pcode.c

Description du code

pcode.c est un fichier du projet Compilateur LSD⁰10.
Ce fichier est situé dans /var/www/bin/sniplets/lsd010/.

Projet Compilateur LSD⁰10 :

Compilateur LSD⁰10 développé dans le cadre du cours de syntaxe et sémantique^{ref 1}

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;
}

Retourner au début du code

Structure et Fichiers du projet

Afficher/masquer...

Répertoires contenus dans /var/www/bin/sniplets/lsd010/project/source/
Icône	Nom	Taille	Modification
Pas de sous-répertoires.
Icône	Nom	Taille	Modification
\| _	Répertoire parent	0 octets	1731566296 14/11/2024 07:38:16

Fichiers contenus dans /var/www/bin/sniplets/lsd010/project/source/
Icône	Nom	Taille	Modification	Action
Icône	Nom	Taille	Modification	Action
\|.o	graphVizHelper.o	4.72 Ko	31/10/2018 18:32:37	-refusé-
\|.c	ast.c	27.73 Ko	31/10/2018 18:32:37	-refusé-
\|.h	const.h	4.01 Ko	31/10/2018 18:32:37	-refusé-
\|.c	y.tab.c	84.53 Ko	31/10/2018 18:32:39	-refusé-
\|.y	lsd10.y	22.88 Ko	31/10/2018 18:32:38	-refusé-
\|.o	lex.yy.o	18.88 Ko	31/10/2018 18:32:38	-refusé-
\|.c	scopeStack.c	3.69 Ko	31/10/2018 18:32:38	-refusé-
\|.h	graphVizHelper.h	573 octets	31/10/2018 18:32:37	-refusé-
\|.h	symbolsTableDataRepresentation.h	1.31 Ko	31/10/2018 18:32:38	-refusé-
\|.o	symbolsTable.o	5.2 Ko	31/10/2018 18:32:38	-refusé-
\|.h	common.h	1.08 Ko	31/10/2018 18:32:37	-refusé-
\|.c	scopeHelper.c	4.09 Ko	31/10/2018 18:32:38	-refusé-
\|.o	hashCode.o	1.45 Ko	31/10/2018 18:32:37	-refusé-
\|.h	console.h	2.21 Ko	31/10/2018 18:32:37	-refusé-
\|.o	console.o	12.23 Ko	31/10/2018 18:32:37	-refusé-
\|lsd10	lsd10	75.26 Ko	31/10/2018 18:32:38	-refusé-
\|.h	hashCode.h	1020 octets	31/10/2018 18:32:37	-refusé-
\|.h	symbolsTable.h	2.65 Ko	31/10/2018 18:32:38	-refusé-
\|.h	pcode.h	417 octets	31/10/2018 18:32:38	-refusé-
\|.o	ast.o	11.45 Ko	31/10/2018 18:32:37	-refusé-
\|.h	scopeStack.h	2.2 Ko	31/10/2018 18:32:38	-refusé-
\|.c	graphVizHelper.c	6.11 Ko	31/10/2018 18:32:37	-refusé-
\|.l	lsd10.l	6.46 Ko	31/10/2018 18:32:38	-refusé-
\|.h	y.tab.h	4.69 Ko	31/10/2018 18:32:39	-refusé-
\|.output	y.output	81.69 Ko	31/10/2018 18:32:39	-refusé-
\|.o	y.tab.o	24.45 Ko	31/10/2018 18:32:39	-refusé-
\|.c	lex.yy.c	57.93 Ko	31/10/2018 18:32:37	-refusé-
\|.h	ast.h	2.39 Ko	31/10/2018 18:32:37	-refusé-
\|.o	scopeStack.o	1.34 Ko	31/10/2018 18:32:38	-refusé-
\|.o	scopeHelper.o	2.59 Ko	31/10/2018 18:32:38	-refusé-
\|.h	astDataRepresentation.h	1.87 Ko	31/10/2018 18:32:37	-refusé-
\|.c	symbolsTable.c	14.91 Ko	31/10/2018 18:32:38	-refusé-
\|.c	pcode.c	23.45 Ko	31/10/2018 18:32:38	-refusé-
\|.c	hashCode.c	3.94 Ko	31/10/2018 18:32:37	-refusé-
\|.c	console.c	18.01 Ko	31/10/2018 18:32:37	-refusé-
\|.h	scopeHelper.h	719 octets	31/10/2018 18:32:38	-refusé-

Warnung

Ce code présente une manière possible d'implémenter un compilateur, et certains choix peuvent être discutés.
Cependant, il peut donner des pistes pour démarrer, ou approcher certains concepts, et je tenterais par la suite de mettre à jour le code.

Utilisation de l'explorateur de code

Navigation :
- Un clic sur une icône de répertoire ouvre ce répertoire pour en afficher les fichiers.
- Lorsque le répertoire en cours ne contient pas de sous-répertoires il est possible de remonter vers le répertoire parent.
- La structure de répertoires en treetable (tableau en forme d'arborescence) n'est plus possibledans cette version.
- Un clic sur une icône de fichier ouvre ce fichier pour en afficher le code avec la coloration syntaxique adaptée en fonction du langage principal utilisé dans le fichier.
Affichage :
- Il est possible de trier les répertoires ou les fichiers selon certains critères (nom, taille, date).
Actions :
- Les actions possible sur les fichiers dépendent de vos droits d'utilisateur sur le site. Veuillez activer le mode utilisateur pour activer les actions.

Deutsche Übersetzung

Sie haben gebeten, diese Seite auf Deutsch zu besuchen. Momentan ist nur die Oberfläche übersetzt, aber noch nicht der gesamte Inhalt.

Wenn Sie mir bei Übersetzungen helfen wollen, ist Ihr Beitrag willkommen. Alles, was Sie tun müssen, ist, sich auf der Website zu registrieren und mir eine Nachricht zu schicken, in der Sie gebeten werden, Sie der Gruppe der Übersetzer hinzuzufügen, die Ihnen die Möglichkeit gibt, die gewünschten Seiten zu übersetzen. Ein Link am Ende jeder übersetzten Seite zeigt an, dass Sie der Übersetzer sind und einen Link zu Ihrem Profil haben.

Vielen Dank im Voraus.

Dokument erstellt 07/03/2010, zuletzt geändert 28/10/2018
Quelle des gedruckten Dokuments:https://www.gaudry.be/de/langages-lsd10-source-rf-project/source//pcode.c.html

Die Infobro ist eine persönliche Seite, deren Inhalt in meiner alleinigen Verantwortung liegt. Der Text ist unter der CreativeCommons-Lizenz (BY-NC-SA) verfügbar. Weitere Informationen auf die Nutzungsbedingungen und dem Autor.

Aufzeichnungen

↑^a,b LSD⁰10 : Langage Simple et Didactique Il existe une un certain nombre d'interprétations de l'acronyme LSD (Langage Symbolique Didactique, Langage Sans Difficulté, Langage Simple et Didactique). LSD⁰10 est la version 2010 de la suite LSD80, LSD_02, LSD⁰3, LSD⁰4, LSD⁰5, LSD⁰6, LSD⁰7, LSD⁰8, et LSD⁰9.

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Referenzen

IHDCB332 - Théorie des langages : Syntaxe et sémantique : PY Schobbens, Syntaxe et sémantique (January 2010)

Diese Verweise und Links verweisen auf Dokumente, die während des Schreibens dieser Seite konsultiert wurden, oder die zusätzliche Informationen liefern können, aber die Autoren dieser Quellen können nicht für den Inhalt dieser Seite verantwortlich gemacht werden.
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