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pcode.c

Inhoudsopgave

Description du code

Génération de p-code Compilateur LSD₀10

Code source ou contenu du fichier

Code c (pcode.c) (823 lignes)

/*
 * pcode.c : generation of p-code
 * Part of the compiler project for LSD10 language
 * Gaudry Stéphane
 * More information on http://www.gaudry.be/langages-pcode.html
 */
#include <stdio.h>
#include <stdlib.h>
#if(VERBOSE_LEVEL<=DEB_E)
	#include <errno.h>
#endif
 
#include "common.h"
#include "y.tab.h"
 
/*
 * **********************************************************
 * Internal business implementations
 * **********************************************************
 */
 
extern int num_lines;
extern char* yytext;
extern int *yylineno;
 
extern AstNode *rootNode;
 
FILE* pcodeFile;
#define RESERVED_MEM 5
int pcodeGenValue(AstNode *node);
/**
 * Wrapper function to get location
 * This calls table of symbols method, and compute shift for reserved memory
 * Internal business
 */
int getShiftedMemoryLocation(AstNode *node)
{
	if (node == NULL || !isSymbolsTableAvailable())
	{
		onError("AST node and Table of Symbols must not be NULL", __FILE__, __LINE__, node);
		//Failure of the compiler behavior, independent of the parsed code
		exit(EXIT_FAILURE);
	}
 
	int location=INITIAL_INT;
	switch(node->type)
	{
		case LEXICAL_RETURN_STMT:
			location=RESERVED_MEM;
			break;
		case NODE_TYPE_FUNCTION_CALL:
		 	location = getDeclarationMemoryLocation(node)+RESERVED_MEM;
		 	location += node->info->scopeDepth>1?RESERVED_MEM:1;
			break;
		default:
			location = getDeclarationMemoryLocation(node);
			if(location<0)location=0;
		 	//if( node->info->scopeDepth>=1)location += RESERVED_MEM;
			break;
	}
	return location;
}
/**
 * Returns the depth difference between the call node and the declaration node
 * @see IHDCB332 séance 1.pdf "Laboratoire LSD010" slide 40
 */
int getDepthDiff(AstNode *node)
{
	AstNode *declaration = getDeclaration(node);
//	printPCode(
//		pcodeFile,
//		";\t%s depth %d, declaration depth=%d\n",
//		node->info->name,
//		node->info->scopeDepth,
//		declaration->info->scopeDepth
//		);
	int locationDiff = (node->info->scopeDepth - declaration->info->scopeDepth)-1;
 
	return locationDiff<0?0:locationDiff;
}
void printLoad(int type, int depthDiff, int location)
{
	switch(type)
	{
		case AST_INTEGER_VAR_TYPE:
			printPCode(pcodeFile, "lda i %d %d\n", depthDiff, location);
			break;
		case AST_BOOLEAN_VAR_TYPE:
			printPCode(pcodeFile, "lda b %d %d\n", depthDiff, location);
			break;
		case AST_INSTACK_VAR_TYPE:
			//@todo: by val, by address
			//printPCode(pcodeFile, "lda a %d %d\n", getDepthDiff(node), location+RESERVED_MEM);
			break;
	}
}
int pcodeGenAddress(AstNode *node)
{
 
	if (node == NULL)
	{
		return 0;
	}
	if(!isSymbolsTableAvailable())
	{
		onError("Table of Symbols must not be NULL", __FILE__, __LINE__, node);
		//Failure of the compiler behavior, independent of the parsed code
		exit(EXIT_FAILURE);
	}
 
//	printPCode(pcodeFile, ";\tGenerate address for node %s\n", node->info->name);
 
	int location;
	int depthDiff = 0;
	switch (node->type)
	{
		case NODE_TYPE_ID:
			location = getShiftedMemoryLocation(node);
			depthDiff=getDepthDiff(node);
			printPCode(pcodeFile, ";\tGenerate address for %s variable\n",node->info->name);
			printLoad(node->info->computedType, depthDiff, location+RESERVED_MEM);
			break;
//		case LEXICAL_RETURN_STMT:
//			printPCode(pcodeFile, ";\tStart generate address for return statement\n");
//			location = getShiftedMemoryLocation(node);
//			printLoad(node->info->computedType, depthDiff, location);
//			switch(node->info->computedType)
//			{
//				case AST_INTEGER_VAR_TYPE:
//					printPCode(pcodeFile, "ind i\n");
//					printPCode(pcodeFile, "sto i\n");
//					break;
//				case AST_BOOLEAN_VAR_TYPE:
//					printPCode(pcodeFile, "ind b\n");
//					printPCode(pcodeFile, "sto b\n");
//					break;
//			}
//			printPCode(pcodeFile, ";\tEnd generate address for return statement\n");
//			break;
	}
 
	return 0;
}
/**
 *
 */
void pcodeGenParam(AstNode *node)
{
//	printPCode(
//		pcodeFile,
//		";\tGenerate %s Parameter (compiler %s, %d)\n",
//		node->info->name,
//		__FILE__,
//		__LINE__
//		);
	switch(node->subtype)
	{
		case LEXICAL_VAR://NODE_DECL_PADR:
			pcodeGenAddress(node);
		break;
		default://case NODE_DECL_PVAL:
			pcodeGenValue(node);
		break;
		/*
		 * case stack by val :
		 * pcodeGenValue(node);
		 * printPCode(pcodeFile, "ind a");
		 */
	}
}
/**
 * Recursive method to produce p-code from AST
 */
int pcodeGenValue(AstNode *node)
{
	int location = INITIAL_INT;
	static int staticLabel = 0;
	int label = staticLabel;
	int rightLabel = INITIAL_INT;
	int leftLabel = INITIAL_INT;
 
	staticLabel++;
 
	if (node == NULL){
		return EXIT_SUCCESS;
	}
	if(!isSymbolsTableAvailable())
	{
		onError("Table of Symbols must not be NULL", __FILE__, __LINE__, NULL);
		//Failure of the compiler behavior, independent of the parsed code
		exit(EXIT_FAILURE);
	}
	char str[1024];//todo: minimize length
	#if(VERBOSE_LEVEL<=DEB_P)
		sprintf(
			str,
			"pcodeGenValue %s (%d) (%s, line %d)",
			typeToString(node->type),
			node->type,
			node->debug->file,
			node->debug->line
		);
		printMsg(DEB_P, str, __FILE__, __LINE__);
	#endif
//	printPCode(pcodeFile, ";\tGenerate value for node %s\n", node->info->name);
 
//	printf(
//		";\n;\tp-code : %s (%s, %s) line %d col %d (compiler %s, %d)\n",
//		node->info->name,
//		typeToString(node->type),
//		typeToString(node->subtype),
//		node->debug->line,
//		node->debug->linePsn,
//		__FILE__,
//		__LINE__
//		);
	switch (node->type)
	{
		case NUMBER:
			printPCode(pcodeFile, ";\t---Generate value for %d integer constant\n",node->info->value);
			printPCode(pcodeFile, "ldc i %d\n", node->info->value);
			break;
		case LEXICAL_TRUE_VAL:
			printPCode(pcodeFile, ";\t---Generate value for true boolean constant\n");
			printPCode(pcodeFile, "ldc b 1\n");
			break;
		case LEXICAL_FALSE_VAL:
			printPCode(pcodeFile, ";\t---Generate value for false boolean constant\n",node->info->value);
			printPCode(pcodeFile, "ldc b 0\n");
			break;
		case NODE_TYPE_FUNCTIONS:
			//function
			 pcodeGenValue(node->right);
			//functions
			 pcodeGenValue(node->left);
			 break;
 
		case NODE_TYPE_FUNCTION:
			printPCode(pcodeFile, ";\tStart of %s function\n",node->info->name);
			location = getShiftedMemoryLocation(node);
 
			printPCode(pcodeFile, "define @fct_%s_%d\n",node->info->name,location);
 
			//int varsCount=getDeclarationsMemoryUpperBound();
			AstNode *arg = node->left;
			int varsCount=0;
			//get params count
			while(arg!=NULL)
			{
				switch(arg->type)
				{
					case NODE_TYPE_PARAM_LIST:
						varsCount++;
						arg=arg->right;
						break;
					case NODE_TYPE_PARAM:
						varsCount++;
						arg=NULL;
						break;
					default:
						arg=NULL;
				}
			}
			arg=node->right;
			//get declarations count
			while(arg!=NULL)
			{
				switch(arg->type)
				{
					case NODE_TYPE_CONTAINER:
						if(
								arg->left!=NULL &&
								(arg->left->type==NODE_TYPE_DECLARATIONS||arg->left->type==NODE_TYPE_VAR_DECL)
							)
						{
							arg=arg->left;
						}
						else
						{
							arg=NULL;
						}
						break;
					case NODE_TYPE_DECLARATIONS:
						if(arg->left!=NULL && arg->left->type==NODE_TYPE_VAR_DECL)
						{
							varsCount++;
						}
						arg=arg->right;
						break;
					case NODE_TYPE_VAR_DECL:
						varsCount++;
						arg=NULL;
						break;
					default:
						arg=NULL;
				}
			}
			printPCode(pcodeFile, "ssp %d\n",varsCount+RESERVED_MEM);
 
			printPCode(pcodeFile, "ujp @fct_body_%s_%d\n",node->info->name, location);
			pcodeGenValue(node->left);
			printPCode(pcodeFile, "define @fct_body_%s_%d\n",node->info->name,location);
			printPCode(pcodeFile, "lda i %d %d\n", 0, 0);//args= {diff, rel addr} ??
			pcodeGenValue(node->right);
			if(node->info->returnStatement!=NULL)
			{
				printPCode(pcodeFile, ";\tReturn\n");
//				pcodeGenAddress(node->info->returnStatement);
				switch (node->info->returnStatement->info->computedType)
				{
					case AST_INTEGER_VAR_TYPE: 	printPCode(pcodeFile, "sto i\n");		break;
					case AST_BOOLEAN_VAR_TYPE: 	printPCode(pcodeFile, "sto b\n");		break;
					case AST_INSTACK_VAR_TYPE: 	printPCode(pcodeFile, "sto a\n");		break;
					default: 					onNotIntegerNotBooleanTypeError(node, __FILE__, __LINE__);	break;
				}
				printPCode(pcodeFile, "retf\n");
			}
			printPCode(pcodeFile, "retf\n");
			printPCode(pcodeFile, ";\tEnd of %s function\n",node->info->name);
			break;
 
		case NODE_TYPE_FUNCTION_CALL:
		{
			printPCode(pcodeFile, ";\t---%s function call\n",node->info->name);
			printPCode(pcodeFile, "mst %d\n", getDepthDiff(node));
 
			AstNode *arg = node->left;
			int paramsCount=0;
			while(arg!=NULL)
			{
				switch(arg->type)
				{
					case NODE_TYPE_PARAM_LIST:
						pcodeGenParam(arg->left);
						paramsCount++;
						arg=arg->right;
						break;
					case NODE_TYPE_PARAM:
						pcodeGenParam(arg);
						paramsCount++;
						arg=NULL;
						break;
					default:
						// These types are the only allowed types for parameters
						// Must trigger an error here?
						arg=NULL;
				}
			}
//
			printPCode(
				pcodeFile,
				"cup %d @fct_%s_%d\n",
				paramsCount,
				node->info->name,
				getShiftedMemoryLocation(node->info->declarationNode)
				);
		}
					break;
		case NODE_TYPE_REXP:
//			printf(
//				";\n;\t*************tp-code %s =>%s=> %sline %d col %d (compiler %s, %d)\n",
//				node->left==NULL?"NULL":node->left->info->name,
//				typeToString(node->subtype),
//				node->right==NULL?"NULL":node->right->info->name,
//				node->debug->line,
//				node->debug->linePsn,
//				__FILE__,
//				__LINE__
//				);
			switch(node->subtype)
			{
			//Integer operations
				case LEXICAL_PLUS:
					printPCode(pcodeFile, ";\t---Start + operation\n");
					pcodeGenValue(node->left);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "add i\n");
					printPCode(pcodeFile, ";\t---Start + operation\n");
					break;
				case LEXICAL_MINUS:
					printPCode(pcodeFile, ";\t---Start - operation\n");
					pcodeGenValue(node->left);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "sub i\n");
					printPCode(pcodeFile, ";\t---Start - operation\n");
					break;
				case LEXICAL_MULT:
					printPCode(pcodeFile, ";\t---Start * operation\n");
					pcodeGenValue(node->left);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "mul i\n");
					printPCode(pcodeFile, ";\t---Start * operation\n");
					break;
				case LEXICAL_DIV:
					printPCode(pcodeFile, ";\t---Start DIV operation\n");
					pcodeGenValue(node->left);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "ldc i 0\n");
					printPCode(pcodeFile, "equ i\n");
					printPCode(pcodeFile, "fjp @div_%d\n", label);
					/* here left == 0 */
					printPCode(pcodeFile, ";\tdiv division by 0 !!\n");
					printPCode(pcodeFile, "stp\n");
					/* else left != 0 */
					printPCode(pcodeFile, ";\tbegin of div\n");
					printPCode(pcodeFile, "define @div_%d\n",label);
					label++;
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "div i\n");
					printPCode(pcodeFile, ";\t---Start DIV operation\n");
					break;
				case LEXICAL_MOD:
					{
					printPCode(pcodeFile, ";\t---Start mod operation (b mod a)\n");
					int modLeft=5;
					int modRight=6;
 
					printPCode(pcodeFile, "lda i 0 %d\n",modLeft);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "sto i\n");
					printPCode(pcodeFile, "lda i 0 %d\n",modRight);
					pcodeGenValue(node->left);
					printPCode(pcodeFile, "sto i\n");
 
					printPCode(pcodeFile, ";\tchecks if b == 0\n");
					printPCode(pcodeFile, "lda i 0 %d\n",modLeft);
					printPCode(pcodeFile, "ind i\n");
					printPCode(pcodeFile, "ldc i 0\n");
					printPCode(pcodeFile, "equ i\n");
					printPCode(pcodeFile, "fjp @mod_%d\n", label);
					/* here left == 0 */
					printPCode(pcodeFile, ";\tmod division by 0 !!\n");
					printPCode(pcodeFile, "stp\n");
					/* else left != 0 */
					printPCode(pcodeFile, "define @mod_%d\n",label);
					label++;
 
					//load left
					printPCode(pcodeFile, "lda i 0 %d\n",modRight);
					printPCode(pcodeFile, "ind i\n");
 
					printPCode(pcodeFile, "lda i 0 %d\n",modRight);
					printPCode(pcodeFile, "ind i\n");
 
					printPCode(pcodeFile, "lda i 0 %d\n",modLeft);
					printPCode(pcodeFile, "ind i\n");
					printPCode(pcodeFile, "div i\n");
 
					printPCode(pcodeFile, "lda i 0 %d\n",modLeft);
					printPCode(pcodeFile, "ind i\n");
					printPCode(pcodeFile, "mul i\n");
					printPCode(pcodeFile, "sub i\n");
					printPCode(pcodeFile, ";\t---Start MOD operation\n");
					}
					break;
			//Boolean operations
				case LEXICAL_EQUALS:
					printPCode(pcodeFile, ";\t---Start == operation\n");
					pcodeGenValue(node->left);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "equ b\n");
					printPCode(pcodeFile, ";\t---Start == operation\n");
					break;
				case LEXICAL_LESS_EQUALS:
					printPCode(pcodeFile, ";\t---Start <= operation\n");
					pcodeGenValue(node->left);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "leq b\n");
					printPCode(pcodeFile, ";\t---Start <= operation\n");
					break;
				case LEXICAL_LESS:
					printPCode(pcodeFile, ";\t---Start < operation\n");
					pcodeGenValue(node->left);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "les b\n");
					printPCode(pcodeFile, ";\t---Start < operation\n");
					break;
				case LEXICAL_ANDLAZY:
					printPCode(pcodeFile, ";\t---Start & operation\n");
					leftLabel = staticLabel++;
					rightLabel = staticLabel++;
 
					pcodeGenValue(node->left);
 
					//set condition for the false jump(exp_1)
					pcodeGenValue(node->left);
 
					char andLazy[7+1] = "andLazy";
 
					printPCode(pcodeFile, "fjp @%s%d\n", andLazy, leftLabel);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "and b\n");
 
					printPCode(pcodeFile, "define @%s%d\n", andLazy, leftLabel);
					printPCode(pcodeFile, ";\t---Start & operation\n");
					break;
				case LEXICAL_AND:
					printPCode(pcodeFile, ";\t---Start && operation\n");
					pcodeGenValue(node->right);
					pcodeGenValue(node->left);
					printPCode(pcodeFile, "and b\n");
					printPCode(pcodeFile, ";\t---Start && operation\n");
					break;
				case LEXICAL_ORLAZY:
					printPCode(pcodeFile, ";\t---Start | operation\n");
					leftLabel = staticLabel++;
					rightLabel = staticLabel++;
 
					pcodeGenValue(node->left);
 
					//set condition for the false jump(exp_1)
					pcodeGenValue(node->left);
					printPCode(pcodeFile, "not b\n");
 
					char orLazy[6+1] = "orLazy";
 
					printPCode(pcodeFile, "fjp @%s%d\n", orLazy, leftLabel);
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "or b\n");
 
					printPCode(pcodeFile, "define @%s%d\n", orLazy, leftLabel);
					printPCode(pcodeFile, ";\t---Start | operation\n");
					break;
				case LEXICAL_OR:
					printPCode(pcodeFile, ";\t---Start || operation\n");
					pcodeGenValue(node->right);
					pcodeGenValue(node->left);
					printPCode(pcodeFile, "or b\n");
					printPCode(pcodeFile, ";\t---Start || operation\n");
					break;
				case LEXICAL_NOT:
					printPCode(pcodeFile, ";\t---NOT operation\n");
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "not b\n");
					break;
				case LEXICAL_ISEMPTY_OPS :
					printPCode(pcodeFile, "ldc b 1\n");
					break;
				default:
					pcodeGenValue(node->right);
					pcodeGenValue(node->left);
					break;
			}
			break;
		case NODE_TYPE_PARAM_DECL:
			{
				printPCode(pcodeFile, ";\t---Start %s param declaration\n",node->info->name);
				char nodeArgType[1+1];//because I have some problems with %c on printPCode
				char *pnodeArgType = nodeArgType;
				switch(node->info->computedType)
				{
					case AST_INTEGER_VAR_TYPE:
						pnodeArgType="i";
						break;
					case AST_BOOLEAN_VAR_TYPE:
						pnodeArgType="b";
						break;
					case AST_INSTACK_VAR_TYPE:
						pnodeArgType="a";
						break;
					default:
						onNotIntegerNotBooleanTypeError(node, __FILE__, __LINE__);
						break;
				}
				char varInst[3+1];
				char *varInstp=varInst;
				if( node->subtype==LEXICAL_VAR)
				{
					varInstp="lda";
				}
				else if( node->subtype==ID)
				{
					varInstp="lod";
					pnodeArgType="a";
				}
				else
				{
					sprintf(
						str,
						"Unsupported subtype %s (%d) for %s, only %s or %s are allowed (%s, line %d)",
						typeToString(node->subtype),
						node->type,
						node->info->name,
						typeToString(LEXICAL_VAR),
						typeToString(ID),
						node->debug->file,
						node->debug->line
						);
					onError(str, __FILE__, __LINE__, node);
					//Failure of the compiler behavior, independent of the parsed code
					exit(EXIT_FAILURE);
				}
				printPCode(pcodeFile, "%s %s %d %d\n", varInstp, pnodeArgType, getDepthDiff(node), getShiftedMemoryLocation(node));
				printPCode(pcodeFile, "ind %s\n", pnodeArgType);
				printPCode(pcodeFile, ";\t---End of %s param declaration\n",node->info->name);
			}
			break;
		case NODE_TYPE_ID:
			printPCode(pcodeFile, ";\t---%s id\n",node->info->name);
 
			pcodeGenAddress(node);
			switch (node->info->computedType)
			{
				case AST_INTEGER_VAR_TYPE: 	printPCode(pcodeFile, "ind i\n");		break;
				case AST_BOOLEAN_VAR_TYPE: 	printPCode(pcodeFile, "ind b\n");		break;
				case AST_INSTACK_VAR_TYPE: 	printPCode(pcodeFile, "ind a\n");		break;
				default: 					onNotIntegerNotBooleanTypeError(node, __FILE__, __LINE__);	break;
			}
			break;
//		case LEXICAL_RETURN_STMT:
//			break;
		case NODE_TYPE_STATEMENT:
			switch(node->subtype)
			{
				case LEXICAL_AFFECTATION:
					printPCode(pcodeFile, ";\t---Start affectation\n");
					pcodeGenAddress(node->left);
 
					//printPCode(pcodeFile, ";\tAFFECT right %d--%d\n",node->right->type,node->right->subtype);
					pcodeGenValue(node->right);
 
					switch (node->right->info->computedType)
					{
						case AST_INTEGER_VAR_TYPE: 	printPCode(pcodeFile, "sto i\n");		break;
						case AST_BOOLEAN_VAR_TYPE: 	printPCode(pcodeFile, "sto b\n");		break;
						case AST_INSTACK_VAR_TYPE: 	printPCode(pcodeFile, "sto a\n");		break;
						default: 					onNotIntegerNotBooleanTypeError(node, __FILE__, __LINE__);	break;
					}
 
					printPCode(pcodeFile, ";\tEnd of affectation\n");
					break;
			//Flow control operations
				case LEXICAL_IF_STMT:
					printPCode(pcodeFile, ";\t---Start if statement\n");
					leftLabel = staticLabel++;
					rightLabel = staticLabel++;
 
					//set condition for the false jump
					pcodeGenValue(node->left);
					printPCode(pcodeFile, "fjp @endif_%d\n", leftLabel);
 
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "define @endif_%d\n", leftLabel);
					printPCode(pcodeFile, ";\t---End of if statement\n");
					break;
				case AST_IF_ELSE_STMT:
					printPCode(pcodeFile, ";\t---Start if...else... statement\n");
					leftLabel = staticLabel++;
					rightLabel = staticLabel++;
 
					//set condition for the false jump
					pcodeGenValue(node->left);
					printPCode(pcodeFile, "fjp @then_%d\n", leftLabel);
 
					pcodeGenValue(node->right->left);
					printPCode(pcodeFile, "ujp @endif_%d\n", rightLabel);
 
					printPCode(pcodeFile, "define @then_%d\n", leftLabel);
					pcodeGenValue(node->right->right);
					printPCode(pcodeFile, "define @endif_%d\n", rightLabel);
					printPCode(pcodeFile, ";\t---End of if...else... statement\n");
					break;
				case LEXICAL_FOR_STMT:
					printPCode(pcodeFile, ";\t---Start for statement\n");
					// for(pre_instructions:condition:post_instructions_loop){instructions_loop}
					// is translated into
					// pre_instructions; while(condition){instructions_loop;post_instructions_loop}
 
					leftLabel = staticLabel++;
					rightLabel = staticLabel++;
 
					// pre_instructions
					if(node->right!=NULL && node->right->left!=NULL)
					{
						//printf("\n; FLEXICAL_OR statement pre_instructions (compiler %s, %d)",__FILE__,__LINE__);
						pcodeGenValue(node->right->left->left);
					}
 
					// while
					printPCode(pcodeFile, "define @for_%d\n", leftLabel);
 
					//set condition for the false jump
					pcodeGenValue(node->left);
					printPCode(pcodeFile, "fjp @endfor_%d\n", rightLabel);
 
					// instructions_loop
					if(node->right!=NULL)
					{
						//printf("\n; FLEXICAL_OR statement instructions_loop (compiler %s, %d)",__FILE__,__LINE__);
						pcodeGenValue(node->right->right);
					}
					// post_instructions_loop
					if(node->right!=NULL && node->right->left!=NULL)
					{
						//printf("\n; FLEXICAL_OR statement post_instructions_loop (compiler %s, %d)",__FILE__,__LINE__);
						pcodeGenValue(node->right->left->right);
					}
					printPCode(pcodeFile, "ujp @for_%d\n", leftLabel);
					printPCode(pcodeFile, "define @endfor_%d\n", rightLabel);
					printPCode(pcodeFile, ";\t---End of for statement\n");
					break;
				case LEXICAL_WHILE_STMT:
					printPCode(pcodeFile, ";\t---Start while statement\n");
					leftLabel = staticLabel++;
					rightLabel = staticLabel++;
 
					printPCode(pcodeFile, "define @while_%d\n", leftLabel);
 
					//set condition for the false jump
					pcodeGenValue(node->left);
					printPCode(pcodeFile, "fjp @endwhile_%d\n", rightLabel);
 
					pcodeGenValue(node->right);
					printPCode(pcodeFile, "ujp @while_%d\n", leftLabel);
					printPCode(pcodeFile, "define @endwhile_%d\n", rightLabel);
					printPCode(pcodeFile, ";\t---End of while statement\n");
					break;
				default:
					pcodeGenValue(node->right);
					pcodeGenValue(node->left);
					break;
			}
			break;
		case LEXICAL_READ_OPS:
			printPCode(pcodeFile, ";\t---Start read operation\n");
			pcodeGenAddress(node->right);
			printPCode(pcodeFile, "read\n");
			//Only integer argument allowed for read (Spec. 6.2)
			printPCode(pcodeFile, "sto i\n");
			printPCode(pcodeFile, ";\t---End of read operation\n");
			break;
		case LEXICAL_WRITE_OPS:
			printPCode(pcodeFile, ";\t---Start write operation\n");
			pcodeGenValue(node->right);
			printPCode(pcodeFile, "prin\n");
			printPCode(pcodeFile, ";\t---End of write operation\n");
			break;
 
//		case NODE_TYPE_CONTAINER:
//		case NODE_TYPE_FUNCTION_BODY:
//		case NODE_TYPE_DECLARATIONS:
//			pcodeGenValue(node->left);
//			pcodeGenValue(node->right);
//			break;
		default:
			pcodeGenValue(node->left);
			pcodeGenValue(node->right);
			//onUnrecognizedTypeError(node->type, __FILE__, __LINE__);
			break;
	}
 
	return EXIT_SUCCESS;
}
 
/*
 * **********************************************************
 * Implementation of the header exposed items
 * See pcode.h for these functions comments
 * **********************************************************
 */
 
int generatePCode()
{
	if(rootNode==NULL)
	{
		//To check : Meaning of a null node, is it an error or only a warning?
		onError("Root node may not be null", __FILE__, __LINE__, NULL);
		return EXIT_FAILURE;
	}
	if(!isSymbolsTableAvailable())
	{
		onError("Table of Symbols must not be NULL", __FILE__, __LINE__, NULL);
		//Failure of the compiler behavior, independent of the parsed code
		exit(EXIT_FAILURE);
	}
 
 
	#if(PCODE_FILE_REQUESTED)
		if(!(pcodeFile = fopen(PCODE_FILE, "w")))
		{
			#if(VERBOSE_LEVEL<=DEB_EXEC)
				printMsg(DEB_EXEC,"Open p-code file...ERRLEXICAL_OR", __FILE__, __LINE__);
				printMsg(DEB_E, (char *)strerror(errno), __FILE__, __LINE__);
			#endif
		}else
		{
			#if(VERBOSE_LEVEL<=DEB_EXEC)
				printf(
					"\n;  Open %s p-code file...OK\n",
					PCODE_FILE,
					__FILE__,
					__LINE__
					);
			#endif
		}
 
	#endif
 
	printPCode(pcodeFile, ";\tStart program\n");
//	int maxMem = getDeclarationsMemoryUpperBound();
//	printPCode(pcodeFile, "ssp %d\n", (maxMem<= 0) ? 0 : maxMem );
	printPCode(pcodeFile, "ssp 0\n");
 
	printPCode(pcodeFile, "mst 0\n");
 
	int mainMemLoc = getShiftedMemoryLocation(getMain());
	printPCode(pcodeFile, "cup 0 @fct_%s_%d\n", getMain()->info->name, mainMemLoc);
	printPCode(pcodeFile, "ujp @program_end\n");
	int ret = pcodeGenValue(rootNode);
 
	printPCode(pcodeFile, "define @program_end\n");
	printPCode(pcodeFile, "stp\n");
	printPCode(pcodeFile, ";\tEnd of program\n");
 
	if(PCODE_FILE_REQUESTED && pcodeFile!=NULL)
	{
		fclose(pcodeFile);
	}
	#if(VERBOSE_LEVEL<=DEB_P)
		printSymbolsTableDebug(__FILE__,__LINE__);
	#endif
	return ret;
}

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Document heeft de 05/10/2009 gemaakt, de laatste keer de 28/10/2018 gewijzigd
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pcode.c

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