🎨 Fix spelling, whitespace
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@ -623,7 +623,7 @@
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#if ENABLED(PIDTEMP)
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#if ENABLED(PIDTEMP)
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//#define PID_PARAMS_PER_HOTEND // Uses separate PID parameters for each extruder (useful for mismatched extruders)
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//#define PID_PARAMS_PER_HOTEND // Uses separate PID parameters for each extruder (useful for mismatched extruders)
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// Set/get with gcode: M301 E[extruder number, 0-2]
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// Set/get with G-code: M301 E[extruder number, 0-2]
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#if ENABLED(PID_PARAMS_PER_HOTEND)
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#if ENABLED(PID_PARAMS_PER_HOTEND)
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// Specify up to one value per hotend here, according to your setup.
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// Specify up to one value per hotend here, according to your setup.
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@ -512,7 +512,7 @@ else ifeq ($(HARDWARE_MOTHERBOARD),1324)
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else ifeq ($(HARDWARE_MOTHERBOARD),1325)
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else ifeq ($(HARDWARE_MOTHERBOARD),1325)
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# Intamsys 4.0 (Funmat HT)
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# Intamsys 4.0 (Funmat HT)
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else ifeq ($(HARDWARE_MOTHERBOARD),1326)
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else ifeq ($(HARDWARE_MOTHERBOARD),1326)
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# Malyan M180 Mainboard Version 2 (no display function, direct gcode only)
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# Malyan M180 Mainboard Version 2 (no display function, direct G-code only)
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else ifeq ($(HARDWARE_MOTHERBOARD),1327)
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else ifeq ($(HARDWARE_MOTHERBOARD),1327)
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# Geeetech GT2560 Rev B for A20(M/T/D)
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# Geeetech GT2560 Rev B for A20(M/T/D)
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else ifeq ($(HARDWARE_MOTHERBOARD),1328)
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else ifeq ($(HARDWARE_MOTHERBOARD),1328)
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@ -161,7 +161,7 @@
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#define BOARD_PICA_REVB 1324 // PICA Shield (original version)
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#define BOARD_PICA_REVB 1324 // PICA Shield (original version)
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#define BOARD_PICA 1325 // PICA Shield (rev C or later)
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#define BOARD_PICA 1325 // PICA Shield (rev C or later)
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#define BOARD_INTAMSYS40 1326 // Intamsys 4.0 (Funmat HT)
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#define BOARD_INTAMSYS40 1326 // Intamsys 4.0 (Funmat HT)
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#define BOARD_MALYAN_M180 1327 // Malyan M180 Mainboard Version 2 (no display function, direct gcode only)
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#define BOARD_MALYAN_M180 1327 // Malyan M180 Mainboard Version 2 (no display function, direct G-code only)
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#define BOARD_GT2560_V4_A20 1328 // Geeetech GT2560 Rev B for A20(M/T/D)
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#define BOARD_GT2560_V4_A20 1328 // Geeetech GT2560 Rev B for A20(M/T/D)
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#define BOARD_PROTONEER_CNC_SHIELD_V3 1329 // Mega controller & Protoneer CNC Shield V3.00
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#define BOARD_PROTONEER_CNC_SHIELD_V3 1329 // Mega controller & Protoneer CNC Shield V3.00
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#define BOARD_WEEDO_62A 1330 // WEEDO 62A board (TINA2, Monoprice Cadet, etc.)
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#define BOARD_WEEDO_62A 1330 // WEEDO 62A board (TINA2, Monoprice Cadet, etc.)
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@ -26,7 +26,7 @@
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* Algorithm & Implementation: Scott Mudge - mail@scottmudge.com
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* Algorithm & Implementation: Scott Mudge - mail@scottmudge.com
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* Date: Dec. 2020
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* Date: Dec. 2020
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*
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*
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* Character Frequencies from ~30 MB of comment-stripped gcode:
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* Character Frequencies from ~30 MB of comment-stripped G-code:
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* '1' -> 4451136 '4' -> 1353273 '\n' -> 1087683 '-' -> 90242
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* '1' -> 4451136 '4' -> 1353273 '\n' -> 1087683 '-' -> 90242
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* '0' -> 4253577 '9' -> 1352147 'G' -> 1075806 'Z' -> 34109
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* '0' -> 4253577 '9' -> 1352147 'G' -> 1075806 'Z' -> 34109
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* ' ' -> 3053297 '3' -> 1262929 'X' -> 975742 'M' -> 11879
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* ' ' -> 3053297 '3' -> 1262929 'X' -> 975742 'M' -> 11879
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@ -29,7 +29,7 @@
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* Specifically optimized for 3D printing G-Code, this is a zero-cost data compression method
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* Specifically optimized for 3D printing G-Code, this is a zero-cost data compression method
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* which packs ~180-190% more data into the same amount of bytes going to the CNC controller.
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* which packs ~180-190% more data into the same amount of bytes going to the CNC controller.
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* As a majority of G-Code can be represented by a restricted alphabet, I performed histogram
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* As a majority of G-Code can be represented by a restricted alphabet, I performed histogram
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* analysis on a wide variety of 3D printing gcode samples, and found ~93% of all gcode could
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* analysis on a wide variety of 3D printing G-code samples, and found ~93% of all G-code could
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* be represented by the same 15-character alphabet.
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* be represented by the same 15-character alphabet.
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*
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*
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* This allowed me to design a system of packing 2 8-bit characters into a single byte, assuming
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* This allowed me to design a system of packing 2 8-bit characters into a single byte, assuming
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@ -38,7 +38,7 @@
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*
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*
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* Combined with some logic to allow commingling of full-width characters outside of this 15-
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* Combined with some logic to allow commingling of full-width characters outside of this 15-
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* character alphabet (at the cost of an extra 8-bits per full-width character), and by stripping
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* character alphabet (at the cost of an extra 8-bits per full-width character), and by stripping
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* out unnecessary comments, the end result is gcode which is roughly half the original size.
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* out unnecessary comments, the end result is G-code which is roughly half the original size.
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*
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*
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* Why did I do this? I noticed micro-stuttering and other data-bottleneck issues while printing
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* Why did I do this? I noticed micro-stuttering and other data-bottleneck issues while printing
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* objects with high curvature, especially at high speeds. There is also the issue of the limited
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* objects with high curvature, especially at high speeds. There is also the issue of the limited
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@ -51,7 +51,7 @@ When done, the MMU sends
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- MMU => 'ok\n'
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- MMU => 'ok\n'
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We don't wait for a response here but immediately continue with the next gcode which should
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We don't wait for a response here but immediately continue with the next G-code which should
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be one or more extruder moves to feed the filament into the hotend.
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be one or more extruder moves to feed the filament into the hotend.
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@ -939,7 +939,7 @@ bool MMU2::load_filament_to_nozzle(const uint8_t index) {
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* Load filament to nozzle of multimaterial printer
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* Load filament to nozzle of multimaterial printer
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*
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*
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* This function is used only after T? (user select filament) and M600 (change filament).
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* This function is used only after T? (user select filament) and M600 (change filament).
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* It is not used after T0 .. T4 command (select filament), in such case, gcode is responsible for loading
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* It is not used after T0 .. T4 command (select filament), in such case, G-code is responsible for loading
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* filament to nozzle.
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* filament to nozzle.
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*/
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*/
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void MMU2::load_to_nozzle() {
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void MMU2::load_to_nozzle() {
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@ -21,7 +21,7 @@
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*/
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*/
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/**
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/**
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* gcode.cpp - Temporary container for all gcode handlers
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* gcode.cpp - Temporary container for all G-code handlers
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* Most will migrate to classes, by feature.
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* Most will migrate to classes, by feature.
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*/
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*/
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@ -110,7 +110,7 @@
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* M33 - Get the longname version of a path. (Requires LONG_FILENAME_HOST_SUPPORT)
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* M33 - Get the longname version of a path. (Requires LONG_FILENAME_HOST_SUPPORT)
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* M34 - Set SD Card sorting options. (Requires SDCARD_SORT_ALPHA)
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* M34 - Set SD Card sorting options. (Requires SDCARD_SORT_ALPHA)
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*
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*
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* M42 - Change pin status via gcode: M42 P<pin> S<value>. LED pin assumed if P is omitted. (Requires DIRECT_PIN_CONTROL)
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* M42 - Change pin status via G-code: M42 P<pin> S<value>. LED pin assumed if P is omitted. (Requires DIRECT_PIN_CONTROL)
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* M43 - Display pin status, watch pins for changes, watch endstops & toggle LED, Z servo probe test, toggle pins (Requires PINS_DEBUGGING)
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* M43 - Display pin status, watch pins for changes, watch endstops & toggle LED, Z servo probe test, toggle pins (Requires PINS_DEBUGGING)
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* M48 - Measure Z Probe repeatability: M48 P<points> X<pos> Y<pos> V<level> E<engage> L<legs> S<chizoid>. (Requires Z_MIN_PROBE_REPEATABILITY_TEST)
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* M48 - Measure Z Probe repeatability: M48 P<points> X<pos> Y<pos> V<level> E<engage> L<legs> S<chizoid>. (Requires Z_MIN_PROBE_REPEATABILITY_TEST)
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*
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*
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@ -45,7 +45,7 @@
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/**
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/**
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* GCode parser
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* GCode parser
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*
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*
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* - Parse a single gcode line for its letter, code, subcode, and parameters
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* - Parse a single G-code line for its letter, code, subcode, and parameters
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* - FASTER_GCODE_PARSER:
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* - FASTER_GCODE_PARSER:
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* - Flags existing params (1 bit each)
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* - Flags existing params (1 bit each)
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* - Stores value offsets (1 byte each)
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* - Stores value offsets (1 byte each)
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@ -708,7 +708,7 @@ void ChironTFT::PanelAction(uint8_t req) {
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// Old TFT A22 X -1F1500 A22 X +1F1500
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// Old TFT A22 X -1F1500 A22 X +1F1500
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// New TFT A22 X-1.0 F1500 A22 X1.0 F1500
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// New TFT A22 X-1.0 F1500 A22 X1.0 F1500
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// lets just wrap this in a gcode relative nonprint move and let the controller deal with it
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// Send a G-code-relative non-print move and let the controller deal with it
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// G91 G0 <panel command> G90
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// G91 G0 <panel command> G90
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if (!isPrinting()) { // Ignore request if printing
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if (!isPrinting()) { // Ignore request if printing
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@ -243,7 +243,7 @@ void DGUSDisplay::WritePGM(const char str[], uint8_t len) {
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}
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}
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void DGUSDisplay::loop() {
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void DGUSDisplay::loop() {
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// protect against recursion… ProcessRx() may indirectly call idle() when injecting gcode commands.
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// Protect against recursion. ProcessRx() may indirectly call idle() when injecting G-code commands.
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if (!no_reentrance) {
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if (!no_reentrance) {
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no_reentrance = true;
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no_reentrance = true;
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ProcessRx();
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ProcessRx();
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@ -24,7 +24,7 @@
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* lcd/extui/malyan/malyan.cpp
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* lcd/extui/malyan/malyan.cpp
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*
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*
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* LCD implementation for Malyan's LCD, a separate ESP8266 MCU running
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* LCD implementation for Malyan's LCD, a separate ESP8266 MCU running
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* on Serial1 for the M200 board. This module outputs a pseudo-gcode
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* on Serial1 for the M200 board. This module outputs a pseudo-G-code
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* wrapped in curly braces which the LCD implementation translates into
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* wrapped in curly braces which the LCD implementation translates into
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* actual G-code commands.
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* actual G-code commands.
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*
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*
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@ -369,7 +369,7 @@ uint32_t lv_open_gcode_file(char *path) {
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card.openFileRead(cur_name);
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card.openFileRead(cur_name);
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card.read(public_buf, 512);
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card.read(public_buf, 512);
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ps4 = (uint32_t *)strstr((char *)public_buf, ";simage:");
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ps4 = (uint32_t *)strstr((char *)public_buf, ";simage:");
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// Ignore the beginning message of gcode file
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// Ignore the beginning message of G-code file
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if (ps4) {
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if (ps4) {
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pre_sread_cnt = (uintptr_t)ps4 - (uintptr_t)((uint32_t *)(&public_buf[0]));
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pre_sread_cnt = (uintptr_t)ps4 - (uintptr_t)((uint32_t *)(&public_buf[0]));
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card.setIndex(pre_sread_cnt);
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card.setIndex(pre_sread_cnt);
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@ -490,7 +490,7 @@ void cutFileName(char *path, int len, int bytePerLine, char *outStr) {
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//&& (strIndex2 != 0) && (strIndex1 < strIndex2)
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//&& (strIndex2 != 0) && (strIndex1 < strIndex2)
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) ? strIndex1 + 1 : tmpFile;
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) ? strIndex1 + 1 : tmpFile;
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if (strIndex2 == 0 || (strIndex1 > strIndex2)) { // not gcode file
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if (strIndex2 == 0 || (strIndex1 > strIndex2)) { // not G-code file
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#if _LFN_UNICODE
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#if _LFN_UNICODE
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if (wcslen(beginIndex) > len)
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if (wcslen(beginIndex) > len)
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wcsncpy(outStr, beginIndex, len);
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wcsncpy(outStr, beginIndex, len);
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@ -503,7 +503,7 @@ void cutFileName(char *path, int len, int bytePerLine, char *outStr) {
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strcpy(outStr, beginIndex);
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strcpy(outStr, beginIndex);
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#endif
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#endif
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}
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}
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else { // gcode file
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else { // G-code file
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if (strIndex2 - beginIndex > (len - 2)) {
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if (strIndex2 - beginIndex > (len - 2)) {
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#if _LFN_UNICODE
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#if _LFN_UNICODE
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wcsncpy(outStr, (const WCHAR *)beginIndex, len - 3);
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wcsncpy(outStr, (const WCHAR *)beginIndex, len - 3);
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@ -159,7 +159,7 @@ void gCfgItems_init() {
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gCfgItems.spi_flash_flag = FLASH_INF_VALID_FLAG;
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gCfgItems.spi_flash_flag = FLASH_INF_VALID_FLAG;
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W25QXX.SPI_FLASH_SectorErase(VAR_INF_ADDR);
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W25QXX.SPI_FLASH_SectorErase(VAR_INF_ADDR);
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&gCfgItems, VAR_INF_ADDR, sizeof(gCfgItems));
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&gCfgItems, VAR_INF_ADDR, sizeof(gCfgItems));
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// init gcode command
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// Init G-code command
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&custom_gcode_command[0], AUTO_LEVELING_COMMAND_ADDR, 100);
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&custom_gcode_command[0], AUTO_LEVELING_COMMAND_ADDR, 100);
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&custom_gcode_command[1], OTHERS_COMMAND_ADDR_1, 100);
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&custom_gcode_command[1], OTHERS_COMMAND_ADDR_1, 100);
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&custom_gcode_command[2], OTHERS_COMMAND_ADDR_2, 100);
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&custom_gcode_command[2], OTHERS_COMMAND_ADDR_2, 100);
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uint8_t command_buf[512];
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uint8_t command_buf[512];
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W25QXX.init(SPI_QUARTER_SPEED);
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W25QXX.init(SPI_QUARTER_SPEED);
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// read back the gcode command before erase spi flash
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// read back the G-code command before erase spi flash
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W25QXX.SPI_FLASH_BufferRead((uint8_t *)&command_buf, GCODE_COMMAND_ADDR, sizeof(command_buf));
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W25QXX.SPI_FLASH_BufferRead((uint8_t *)&command_buf, GCODE_COMMAND_ADDR, sizeof(command_buf));
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W25QXX.SPI_FLASH_SectorErase(VAR_INF_ADDR);
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W25QXX.SPI_FLASH_SectorErase(VAR_INF_ADDR);
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&gCfgItems, VAR_INF_ADDR, sizeof(gCfgItems));
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&gCfgItems, VAR_INF_ADDR, sizeof(gCfgItems));
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uint8_t command_buf[512];
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uint8_t command_buf[512];
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W25QXX.init(SPI_QUARTER_SPEED);
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W25QXX.init(SPI_QUARTER_SPEED);
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// read back the gcode command before erase spi flash
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// read back the G-code command before erase spi flash
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W25QXX.SPI_FLASH_BufferRead((uint8_t *)&command_buf, GCODE_COMMAND_ADDR, sizeof(command_buf));
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W25QXX.SPI_FLASH_BufferRead((uint8_t *)&command_buf, GCODE_COMMAND_ADDR, sizeof(command_buf));
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W25QXX.SPI_FLASH_SectorErase(VAR_INF_ADDR);
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W25QXX.SPI_FLASH_SectorErase(VAR_INF_ADDR);
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&gCfgItems, VAR_INF_ADDR, sizeof(gCfgItems));
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W25QXX.SPI_FLASH_BufferWrite((uint8_t *)&gCfgItems, VAR_INF_ADDR, sizeof(gCfgItems));
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#define VAR_INF_ADDR 0x000000
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#define VAR_INF_ADDR 0x000000
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#define FLASH_INF_VALID_FLAG 0x20201118
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#define FLASH_INF_VALID_FLAG 0x20201118
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// Store some gcode commands, such as auto leveling commands
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// Store some G-code commands, such as auto-leveling commands
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#define GCODE_COMMAND_ADDR VAR_INF_ADDR + 3 * 1024
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#define GCODE_COMMAND_ADDR VAR_INF_ADDR + 3 * 1024
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#define AUTO_LEVELING_COMMAND_ADDR GCODE_COMMAND_ADDR
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#define AUTO_LEVELING_COMMAND_ADDR GCODE_COMMAND_ADDR
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#define OTHERS_COMMAND_ADDR_1 AUTO_LEVELING_COMMAND_ADDR + 100
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#define OTHERS_COMMAND_ADDR_1 AUTO_LEVELING_COMMAND_ADDR + 100
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@ -162,7 +162,7 @@ enum BlockFlag : char {
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* A single entry in the planner buffer.
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* A single entry in the planner buffer.
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* Tracks linear movement over multiple axes.
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* Tracks linear movement over multiple axes.
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*
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*
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* The "nominal" values are as-specified by gcode, and
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* The "nominal" values are as-specified by G-code, and
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* may never actually be reached due to acceleration limits.
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* may never actually be reached due to acceleration limits.
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*/
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*/
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typedef struct block_t {
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typedef struct block_t {
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@ -411,7 +411,7 @@ class Planner {
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/**
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/**
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* The current position of the tool in absolute steps
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* The current position of the tool in absolute steps
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* Recalculated if any axis_steps_per_mm are changed by gcode
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* Recalculated if any axis_steps_per_mm are changed by G-code
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*/
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*/
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static xyze_long_t position;
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static xyze_long_t position;
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#!/usr/bin/env python
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#!/usr/bin/env python
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# This file is for preprocessing gcode and the new G29 Autobedleveling from Marlin
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# This file is for preprocessing G-code and the new G29 Auto bed leveling from Marlin
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# It will analyse the first 2 Layer and return the maximum size for this part
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# It will analyze the first 2 layers and return the maximum size for this part
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# After this it will replace with g29_keyword = ';MarlinG29Script' with the new G29 LRFB
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# Then it will be replaced with g29_keyword = ';MarlinG29Script' with the new G29 LRFB.
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# the new file will be created in the same folder.
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# The new file will be created in the same folder.
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from __future__ import print_function
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from __future__ import print_function
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# your gcode-file/folder
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# Your G-code file/folder
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folder = './'
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folder = './'
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my_file = 'test.gcode'
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my_file = 'test.gcode'
|
||||||
|
|
||||||
|
|
Loading…
Reference in a new issue