Added option 'H' to G29 P4.
- Added `H` to set a nozzle height adjustment to surface of the bed. - Updated G29 P4 comments to reflect changes.
This commit is contained in:
parent
e687782875
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a1632cfa0a
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@ -115,7 +115,7 @@
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#endif
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#endif
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static float measure_point_with_encoder();
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static float measure_point_with_encoder();
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static float measure_business_card_thickness(float&);
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static float measure_business_card_thickness(float);
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static bool g29_parameter_parsing();
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static bool g29_parameter_parsing();
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static void find_mean_mesh_height();
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static void find_mean_mesh_height();
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static void shift_mesh_height();
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static void shift_mesh_height();
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@ -84,25 +84,23 @@
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*
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*
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* A Activate Activate the Unified Bed Leveling system.
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* A Activate Activate the Unified Bed Leveling system.
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*
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*
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* B # Business Use the 'Business Card' mode of the Manual Probe subsystem. This is invoked as
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* B # Business Use the 'Business Card' mode of the Manual Probe subsystem with P2.
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* G29 P2 B. The mode of G29 P2 allows you to use a business card or recipe card
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* Note: A non-compressible Spark Gap feeler gauge is recommended over a business card.
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* as a shim that the nozzle will pinch as it is lowered. The idea is that you
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* In this mode of G29 P2, a business or index card is used as a shim that the nozzle can
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* can easily feel the nozzle getting to the same height by the amount of resistance
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* grab onto as it is lowered. In principle, the nozzle-bed distance is the same when the
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* the business card exhibits to movement. You should try to achieve the same amount
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* same resistance is felt in the shim. You can omit the numerical value on first invocation
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* of resistance on each probed point to facilitate accurate and repeatable measurements.
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* of G29 P2 B to measure shim thickness. Subsequent use of 'B' will apply the previously-
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* You should be very careful not to drive the nozzle into the business card with a
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* measured thickness by default.
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* lot of force as it is very possible to cause damage to your printer if your are
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* careless. If you use the B option with G29 P2 B you can omit the numeric value
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* on first use to measure the business card's thickness. Subsequent usage of 'B'
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* will apply the previously-measured thickness as the default.
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* Note: A non-compressible Spark Gap feeler gauge is recommended over a Business Card.
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*
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*
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* C Continue Continue, Constant, Current Location. This is not a primary command. C is used to
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* C Continue G29 P1 C continues the generation of a partially-constructed Mesh without invalidating
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* further refine the behaviour of several other commands. Issuing a G29 P1 C will
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* previous measurements.
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* continue the generation of a partially constructed Mesh without invalidating what has
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*
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* been done. Issuing a G29 P2 C will tell the Manual Probe subsystem to use the current
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* C Constant G29 P2 C specifies a Constant and tells the Manual Probe subsystem to use the current
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* location in its search for the closest unmeasured Mesh Point. When used with a G29 Z C
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* location in its search for the closest unmeasured Mesh Point.
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* it indicates to use the current location instead of defaulting to the center of the print bed.
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*
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* G29 P3 C specifies the Constant for the fill. Otherwise, uses a "reasonable" value.
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*
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* C Current G29 Z C uses the Current location (instead of bed center or nearest edge).
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*
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*
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* D Disable Disable the Unified Bed Leveling system.
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* D Disable Disable the Unified Bed Leveling system.
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*
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*
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@ -112,17 +110,18 @@
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* specified height, no correction is applied and natural printer kenimatics take over. If no
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* specified height, no correction is applied and natural printer kenimatics take over. If no
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* number is specified for the command, 10mm is assumed to be reasonable.
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* number is specified for the command, 10mm is assumed to be reasonable.
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*
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*
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* H # Height Specify the Height to raise the nozzle after each manual probe of the bed. The
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* H # Height With P2, 'H' specifies the Height to raise the nozzle after each manual probe of the bed.
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* default is 5mm.
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* If omitted, the nozzle will raise by Z_CLEARANCE_BETWEEN_PROBES.
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*
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*
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* I # Invalidate Invalidate specified number of Mesh Points. The nozzle location is used unless
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* H # Offset With P4, 'H' specifies the Offset above the mesh height to place the nozzle.
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* the X and Y parameter are used. If no number is specified, only the closest Mesh
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* If omitted, Z_CLEARANCE_BETWEEN_PROBES will be used.
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* point to the location is invalidated. The 'T' parameter is also available to produce
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*
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* a map after the operation. This command is useful to invalidate a portion of the
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* I # Invalidate Invalidate the specified number of Mesh Points near the given 'X' 'Y'. If X or Y are omitted,
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* Mesh so it can be adjusted using other tools in the Unified Bed Leveling System. When
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* the nozzle location is used. If no 'I' value is given, only the point nearest to the location
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* attempting to invalidate an isolated bad point in the mesh, the 'T' option will indicate
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* is invalidated. Use 'T' to produce a map afterward. This command is useful to invalidate a
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* where the nozzle is positioned in the Mesh with (#). You can move the nozzle around on
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* portion of the Mesh so it can be adjusted using other UBL tools. When attempting to invalidate
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* the bed and use this feature to select the center of the area (or cell) you want to
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* an isolated bad mesh point, the 'T' option shows the nozzle position in the Mesh with (#). You
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* can move the nozzle around and use this feature to select the center of the area (or cell) to
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* invalidate.
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* invalidate.
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*
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*
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* J # Grid Perform a Grid Based Leveling of the current Mesh using a grid with n points on a side.
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* J # Grid Perform a Grid Based Leveling of the current Mesh using a grid with n points on a side.
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@ -151,95 +150,81 @@
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* area cannot be automatically probed. For Delta printers the area in which DELTA_PROBEABLE_RADIUS
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* area cannot be automatically probed. For Delta printers the area in which DELTA_PROBEABLE_RADIUS
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* and DELTA_PRINTABLE_RADIUS do not overlap will not be automatically probed.
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* and DELTA_PRINTABLE_RADIUS do not overlap will not be automatically probed.
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*
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*
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* These points will be handled in Phase 2 and Phase 3. If the Phase 1 command is given the
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* Unreachable points will be handled in Phase 2 and Phase 3.
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* C (Continue) parameter it does not invalidate the Mesh prior to automatically
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* probing needed locations. This allows you to invalidate portions of the Mesh but still
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* use the automatic probing capabilities of the Unified Bed Leveling System. An X and Y
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* parameter can be given to prioritize where the command should be trying to measure points.
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* If the X and Y parameters are not specified the current probe position is used.
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* P1 accepts a 'T' (Topology) parameter so you can observe mesh generation.
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* P1 also watches for the LCD Panel Encoder Switch to be held down (assuming you have one),
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* and will suspend generation of the Mesh in that case. (Note: This check is only done
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* between probe points, so you must press and hold the switch until the Phase 1 command
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* detects it.)
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*
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*
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* P2 Phase 2 Probe areas of the Mesh that can't be automatically handled. Phase 2 respects an H
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* Use 'C' to leave the previous mesh intact and automatically probe needed points. This allows you
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* parameter to control the height between Mesh points. The default height for movement
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* to invalidate parts of the Mesh but still use Automatic Probing.
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* between Mesh points is 5mm. A smaller number can be used to make this part of the
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* calibration less time consuming. You will be running the nozzle down until it just barely
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* touches the glass. You should have the nozzle clean with no plastic obstructing your view.
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* Use caution and move slowly. It is possible to damage your printer if you are careless.
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* Note that this command will use the configuration #define SIZE_OF_LITTLE_RAISE if the
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* nozzle is moving a distance of less than BIG_RAISE_NOT_NEEDED.
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*
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*
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* The H parameter can be set negative if your Mesh dips in a large area. You can press
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* The 'X' and 'Y' parameters prioritize where to try and measure points. If omitted, the current
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* and hold the LCD Panel's encoder wheel to terminate the current Phase 2 command. You
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* probe position is used.
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* can then re-issue the G29 P 2 command with an H parameter that is more suitable for the
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* area you are manually probing. Note that the command tries to start you in a corner
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* of the bed where movement will be predictable. You can force the location to be used in
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* the distance calculations by using the X and Y parameters. You may find it is helpful to
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* print out a Mesh Map (G29 T) to understand where the mesh is invalidated and where
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* the nozzle will need to move in order to complete the command. The C parameter is
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* available on the Phase 2 command also and indicates the search for points to measure should
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* be done based on the current location of the nozzle.
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*
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*
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* A B parameter is also available for this command and described up above. It places the
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* Use 'T' (Topology) to generate a report of mesh generation.
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* manual probe subsystem into Business Card mode where the thickness of a business card is
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* measured and then used to accurately set the nozzle height in all manual probing for the
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* duration of the command. (S for Shim mode would be a better parameter name, but S is needed
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* for Save or Store of the Mesh to EEPROM) A Business card can be used, but you will have
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* better results if you use a flexible Shim that does not compress very much. That makes it
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* easier for you to get the nozzle to press with similar amounts of force against the shim so you
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* can get accurate measurements. As you are starting to touch the nozzle against the shim try
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* to get it to grasp the shim with the same force as when you measured the thickness of the
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* shim at the start of the command.
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*
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*
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* Phase 2 allows the T (Map) parameter to be specified. This helps the user see the progression
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* P1 will suspend Mesh generation if the controller button is held down. Note that you may need
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* of the Mesh being built.
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* to press and hold the switch for several seconds if moves are underway.
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*
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*
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* NOTE: P2 is not available unless you have LCD support enabled!
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* P2 Phase 2 Probe unreachable points.
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*
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*
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* P3 Phase 3 Fill the unpopulated regions of the Mesh with a fixed value. There are two different paths the
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* Use 'H' to set the height between Mesh points. If omitted, Z_CLEARANCE_BETWEEN_PROBES is used.
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* user can go down. If the user specifies the value using the C parameter, the closest invalid
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* Smaller values will be quicker. Move the nozzle down till it barely touches the bed. Make sure the
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* mesh points to the nozzle will be filled. The user can specify a repeat count using the R
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* nozzle is clean and unobstructed. Use caution and move slowly. This can damage your printer!
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* parameter with the C version of the command.
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* (Uses SIZE_OF_LITTLE_RAISE mm if the nozzle is moving less than BIG_RAISE_NOT_NEEDED mm.)
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*
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*
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* A second version of the fill command is available if no C constant is specified. Not
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* The 'H' value can be negative if the Mesh dips in a large area. Press and hold the
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* specifying a C constant will invoke the 'Smart Fill' algorithm. The G29 P3 command will search
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* controller button to terminate the current Phase 2 command. You can then re-issue "G29 P 2"
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* from the edges of the mesh inward looking for invalid mesh points. It will look at the next
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* with an 'H' parameter more suitable for the area you're manually probing. Note that the command
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* several mesh points to determine if the print bed is sloped up or down. If the bed is sloped
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* tries to start in a corner of the bed where movement will be predictable. Override the distance
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* upward from the invalid mesh point, it will be replaced with the value of the nearest mesh point.
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* calculation location with the X and Y parameters. You can print a Mesh Map (G29 T) to see where
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* If the bed is sloped downward from the invalid mesh point, it will be replaced with a value that
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* the mesh is invalidated and where the nozzle needs to move to complete the command. Use 'C' to
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* puts all three points in a line. The second version of the G29 P3 command is a quick, easy and
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* indicate that the search should be based on the current position.
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* usually safe way to populate the unprobed regions of your mesh so you can continue to the G26
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* Mesh Validation Pattern phase. Please note that you are populating your mesh with unverified
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* numbers. You should use some scrutiny and caution.
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*
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*
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* P4 Phase 4 Fine tune the Mesh. The Delta Mesh Compensation System assume the existence of
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* The 'B' parameter for this command is described above. It places the manual probe subsystem into
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* an LCD Panel. It is possible to fine tune the mesh without the use of an LCD Panel using
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* Business Card mode where the thickness of a business card is measured and then used to accurately
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* G42 and M421; see the UBL documentation for further details.
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* set the nozzle height in all manual probing for the duration of the command. A Business card can
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* be used, but you'll get better results with a flexible Shim that doesn't compress. This makes it
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* easier to produce similar amounts of force and get more accurate measurements. Google if you're
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* not sure how to use a shim.
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*
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*
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* The System will search for the closest Mesh Point to the nozzle. It will move the
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* The 'T' (Map) parameter helps track Mesh building progress.
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* nozzle to this location. The user can use the LCD Panel to carefully adjust the nozzle
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* so it is just barely touching the bed. When the user clicks the control, the System
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* will lock in that height for that point in the Mesh Compensation System.
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*
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*
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* Phase 4 has several additional parameters that the user may find helpful. Phase 4
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* NOTE: P2 requires an LCD controller!
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* can be started at a specific location by specifying an X and Y parameter. Phase 4
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* can be requested to continue the adjustment of Mesh Points by using the R(epeat)
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* parameter. If the Repetition count is not specified, it is assumed the user wishes
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* to adjust the entire matrix. The nozzle is moved to the Mesh Point being edited.
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* The command can be terminated early (or after the area of interest has been edited) by
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* pressing and holding the encoder wheel until the system recognizes the exit request.
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* Phase 4's general form is G29 P4 [R # of points] [X position] [Y position]
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*
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*
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* Phase 4 is intended to be used with the G26 Mesh Validation Command. Using the
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* P3 Phase 3 Fill the unpopulated regions of the Mesh with a fixed value. There are two different paths to
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* information left on the printer's bed from the G26 command it is very straight forward
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* go down:
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* and easy to fine tune the Mesh. One concept that is important to remember and that
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*
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* will make using the Phase 4 command easy to use is this: You are editing the Mesh Points.
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* - If a 'C' constant is specified, the closest invalid mesh points to the nozzle will be filled,
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* If you have too little clearance and not much plastic was extruded in an area, you want to
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* and a repeat count can then also be specified with 'R'.
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* LOWER the Mesh Point at the location. If you did not get good adheasion, you want to
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*
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* RAISE the Mesh Point at that location.
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* - Leaving out 'C' invokes Smart Fill, which scans the mesh from the edges inward looking for
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* invalid mesh points. Adjacent points are used to determine the bed slope. If the bed is sloped
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* upward from the invalid point, it takes the value of the nearest point. If sloped downward, it's
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* replaced by a value that puts all three points in a line. This version of G29 P3 is a quick, easy
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* and (usually) safe way to populate unprobed mesh regions before continuing to G26 Mesh Validation
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* Pattern. Note that this populates the mesh with unverified values. Pay attention and use caution.
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*
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* P4 Phase 4 Fine tune the Mesh. The Delta Mesh Compensation System assumes the existence of
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* an LCD Panel. It is possible to fine tune the mesh without an LCD Panel using
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* G42 and M421. See the UBL documentation for further details.
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*
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* Phase 4 is meant to be used with G26 Mesh Validation to fine tune the mesh by direct editing
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* of Mesh Points. Raise and lower points to fine tune the mesh until it gives consistently reliable
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* adhesion.
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*
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* P4 moves to the closest Mesh Point (and/or the given X Y), raises the nozzle above the mesh height
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* by the given 'H' offset (or default Z_CLEARANCE_BETWEEN_PROBES), and waits while the controller is
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* used to adjust the nozzle height. On click the displayed height is saved in the mesh.
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*
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* Start Phase 4 at a specific location with X and Y. Adjust a specific number of Mesh Points with
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* the 'R' (Repeat) parameter. (If 'R' is left out, the whole matrix is assumed.) This command can be
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* terminated early (e.g., after editing the area of interest) by pressing and holding the encoder button.
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*
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* The general form is G29 P4 [R points] [X position] [Y position]
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*
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* The H [offset] parameter is useful if a shim is used to fine-tune the mesh. For a 0.4mm shim the
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* command would be G29 P4 H0.4. The nozzle is moved to the shim height, you adjust height to the shim,
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* and on click the height minus the shim thickness will be saved in the mesh.
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*
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* !!Use with caution, as a very poor mesh could cause the nozzle to crash into the bed!!
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*
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*
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* NOTE: P4 is not available unless you have LCD support enabled!
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* NOTE: P4 is not available unless you have LCD support enabled!
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*
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*
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@ -494,28 +479,29 @@
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g29_y_pos = current_position[Y_AXIS];
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g29_y_pos = current_position[Y_AXIS];
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}
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}
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float height = Z_CLEARANCE_BETWEEN_PROBES;
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if (parser.seen('B')) {
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if (parser.seen('B')) {
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g29_card_thickness = parser.has_value() ? parser.value_float() : measure_business_card_thickness(height);
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g29_card_thickness = parser.has_value() ? parser.value_float() : measure_business_card_thickness(Z_CLEARANCE_BETWEEN_PROBES);
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if (FABS(g29_card_thickness) > 1.5) {
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if (FABS(g29_card_thickness) > 1.5) {
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SERIAL_PROTOCOLLNPGM("?Error in Business Card measurement.");
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SERIAL_PROTOCOLLNPGM("?Error in Business Card measurement.");
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return;
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return;
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}
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}
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}
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}
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if (parser.seen('H') && parser.has_value()) height = parser.value_float();
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if (!position_is_reachable_xy(g29_x_pos, g29_y_pos)) {
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if (!position_is_reachable_xy(g29_x_pos, g29_y_pos)) {
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SERIAL_PROTOCOLLNPGM("XY outside printable radius.");
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SERIAL_PROTOCOLLNPGM("XY outside printable radius.");
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return;
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return;
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}
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}
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const float height = parser.seen('H') && parser.has_value() ? parser.value_float() : Z_CLEARANCE_BETWEEN_PROBES;
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manually_probe_remaining_mesh(g29_x_pos, g29_y_pos, height, g29_card_thickness, parser.seen('T'));
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manually_probe_remaining_mesh(g29_x_pos, g29_y_pos, height, g29_card_thickness, parser.seen('T'));
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SERIAL_PROTOCOLLNPGM("G29 P2 finished.");
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SERIAL_PROTOCOLLNPGM("G29 P2 finished.");
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#else
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#else
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SERIAL_PROTOCOLLNPGM("?P2 is only available when an LCD is present.");
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SERIAL_PROTOCOLLNPGM("?P2 is only available when an LCD is present.");
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return;
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return;
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#endif
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#endif
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} break;
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} break;
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@ -537,19 +523,17 @@
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if (location.x_index < 0) {
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if (location.x_index < 0) {
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// No more REACHABLE INVALID mesh points to populate, so we ASSUME
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// No more REACHABLE INVALID mesh points to populate, so we ASSUME
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// user meant to populate ALL INVALID mesh points to value
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// user meant to populate ALL INVALID mesh points to value
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for (uint8_t x = 0; x < GRID_MAX_POINTS_X; x++) {
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for (uint8_t x = 0; x < GRID_MAX_POINTS_X; x++)
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for (uint8_t y = 0; y < GRID_MAX_POINTS_Y; y++) {
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for (uint8_t y = 0; y < GRID_MAX_POINTS_Y; y++)
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if ( isnan(z_values[x][y])) {
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if (isnan(z_values[x][y]))
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z_values[x][y] = g29_constant;
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z_values[x][y] = g29_constant;
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}
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}
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}
|
|
||||||
break; // No more invalid Mesh Points to populate
|
break; // No more invalid Mesh Points to populate
|
||||||
}
|
}
|
||||||
z_values[location.x_index][location.y_index] = g29_constant;
|
z_values[location.x_index][location.y_index] = g29_constant;
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
} else {
|
}
|
||||||
|
else {
|
||||||
const float cvf = parser.value_float();
|
const float cvf = parser.value_float();
|
||||||
switch((int)truncf(cvf * 10.0) - 30) { // 3.1 -> 1
|
switch((int)truncf(cvf * 10.0) - 30) { // 3.1 -> 1
|
||||||
#if ENABLED(UBL_G29_P31)
|
#if ENABLED(UBL_G29_P31)
|
||||||
|
@ -967,7 +951,7 @@
|
||||||
|
|
||||||
static void echo_and_take_a_measurement() { SERIAL_PROTOCOLLNPGM(" and take a measurement."); }
|
static void echo_and_take_a_measurement() { SERIAL_PROTOCOLLNPGM(" and take a measurement."); }
|
||||||
|
|
||||||
float unified_bed_leveling::measure_business_card_thickness(float &in_height) {
|
float unified_bed_leveling::measure_business_card_thickness(float in_height) {
|
||||||
has_control_of_lcd_panel = true;
|
has_control_of_lcd_panel = true;
|
||||||
save_ubl_active_state_and_disable(); // Disable bed level correction for probing
|
save_ubl_active_state_and_disable(); // Disable bed level correction for probing
|
||||||
|
|
||||||
|
@ -1466,12 +1450,21 @@
|
||||||
}
|
}
|
||||||
|
|
||||||
#if ENABLED(NEWPANEL)
|
#if ENABLED(NEWPANEL)
|
||||||
|
|
||||||
void unified_bed_leveling::fine_tune_mesh(const float &lx, const float &ly, const bool do_ubl_mesh_map) {
|
void unified_bed_leveling::fine_tune_mesh(const float &lx, const float &ly, const bool do_ubl_mesh_map) {
|
||||||
if (!parser.seen('R')) // fine_tune_mesh() is special. If no repetition count flag is specified
|
if (!parser.seen('R')) // fine_tune_mesh() is special. If no repetition count flag is specified
|
||||||
g29_repetition_cnt = 1; // do exactly one mesh location. Otherwise use what the parser decided.
|
g29_repetition_cnt = 1; // do exactly one mesh location. Otherwise use what the parser decided.
|
||||||
|
|
||||||
|
#if ENABLED(UBL_MESH_EDIT_MOVES_Z)
|
||||||
|
const bool is_offset = parser.seen('H');
|
||||||
|
const float h_offset = is_offset ? parser.value_linear_units() : Z_CLEARANCE_BETWEEN_PROBES;
|
||||||
|
if (is_offset && !WITHIN(h_offset, 0, 10)) {
|
||||||
|
SERIAL_PROTOCOLLNPGM("Offset out of bounds. (0 to 10mm)\n");
|
||||||
|
return;
|
||||||
|
}
|
||||||
|
#endif
|
||||||
|
|
||||||
mesh_index_pair location;
|
mesh_index_pair location;
|
||||||
uint16_t not_done[16];
|
|
||||||
|
|
||||||
if (!position_is_reachable_xy(lx, ly)) {
|
if (!position_is_reachable_xy(lx, ly)) {
|
||||||
SERIAL_PROTOCOLLNPGM("(X,Y) outside printable radius.");
|
SERIAL_PROTOCOLLNPGM("(X,Y) outside printable radius.");
|
||||||
|
@ -1480,12 +1473,13 @@
|
||||||
|
|
||||||
save_ubl_active_state_and_disable();
|
save_ubl_active_state_and_disable();
|
||||||
|
|
||||||
memset(not_done, 0xFF, sizeof(not_done));
|
|
||||||
|
|
||||||
LCD_MESSAGEPGM(MSG_UBL_FINE_TUNE_MESH);
|
LCD_MESSAGEPGM(MSG_UBL_FINE_TUNE_MESH);
|
||||||
|
|
||||||
do_blocking_move_to_z(Z_CLEARANCE_BETWEEN_PROBES);
|
do_blocking_move_to_z(Z_CLEARANCE_BETWEEN_PROBES);
|
||||||
do_blocking_move_to_xy(lx, ly);
|
do_blocking_move_to_xy(lx, ly);
|
||||||
|
|
||||||
|
uint16_t not_done[16];
|
||||||
|
memset(not_done, 0xFF, sizeof(not_done));
|
||||||
do {
|
do {
|
||||||
location = find_closest_mesh_point_of_type(SET_IN_BITMAP, lx, ly, USE_NOZZLE_AS_REFERENCE, not_done, false);
|
location = find_closest_mesh_point_of_type(SET_IN_BITMAP, lx, ly, USE_NOZZLE_AS_REFERENCE, not_done, false);
|
||||||
|
|
||||||
|
@ -1521,8 +1515,8 @@
|
||||||
|
|
||||||
do {
|
do {
|
||||||
new_z = lcd_mesh_edit();
|
new_z = lcd_mesh_edit();
|
||||||
#ifdef UBL_MESH_EDIT_MOVES_Z
|
#if ENABLED(UBL_MESH_EDIT_MOVES_Z)
|
||||||
do_blocking_move_to_z(Z_CLEARANCE_BETWEEN_PROBES + new_z); // Move the nozzle as the point is edited
|
do_blocking_move_to_z(h_offset + new_z); // Move the nozzle as the point is edited
|
||||||
#endif
|
#endif
|
||||||
idle();
|
idle();
|
||||||
} while (!ubl_lcd_clicked());
|
} while (!ubl_lcd_clicked());
|
||||||
|
@ -1581,7 +1575,8 @@
|
||||||
}
|
}
|
||||||
else lcd_return_to_status();
|
else lcd_return_to_status();
|
||||||
}
|
}
|
||||||
#endif
|
|
||||||
|
#endif // NEWPANEL
|
||||||
|
|
||||||
/**
|
/**
|
||||||
* 'Smart Fill': Scan from the outward edges of the mesh towards the center.
|
* 'Smart Fill': Scan from the outward edges of the mesh towards the center.
|
||||||
|
|
Loading…
Reference in a new issue