资源说明:Generates from bitmaps g-code for cutting halftone images
Building the CNC Halftone Wizard If you want to (or have to) build the app from source, it's pretty painless if you've already got Qt and a C++ compiler installed on your computer. Many linux distros include these in their standard configuration, so if you're building the app under linux, you probably won't even have to worry about them. Under Windows, you may need to install these things (Qt supports the Intel, MinGW, and Microsoft C++ compilers); how to set up a Windows C++/Qt development environment is more than I want to tackle in these instructions, but there are probably plenty of tutorials out there on the intertubes. I have no idea how to go about building C++/Qt apps (or any apps, for that matter) on a Mac; my understanding is that it's probably about as easy as it is under linux, but you'll have to ask Mr. Google about that. Once you have Qt and a C++ compiler installed and configured on your machine, you should be able to build the app by typing these commands from a command prompt in the directory that holds the CNC Halftone Wizard source code (most likely, that is the directory where the file that you're reading right now is): qmake CNCHalftoneWizard.pro make If you're using Microsoft's compiler, you'll need to type 'nmake' instead of 'make'. Also, you may have noticed that I've been a bit schizophrenic about naming this thing. The qmake command should only take a few seconds; it's building the 'makefile' that the next command will use. The make (or nmake) command will take a bit longer as it compiles each source file and then links them into the final app. If, after the make command finishes, there is nothing saying "error" in the output, the app should be in the 'release' directory of the directory where you ran the commands from. I developed this app under Windows 7 using Microsoft Visual Studio 2005 and Qt 4.5.0. I didn't do anything tricky in my code, so it should have no problems compiling under more current versions of MSVC and Qt (and it should run under Windows XP, Vista and Windows 7). I've also verified that the app builds and runs under Ubuntu 10.10, so there shouldn't be any problems building and running this app under most recent linux distros. Running the pre-built Windows App If you're running the pre-built app, you may need to install the proper Microsoft Visual C++ 2005 redistributable DLLs. Finding the one that matches the version of MSVC2005 that I built the app with has been an exercise in futility, so I've simply added the correct one to the git repo. vcredist_x86.exe is the installer for the DLLs needed by the app, but you should try running the app first (before running vcredist_x86.exe) in case you don't need it. If you do need it, you'll get one of a few cryptic error messages, referring to "side-by-side caches" or simply "the application cannot be run". These aren't my error messages! They come from Windows, so I have no control over the cryptic messages that are displayed if all of the app's DLLs aren't just where they should be. Using the CNC Halftone Wizard Using it is fairly straight-forward (spoken like a true software developer). First, you load an image that you want to generate some halftone g-code for: Click on 'Open' in the File menu and then navigate to the file that you want to perform some Halftone wizardry on. In the Halftone tab of the app, there are three fields that you can change: * Source Pixel Step: This number determines how many pixels the halftoning algorithm considers in the source image when calculating the size of the dot in the output. The smaller the number, the more detail will be preserved in the output. For example, if you set the source pixel step to 2, the intensity of four (2x2) pixels will be averaged to determine the dot size of the corresponding output dot. Valid values are in the range [2..30], though anything above 12 or so becomes pretty abstract unless the source image is very large. Also, the spin control changes the value by +/- 2 with each click, but you can specify an odd number by typing it into the control. Odd values will result in additional loss of detail due to rounding errors, but that can create some interesting effects too. * Min Dot Gap: This number specifies the minimum gap, in inches, between each dot. Thus, if there are two dots of maximum intensity next to each other in the output, they will be separated by a gap of the size specified in this field. * Max Cut Depth: This number specifies the maximum depth of the cut as a percentage of the Tool Depth. In the G-Code tab, there is a single field: * Preamble: Use this text field to enter anything you want to appear at the beginning of every generated g-code. The app doesn't interpret or change this text in any way--it just slaps it into the g-code file before the g-code that controls the actual cutting and movement commands. In the Tool tab, there are several values you can change to suit the tool you want to generate g-code for. * Feed: This is the feed rate for cutting operations. * Speed: This is the spindle speed. * Fast Z: This specifies the z height at which the cutting head can be moved safely at a fast rate. * Coolant: Check this box to add coolant on and off g-code commands at the start and end, respectively, of the cutting program. I don't have a machine that is cooled, so this feature is UNTESTED. * Full Tool Depth: The height of the cutting area of the cutting tool/bit. * Full Tool Width: The width of the cutting tool/bit at its widest.
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