Pārlūkot izejas kodu

reworked to do arc at a time

Keelan Lightfoot 1 gadu atpakaļ
vecāks
revīzija
303a0e3850
1 mainītis faili ar 88 papildinājumiem un 68 dzēšanām
  1. 88
    68
      main.go

+ 88
- 68
main.go Parādīt failu

@@ -18,7 +18,7 @@ type Word struct {
18 18
 }
19 19
 
20 20
 type GCodeFile struct {
21
-	Blocks map[int]*Block
21
+	Blocks []*Block
22 22
 }
23 23
 
24 24
 type Block struct {
@@ -95,96 +95,110 @@ func main() {
95 95
 	mode := ""
96 96
 	var x, y float64
97 97
 	var lastPoints []point
98
-	arcs := []*arc{}
98
+
99 99
 	scale := ScaleMM
100 100
 
101
-	for lineNumber := 0; lineNumber < len(gc.Blocks); lineNumber++ {
102
-		block := gc.Blocks[lineNumber]
103
-		xyChanged, zChanged, modeChanged := false, false, false
104
-		for _, cmd := range block.Words {
105
-			oldMode := mode
106
-			switch cmd.Address {
107
-			case "G":
108
-				switch cmd.Number {
109
-				case 0:
110
-					mode = "g0"
111
-				case 1:
112
-					mode = "g1"
113
-				case 2:
114
-					mode = "g2"
115
-				case 3:
116
-					mode = "g3"
117
-				case 20:
118
-					scale = ScaleInch
119
-				case 21:
120
-					scale = ScaleMM
101
+	done := false
102
+	startBlock := 0
103
+
104
+	for !done {
105
+		lastPoints = nil
106
+		for lineNumber := startBlock; lineNumber < len(gc.Blocks); lineNumber++ {
107
+			block := gc.Blocks[lineNumber]
108
+			xyChanged, zChanged, modeChanged := false, false, false
109
+			for _, cmd := range block.Words {
110
+				oldMode := mode
111
+				switch cmd.Address {
112
+				case "G":
113
+					switch cmd.Number {
114
+					case 0:
115
+						mode = "g0"
116
+					case 1:
117
+						mode = "g1"
118
+					case 2:
119
+						mode = "g2"
120
+					case 3:
121
+						mode = "g3"
122
+					case 20:
123
+						scale = ScaleInch
124
+					case 21:
125
+						scale = ScaleMM
126
+					}
127
+				case "X":
128
+					x = cmd.Number
129
+					xyChanged = true
130
+				case "Y":
131
+					y = cmd.Number
132
+					xyChanged = true
133
+				case "Z":
134
+					//z = cmd.Number
135
+					zChanged = true
136
+				}
137
+				if mode != oldMode {
138
+					modeChanged = true
121 139
 				}
122
-			case "X":
123
-				x = cmd.Number
124
-				xyChanged = true
125
-			case "Y":
126
-				y = cmd.Number
127
-				xyChanged = true
128
-			case "Z":
129
-				//z = cmd.Number
130
-				zChanged = true
131
-			}
132
-			if mode != oldMode {
133
-				modeChanged = true
134 140
 			}
135
-		}
136 141
 
137
-		newPt := point{x: x, y: y, lineNumber: lineNumber, scale: scale}
142
+			newPt := point{x: x, y: y, lineNumber: lineNumber, scale: scale}
138 143
 
139
-		if zChanged || modeChanged {
140
-			if len(lastPoints) > 0 {
141
-				arcs = append(arcs, findArcs(lastPoints, scale)...)
142
-				lastPoints = make([]point, 0)
144
+			if zChanged || modeChanged {
145
+				if len(lastPoints) > 0 {
146
+					break
147
+				}
148
+			} else if mode == "g1" && xyChanged {
149
+				lastPoints = append(lastPoints, newPt)
143 150
 			}
144
-		} else if mode == "g1" && xyChanged {
145
-			lastPoints = append(lastPoints, newPt)
151
+
146 152
 		}
147 153
 
148
-	}
154
+		if len(lastPoints) == 0 {
155
+			done = true
156
+			break
157
+		}
149 158
 
150
-	if len(lastPoints) > 0 {
151
-		arcs = append(arcs, findArcs(lastPoints, scale)...)
152
-	}
159
+		arc := findArc(lastPoints, scale)
153 160
 
154
-	for _, arc := range arcs {
161
+		if arc == nil {
162
+			if len(gc.Blocks) == startBlock+len(lastPoints) {
163
+				break
164
+			}
165
+			continue
166
+		}
155 167
 
156 168
 		i := (arc.centre.x - arc.startPt.x)
157 169
 		j := (arc.centre.y - arc.startPt.y)
158 170
 
159
-		// clear out old commands
160
-		for i := arc.startBlock; i <= arc.endBlock; i++ {
161
-			delete(gc.Blocks, i)
162
-		}
171
+		spliced := gc.Blocks[:arc.startBlock]
163 172
 
164 173
 		// G1 to move to the beginning point of the arc
165
-		gc.Blocks[arc.startBlock] = &Block{Words: []Word{
174
+		spliced = append(spliced, &Block{Words: []Word{
166 175
 			{Address: "G", Number: 1},
167 176
 			{Address: "X", Number: arc.startPt.x},
168 177
 			{Address: "Y", Number: arc.startPt.y},
169
-		}}
178
+		}})
170 179
 
171 180
 		// G2/G3 to do the arc
172 181
 		dir := 3.0
173 182
 		if arc.clockwise {
174 183
 			dir = 2.0
175 184
 		}
176
-		gc.Blocks[arc.startBlock+1] = &Block{Words: []Word{
185
+		spliced = append(spliced, &Block{Words: []Word{
177 186
 			{Address: "G", Number: dir},
178 187
 			{Address: "I", Number: i},
179 188
 			{Address: "J", Number: j},
180 189
 			{Address: "X", Number: arc.endPt.x},
181 190
 			{Address: "Y", Number: arc.endPt.y},
182
-		}}
191
+		}})
183 192
 
184 193
 		// shove in a G1 for the surviving X and Y commands after the arc
185
-		gc.Blocks[arc.startBlock+2] = &Block{Words: []Word{
194
+		spliced = append(spliced, &Block{Words: []Word{
186 195
 			{Address: "G", Number: 1},
187
-		}}
196
+		}})
197
+		fmt.Println("len(gc.Blocks) =", len(gc.Blocks))
198
+		fmt.Println("arc.startBlock =", arc.startBlock)
199
+		fmt.Println("arc.endBlock =", arc.endBlock)
200
+		gc.Blocks = append(spliced, gc.Blocks[arc.endBlock+1:]...)
201
+		startBlock = len(spliced) + 1
188 202
 	}
189 203
 
190 204
 	gc.Write(os.Stdout)
@@ -200,7 +214,7 @@ func ReadGCodeFile(filename string) (*GCodeFile, error) {
200 214
 
201 215
 	r := regexp.MustCompile(`([A-Z])(\-?[0-9]+\.?[0-9]*)`)
202 216
 
203
-	lines := make(map[int]*Block)
217
+	blocks := make([]*Block, 0)
204 218
 	scanner := bufio.NewScanner(file)
205 219
 	lineNumber := 0
206 220
 	for scanner.Scan() {
@@ -215,17 +229,17 @@ func ReadGCodeFile(filename string) (*GCodeFile, error) {
215 229
 			}
216 230
 			l.Words = append(l.Words, Word{Address: address, Number: number})
217 231
 		}
218
-		lines[lineNumber] = l
232
+		blocks = append(blocks, l)
219 233
 		lineNumber++
220 234
 
221 235
 	}
222 236
 
223
-	log.Printf("Read %d lines.", len(lines))
237
+	log.Printf("Read %d lines.", len(blocks))
224 238
 	if err := scanner.Err(); err != nil {
225 239
 		return nil, err
226 240
 	}
227 241
 
228
-	return &GCodeFile{Blocks: lines}, nil
242
+	return &GCodeFile{Blocks: blocks}, nil
229 243
 }
230 244
 
231 245
 func (g *GCodeFile) Write(w io.Writer) error {
@@ -283,13 +297,13 @@ type arcMidpoint struct {
283 297
 // then the arc is grown from the midpoint until it becomes too un-arc-like to
284 298
 // be considered an arc.
285 299
 
286
-func findArcs(points []point, scale float64) []*arc {
300
+func findArc(points []point, scale float64) *arc {
287 301
 
288 302
 	numTests := 4      // how many circles to test
289 303
 	thresh := 5.0      // 5.0 is definitely not an arc. This value was determined empirically because I'm a slob
290 304
 	growThresh := 0.01 // while in an arc, anything that causes the sd to increase above growThresh terminates the arc
291
-	growThresh = 0.05
292
-	arcs := []*arc{}
305
+	//	growThresh = 0.01
306
+	//	arcs := []*arc{}
293 307
 
294 308
 	// first find things that aren't an arc
295 309
 	inArc := false
@@ -308,10 +322,16 @@ func findArcs(points []point, scale float64) []*arc {
308 322
 		if inArc && (maxDev >= thresh || i == numTestPoints-1) {
309 323
 			fmt.Println("=====")
310 324
 			inArc = false
325
+			//arcStart-=2*numTests
326
+			arcStart += 6
311 327
 			mid := arcStart + ((i - arcStart) / 2)
312 328
 
313
-			midpoint := mid + (3*numTests)/2         // hand tuned compensation for algorithm lag
314
-			width := (i - arcStart) + (5 * numTests) // hand tuned compensation for algorithm sensitivity
329
+			if mid < 0 {
330
+				continue
331
+			}
332
+
333
+			midpoint := mid                          //+ (3*numTests)/2     // hand tuned compensation for algorithm lag
334
+			width := (i - arcStart) + (4 * numTests) // hand tuned compensation for algorithm sensitivity
315 335
 
316 336
 			bestStart, bestEnd, bestCenter, bestRadius, bestSD := growArc(points, midpoint, width, growThresh)
317 337
 			fmt.Printf("TEST %d 0 %d %d %0.8f\n", points[midpoint].lineNumber, bestStart, bestEnd, bestSD)
@@ -344,7 +364,7 @@ func findArcs(points []point, scale float64) []*arc {
344 364
 				clockwise:  clockwise,
345 365
 				scale:      ScaleMM,
346 366
 			}).scaleTo(scale)
347
-			arcs = append(arcs, arc)
367
+			return arc
348 368
 
349 369
 		} else if !inArc && maxDev < thresh {
350 370
 			inArc = true
@@ -353,7 +373,7 @@ func findArcs(points []point, scale float64) []*arc {
353 373
 
354 374
 	}
355 375
 
356
-	return arcs
376
+	return nil
357 377
 }
358 378
 
359 379
 func growArc(points []point, midpoint int, width int, thresh float64) (int, int, point, float64, float64) {