. + if (ot != nt) for (uint8_t n = ot & 0xF; n != (nt & 0xF) && n != (nh & 0xF); n = (n + 1) & 0xF) + led_off(n & 0x7, y + (n >= 8)); + if (oh != nh) for (uint8_t n = (oh + 1) & 0xF; n != ((nh + 1) & 0xF); n = (n + 1) & 0xF) + led_on(n & 0x7, y + (n >= 8)); + #endif +} + +// Apply changes to update a quantity +void Max7219::quantity16(const uint8_t pos, const uint8_t ov, const uint8_t nv) { + for (uint8_t i = _MIN(nv, ov); i < _MAX(nv, ov); i++) + led_set( + #if MAX7219_X_LEDS > 8 // At least 16 LEDs on the X-Axis. Use single line. + i, pos + #elif MAX7219_Y_LEDS > 8 // At least 16 LEDs on the Y-Axis. Use a single column. + pos, i + #else // Single 8x8 LED matrix. Use two lines to get 16 LEDs. + i >> 1, pos + (i & 1) + #endif + , nv >= ov + ); +} + +void Max7219::idle_tasks() { + #define MAX7219_USE_HEAD (defined(MAX7219_DEBUG_PLANNER_HEAD) || defined(MAX7219_DEBUG_PLANNER_QUEUE)) + #define MAX7219_USE_TAIL (defined(MAX7219_DEBUG_PLANNER_TAIL) || defined(MAX7219_DEBUG_PLANNER_QUEUE)) + #if MAX7219_USE_HEAD || MAX7219_USE_TAIL + CRITICAL_SECTION_START(); + #if MAX7219_USE_HEAD + const uint8_t head = planner.block_buffer_head; + #endif + #if MAX7219_USE_TAIL + const uint8_t tail = planner.block_buffer_tail; + #endif + CRITICAL_SECTION_END(); + #endif + + #if ENABLED(MAX7219_DEBUG_PRINTER_ALIVE) + static uint8_t refresh_cnt; // = 0 + constexpr uint16_t refresh_limit = 5; + static millis_t next_blink = 0; + const millis_t ms = millis(); + const bool do_blink = ELAPSED(ms, next_blink); + #else + static uint16_t refresh_cnt; // = 0 + constexpr bool do_blink = true; + constexpr uint16_t refresh_limit = 50000; + #endif + + // Some Max7219 units are vulnerable to electrical noise, especially + // with long wires next to high current wires. If the display becomes + // corrupted, this will fix it within a couple seconds. + if (do_blink && ++refresh_cnt >= refresh_limit) { + refresh_cnt = 0; + register_setup(); + } + + #ifdef MAX7219_INIT_TEST + if (test_mode) { + run_test_pattern(); + return; + } + #endif + + #if ENABLED(MAX7219_DEBUG_PRINTER_ALIVE) + if (do_blink) { + led_toggle(MAX7219_X_LEDS - 1, MAX7219_Y_LEDS - 1); + next_blink = ms + 1000; + } + #endif + + #if defined(MAX7219_DEBUG_PLANNER_HEAD) && defined(MAX7219_DEBUG_PLANNER_TAIL) && MAX7219_DEBUG_PLANNER_HEAD == MAX7219_DEBUG_PLANNER_TAIL + + static int16_t last_head_cnt = 0xF, last_tail_cnt = 0xF; + + if (last_head_cnt != head || last_tail_cnt != tail) { + range16(MAX7219_DEBUG_PLANNER_HEAD, last_tail_cnt, tail, last_head_cnt, head); + last_head_cnt = head; + last_tail_cnt = tail; + } + + #else + + #ifdef MAX7219_DEBUG_PLANNER_HEAD + static int16_t last_head_cnt = 0x1; + if (last_head_cnt != head) { + mark16(MAX7219_DEBUG_PLANNER_HEAD, last_head_cnt, head); + last_head_cnt = head; + } + #endif + + #ifdef MAX7219_DEBUG_PLANNER_TAIL + static int16_t last_tail_cnt = 0x1; + if (last_tail_cnt != tail) { + mark16(MAX7219_DEBUG_PLANNER_TAIL, last_tail_cnt, tail); + last_tail_cnt = tail; + } + #endif + + #endif + + #ifdef MAX7219_DEBUG_PLANNER_QUEUE + static int16_t last_depth = 0; + const int16_t current_depth = (head - tail + BLOCK_BUFFER_SIZE) & (BLOCK_BUFFER_SIZE - 1) & 0xF; + if (current_depth != last_depth) { + quantity16(MAX7219_DEBUG_PLANNER_QUEUE, last_depth, current_depth); + last_depth = current_depth; + } + #endif + + // After resume() automatically do a refresh() + if (suspended == 0x80) { + suspended = 0; + refresh(); + } +} + +#endif // MAX7219_DEBUG -- cgit v1.2.3