X-Git-Url: http://shamusworld.gotdns.org/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=src%2Ffileio.cpp;h=7f1a90a8d08b7e7c634545c0fb78b34dbc1b94c8;hb=86ad64f2288cf50ae9832116ef37c433556355c4;hp=fedddea4fea6729a917fe15510420aa829bef802;hpb=eb0057e8a8145032152e4c417fcd102ef5a21484;p=architektonas

diff --git a/src/fileio.cpp b/src/fileio.cpp
index fedddea..7f1a90a 100644
--- a/src/fileio.cpp
+++ b/src/fileio.cpp
@@ -8,167 +8,386 @@
 // JLH = James Hammons <jlhamm@acm.org>
 //
 // Who  When        What
-// ---  ----------  -------------------------------------------------------------
+// ---  ----------  ------------------------------------------------------------
 // JLH  02/20/2013  Created this file
 //
 
 #include "fileio.h"
 
 //#include <stdio.h>
+#include <errno.h>
 #include <stdlib.h>
 #include <string.h>
 #include <vector>
-#include "arc.h"
-#include "circle.h"
-#include "container.h"
-#include "dimension.h"
-#include "line.h"
+#include "structs.h"
 
-enum ObjectType { OTContainer, OTContainerEnd, OTLine, OTCircle, OTArc, OTDimension,
-	OTPolygon, OTText, OTImage, OTBlock, OTEndOfFile };
+/*
+How to handle connected objects
+-------------------------------
 
+Every Object has a vector<Object *> which enumerates all Objects connected to
+the one we're looking at. So it looks like we'll have to take a two pass
+approach to loading and saving.
 
-/*static*/ bool FileIO::SaveAtnsFile(FILE * file, Container * object)
+Basically, in the saving case, first we write out all objects, keeping a
+pointer-to-index-number record. Second, we loop through all the objects we
+wrote out, writing connection lists. Format (indices are 1-based):
+
+CONNECTIONS
+1: 12 3
+3: 1
+12: 1
+ENDCONNECTIONS
+
+In the reading case, we do pretty much the same: we construct pointer-to-index-
+number list, then read the connection list. The PTIN connects the index to the
+Object pointers we've created. Then we simply call the Object's Connect()
+function to connect the objects.
+
+Small problem though: How does a Dimension know which points on a Line it's
+connected to? This approach tells the Dimension it's connected to the Line and
+the Line that it's connected to the Dimension, but not which points.
+
+How to handle them then? Do we list the point with the Object pointed at? A
+Line can contain an infinite number of points to connect with besides its
+endpoints.
+
+So with each connection Object in the vector, there would also have to be a
+corresponding point to go with it, that would be gotten from the other Object's
+Connect() function. Or, instead of a point, a parameter value?
+
+Doing that, with the Line and a parameter "t", if t == 0 we have endpoint 1.
+if t == 1, then we have endpoint 2. With a Circle, the parameter is a number
+between 0 and 1 (scaled to 0 to 2π). With an Arc, the parameter goes from 0 to
+1, 0 being enpoint 1 and 1 being endpoint 2.
+
+How does this work for moving objects that are connected? Again, with the Line
+and Dimension. The Line's connections looks like this:
+
+Object *: dim1, t = 0
+Object *: dim1, t = 1
+
+Dimension looks like this:
+
+Object *: line1, t = 0
+Object *: line1, t = 1
+
+For Dimensions, it can query the connected object (if any) using something like
+GetPointForParameter(). That way it can figure out where its endpoints are. If
+there is no connected point, then it uses its internal point.
+
+
+Dimensions are special cases of lines: They have exactly *two* points and none
+in between. Therefore, the Dimension object only needs to have two points. But
+those points can be connected to multiple objects. The can also be connected to
+no points/Objects too.
+
+How to describe them and their connections (or lack thereof)?
+
+Would have to be a 2nd pass, after all objects have been written out in order.
+Then you could do something like:
+
+DIMCONNECTIONS
+8 (the Dimension #): 1 (the Object # for point 1) 1 (the Object # for point 2)
+ENDDIMCONNECTIONS
+
+
+
+Connection attributes: E.g., between a Line a Circle, it can be tangent,
+perpendicular, or an arbitrary angle. How to encode that information? It's not
+intrinsic to either the Line or the Circle, but is a function of the
+relationship between them by virtue of their connection.
+
+
+OTHER CONSIDERATIONS:
+---------------------
+
+  - Need to figure out how to store the Layer list (should layer list be optional?)
+  - Need to figure out how to store the Block list and blocks
+
+
+*/
+
+//enum ObjectTypeFile { OTFContainer, OTFContainerEnd, OTFLine, OTFCircle, OTFArc,
+//	OTFDimension, OTFPolygon, OTFText, OTFImage, OTFBlock, OTFEndOfFile };
+enum ObjectTypeFile { OTFContainer, OTFContainerEnd, OTFObject, OTFEndOfFile };
+
+
+// Instantiate class variables
+/*static*/ int FileIO::objectFileType = OTFObject;
+
+
+/*static*/ bool FileIO::SaveAtnsFile(FILE * file, Container * c)
 {
-	/* Approach: loop through the container, doing a depth-first traversal. Any extra
-	   containers found are looped through until there aren't any more down, then
-	   ordinary objects are described. This can be handled by a virtual Object function
-	   that reports the object by itself if it's a non-Container, otherwise it
-	   enumerates all objects within itself. */
-
-	fprintf(file, "ARCHITEKTONAS DRAWING V1.0\n");
-#if 1
-	object->Enumerate(file);
+	/* Approach: loop through the container, doing a depth-first traversal. Any
+	   extra containers found are looped through until there aren't any more
+	   down, then ordinary objects are described. This can be handled by a
+	   virtual Object function that reports the object by itself if it's a non-
+	   Container, otherwise it enumerates all objects within itself. */
+
+	fprintf(file, "ARCHITEKTONAS DRAWING V1.1\n");
+	WriteObjectToFile(file, (Object *)c);
 	fprintf(file, "END\n");
 	return true;
-#else
-	return false;
-#endif
 }
 
 
 /*static*/ bool FileIO::LoadAtnsFile(FILE * file, Container * drawing)
 {
-//	char buffer[256];
 	float version;
 
 	fscanf(file, "ARCHITEKTONAS DRAWING V%f", &version);
 
-//printf("Load: version = %f\n", version);
-	if (version != 1.0)
-		return false;
-	/* Approach: read each object in the file, one by one. If the object is a Container,
-	   add objects to it until an "endContainer" marker is found. This will require a
-	   stack to maintain the current Container. */
+	if (version == 1.0f)
+		return LoadVersion1_0(file, drawing);
+	else if (version == 1.1f)
+		return LoadVersion1_1(file, drawing);
+
+//printf("LoadAtnsFile: Could not locate version! (version=%f)\n", version);
+	return false;
+}
+
 
-#if 1
+/*static*/ bool FileIO::LoadVersion1_0(FILE * file, Container * drawing)
+{
+	// Approach: read each object in the file, one by one. If the object is a
+	// Container, add objects to it until an "endContainer" marker is found.
+	// This will require a stack to maintain the current Container.
 	std::vector<Container *> containerStack;
-	Container * currentTopContainer = drawing;//new Container(Vector(0, 0));
-	Object * object;
-//	ObjectType objectType;
-	int objectType;
+	Container * currentTopContainer = drawing;
 
 	while (!feof(file))
 	{
-		if (FileIO::GetObjectFromFile(file, currentTopContainer, &object, &objectType) == false)
-			return false;
+		// Reconstruct the object
+		Object * obj = GetObjectFromFile(file);
 
-		// object->type down below can be replaced with objType.
-		// Above could be: bool FileIO::GetObjectFromFile(FILE *, Object *, ObjectType *);
-		// where the return value tells if it's a valid object, Object * returns the
-		// reconstructed object and ObjectType * returns the object type.
+		// objectFileType is set in GetObjectFromFile()...
+		if (objectFileType == OTFObject)
+		{
+			if (obj == NULL)
+				return false;
+
+			currentTopContainer->objects.push_back(obj);
+//printf("Load: Adding object. Container size = %li (%li)\n", drawing->objects.size(), currentTopContainer->objects.size());
 
-		if (objectType == OTEndOfFile)
+			// If the object is a container, push current TLC on the stack and
+			// set it as the new TLC
+			if (obj->type == OTContainer)
+			{
+				containerStack.push_back(currentTopContainer);
+				currentTopContainer = (Container *)obj;
+			}
+		}
+		else if (objectFileType == OTFContainerEnd)
 		{
-printf("Load: container size = %li\n", drawing->objects.size());
+			// Container is done, so pop the stack to get back the previous TLC
+			currentTopContainer = containerStack.back();
+			containerStack.pop_back();
+		}
+		else if (objectFileType == OTFEndOfFile)
+		{
+//printf("Load: container size = %li\n", drawing->objects.size());
 			return true;
 		}
-		else if (objectType == OTContainer)
+	}
+
+	return false;
+}
+
+
+/*static*/ bool FileIO::LoadVersion1_1(FILE * file, Container * drawing)
+{
+	// Approach: read each object in the file, one by one. If the object is a
+	// Container, add objects to it until an "endContainer" marker is found.
+	// This will require a stack to maintain the current Container.
+	std::vector<Container *> containerStack;
+	Container * currentTopContainer = drawing;
+
+	while (!feof(file))
+	{
+		// Reconstruct the object (extended format!)
+		Object * obj = GetObjectFromFile(file, true);
+
+		// objectFileType is set in GetObjectFromFile()...
+		if (objectFileType == OTFObject)
 		{
-			containerStack.push_back(currentTopContainer);
-			currentTopContainer = new Container(Vector(0, 0), currentTopContainer);
+			if (obj == NULL)
+				return false;
+
+			currentTopContainer->objects.push_back(obj);
+//printf("Load: Adding object. Container size = %li (%li)\n", drawing->objects.size(), currentTopContainer->objects.size());
+
+			// If the object is a container, push current TLC on the stack and
+			// set it as the new TLC
+			if (obj->type == OTContainer)
+			{
+				containerStack.push_back(currentTopContainer);
+				currentTopContainer = (Container *)obj;
+			}
 		}
-		else if (objectType == OTContainerEnd)
+		else if (objectFileType == OTFContainerEnd)
 		{
-			Container * containerToAdd = currentTopContainer;
+			// Container is done, so pop the stack to get back the previous TLC
 			currentTopContainer = containerStack.back();
 			containerStack.pop_back();
-			currentTopContainer->Add(containerToAdd);
 		}
-		else
+		else if (objectFileType == OTFEndOfFile)
 		{
-			currentTopContainer->Add(object);
-printf("Load: Adding object. Container size = %li (%li)\n", drawing->objects.size(), currentTopContainer->objects.size());
+//printf("Load: container size = %li\n", drawing->objects.size());
+			return true;
 		}
 	}
 
 	return false;
-#else
-	return false;
-#endif
 }
 
 
-/*static*/ bool FileIO::GetObjectFromFile(FILE * file, Object * parent, Object ** object, int * objectType)
+/*static*/ Object * FileIO::GetObjectFromFile(FILE * file, bool extended/*= false*/)
 {
 	char buffer[256];
-	fscanf(file, "%s ", buffer);
-	bool recognized = false;
-//printf("Load: buffer = \"%s\"\n", buffer);
+	int foundLayer = 0;
+	/*int num =*/ fscanf(file, "%s", buffer);
+	Object * obj = NULL;
+	objectFileType = OTFObject;
+//printf("FileIO: fscanf returned %i, buffer = \"%s\"\n", num, buffer);
 
+// The following fugliness is for troubleshooting. Can remove later.
+	if ((strcmp(buffer, "END") != 0) && (strcmp(buffer, "ENDCONTAINER") != 0))
+{
+errno = 0;
+		/*num =*/ fscanf(file, " %i ", &foundLayer);
+//printf("FileIO: fscanf returned %i, foundLayer = %i\n", num, foundLayer);
+if (errno)
+{
+	if (errno == EAGAIN)
+		printf("EAGAIN\n");
+	else if (errno == EBADF)
+		printf("EBADF\n");
+	else if (errno == EILSEQ)
+		printf("EILSEQ\n");
+	else if (errno == EINTR)
+		printf("EINTR\n");
+	else if (errno == EINVAL)
+		printf("EINVAL\n");
+	else if (errno == ENOMEM)
+		printf("ENOMEM\n");
+	else if (errno == ERANGE)
+		printf("ERANGE\n");
+	else
+		printf("errno = %i\n", errno);
+}
+}
+
+	// Need to add pen attributes as well... do that for v1.1 :-P
 	if (strcmp(buffer, "LINE") == 0)
 	{
-//printf("      Found LINE.\n");
-		recognized = true;
-		Vector v1, v2;
-		fscanf(file, "(%lf,%lf) (%lf,%lf)", &v1.x, &v1.y, &v2.x, &v2.y);
-//printf("      Number of params recognized: %i\n", n);
-		*object = new Line(v1, v2, parent);
-		*objectType = OTLine;
+		Point p1, p2;
+		fscanf(file, "(%lf,%lf) (%lf,%lf)", &p1.x, &p1.y, &p2.x, &p2.y);
+		obj = (Object *)new Line(p1, p2);
 	}
 	else if (strcmp(buffer, "CIRCLE") == 0)
 	{
-		recognized = true;
-		Vector v;
+		Point p;
 		double r;
-		fscanf(file, "(%lf,%lf) %lf", &v.x, &v.y, &r);
-		*object = new Circle(v, r, parent);
-		*objectType = OTCircle;
+		fscanf(file, "(%lf,%lf) %lf", &p.x, &p.y, &r);
+		obj = (Object *)new Circle(p, r);
 	}
 	else if (strcmp(buffer, "ARC") == 0)
 	{
-		recognized = true;
-		Vector v;
+		Point p;
 		double r, a1, a2;
-		fscanf(file, "(%lf,%lf) %lf, %lf, %lf", &v.x, &v.y, &r, &a1, &a2);
-		*object = new Arc(v, r, a1, a2, parent);
-		*objectType = OTArc;
+		fscanf(file, "(%lf,%lf) %lf, %lf, %lf", &p.x, &p.y, &r, &a1, &a2);
+		obj = (Object *)new Arc(p, r, a1, a2);
 	}
 	else if (strcmp(buffer, "DIMENSION") == 0)
 	{
-		recognized = true;
-		Vector v1, v2;
+		Point p1, p2;
 		DimensionType type;
-		fscanf(file, "(%lf,%lf) (%lf,%lf) %i", &v1.x, &v1.y, &v2.x, &v2.y, &type);
-		*object = new Dimension(v1, v2, type, parent);
-		*objectType = OTDimension;
+		fscanf(file, "(%lf,%lf) (%lf,%lf) %i", &p1.x, &p1.y, &p2.x, &p2.y, (int *)&type);
+		obj = (Object *)new Dimension(p1, p2, type);
 	}
 	else if (strcmp(buffer, "CONTAINER") == 0)
 	{
-		recognized = true;
-		*objectType = OTContainer;
+		obj = (Object *)new Container();
+//		objectFileType = OTFContainer;
 	}
 	else if (strcmp(buffer, "ENDCONTAINER") == 0)
 	{
-		recognized = true;
-		*objectType = OTContainerEnd;
+		objectFileType = OTFContainerEnd;
 	}
 	else if (strcmp(buffer, "END") == 0)
 	{
-		recognized = true;
-		*objectType = OTEndOfFile;
+		objectFileType = OTFEndOfFile;
+	}
+
+	if (obj != NULL)
+	{
+		obj->layer = foundLayer;
+
+		if (extended && (obj->type != OTContainer))
+		{
+			fscanf(file, " (%i, %f, %i)", &obj->color, &obj->thickness, &obj->style);
+		}
+	}
+
+	return obj;
+}
+
+
+/*static*/ bool FileIO::WriteObjectToFile(FILE * file, Object * obj)
+{
+	// Sanity check
+	if (obj == NULL)
+		return false;
+
+	switch (obj->type)
+	{
+	case OTLine:
+		fprintf(file, "LINE %i (%lf,%lf) (%lf,%lf)", obj->layer, obj->p[0].x, obj->p[0].y, obj->p[1].x, obj->p[1].y);
+		break;
+	case OTCircle:
+		fprintf(file, "CIRCLE %i (%lf,%lf) %lf", obj->layer, obj->p[0].x, obj->p[0].y, obj->radius[0]);
+		break;
+	case OTEllipse:
+		break;
+	case OTArc:
+		fprintf(file, "ARC %i (%lf,%lf) %lf, %lf, %lf", obj->layer, obj->p[0].x, obj->p[0].y, obj->radius[0], obj->angle[0], obj->angle[1]);
+		break;
+	case OTPolygon:
+		break;
+	case OTDimension:
+//		fprintf(file, "DIMENSION %i (%lf,%lf) (%lf,%lf) %i\n", layer, position.x, position.y, endpoint.x, endpoint.y, dimensionType);
+		fprintf(file, "DIMENSION %i (%lf,%lf) (%lf,%lf) %i", obj->layer, obj->p[0].x, obj->p[0].y, obj->p[1].x, obj->p[1].y, ((Dimension *)obj)->subtype);
+		break;
+	case OTSpline:
+		break;
+	case OTText:
+		fprintf(file, "TEXT %i (%lf,%lf) \"%s\"", obj->layer, obj->p[0].x, obj->p[0].y, ((Text *)obj)->s.c_str());
+		break;
+	case OTContainer:
+	{
+		Container * c = (Container *)obj;
+
+		if (c->topLevel == false)
+			fprintf(file, "CONTAINER %i\n", obj->layer);
+
+		std::vector<void *>::iterator i;
+
+		for(i=c->objects.begin(); i!=c->objects.end(); i++)
+			WriteObjectToFile(file, (Object *)*i);
+
+		if (c->topLevel == false)
+			fprintf(file, "ENDCONTAINER\n");
+
+		break;
+	}
+	default:
+		break;
 	}
 
-	return recognized;
+	if (obj->type != OTContainer)
+		fprintf(file, " (%i, %f, %i)\n", obj->color, obj->thickness, obj->style);
+
+	return true;
 }