Add parser

2020-12-14 16:12:20 -03:00 · 2020-12-14 16:12:20 -03:00 · 5b19ab0914
parent eb7778c267
commit 5b19ab0914
8 changed files with 1146 additions and 34 deletions
--- a/2
+++ b/2
@ -1,4 +1,4 @@
-FILES = tokenizer.c main.c parser.c
+FILES = tokenizer.c main.c parser.c printer.c
 INCLUDES = -I.
 CFLAGS = -std=c99 -g
 OUTFILE = compiler
--- a/main.c
+++ b/main.c
@ -3,19 +3,8 @@
 #include <string.h>
 #include <stdlib.h>
 #include "tokenizer.h"
-
+#include "printer.h"
-const char* types[] = {
+#include "parser.h"
 	"keyword", "symbol", "integerConstant", "stringConstant", "identifier"
 };
 void printtks(TOKENLIST* tks, FILE* output) {
 	fprintf(output, "<%s> %s </%s>\r\n", types[tks->type], tks->token, types[tks->type]);
 	TOKENLIST* next = tks->next;
 	free(tks->token);
 	free(tks);
 	if(next != NULL)
 		printtks(next, output);
 }
 int main(int argc, char* argv[]) {
 	if(argc < 2) {
@ -30,11 +19,10 @@ int main(int argc, char* argv[]) {
 		return errno;
 	}
-	FILE* output = fopen("out.xml", "w");
+	PARSER* p = mkparser(tokenize(input), argv[1]);
-	fprintf(output, "<tokens>\r\n");
+	parse(p);
-	printtks(tokenize(input), output);
+
-	fprintf(output, "</tokens>\r\n");
+	printparser(stdout, p);
 	fclose(output);
 	return 0;
 }
--- a/parser.c
+++ b/parser.c
@ -0,0 +1,542 @@
 #include <stdio.h>
 #include <string.h>
 #include <stdlib.h>
 #include <stdbool.h>
 #include "parser.h"
 char* parseidentifier(PARSER* p);
 STATEMENT* parsestatements(PARSER* p);
 SUBROUTCALL* parsesubroutcall(PARSER* p);
 TERM* parseexpression(PARSER* p);
 TERM* parseterm(PARSER* p);
 const char* keywordconstants[] = {
 	"true", "false", "null", "this"
 };
 const int keywordconstantssize = sizeof(keywordconstants) / sizeof(char*);
 const char* ops[] = {
 	"+", "-", "*", "/", "&", "|", "<", ">", "="
 };
 const int opssize = sizeof(ops) / sizeof(char*);
 const char* varclasses[] = {
 	"static", "field"
 };
 const int varclassessize = sizeof(varclasses) / sizeof(char*);
 const char* vardectypes[] = {
 	"int", "char", "boolean"
 };
 const int vardectypessize = sizeof(vardectypes) / sizeof(char*);
 const char* subroutclasses[] = {
 	"constructor", "function", "method"
 };
 const int subroutclassessize = sizeof(subroutclasses) / sizeof(char*);
 const char* tokentypes[] = {
 	"keyword", "identifier", "symbol", "integerConstant", "stringConstant"
 };
 void next(PARSER* p) {
 	p->current = p->current->next;
 }
 void checkpoint(PARSER* p) {
 	p->checkpoint = p->current;
 }
 void restorecp(PARSER* p) {
 	p->current = p->checkpoint;
 }
 void unexpectedtoken(PARSER* p) {
 	fprintf(stderr, "Unexpected token '%s' (of type %s); line %i, file '%s'\n", p->current->token, tokentypes[p->current->type], p->current->truen, p->file);
 }
 void unexpected(PARSER* p) {
 	unexpectedtoken(p);
 	exit(1);
 }
 void checkcontent(PARSER* p, const char* content) {
 	if(strcmp(p->current->token, content))
 		unexpected(p);
 	next(p);
 }
 void checktype(PARSER* p, TOKENTYPE type) {
 	if(p->current->type != type) {
 		fprintf(stderr, "Unexpected %s; line %i, file '%s'\n", tokentypes[p->current->type], p->current->truen, p->file);
 		exit(1);
 	}
 }
 TERM* parsetermnullified(PARSER* p) {
 	TERM* t = (TERM*)malloc(sizeof(TERM));
 	if(p->current->type == integer) {
 		t->type = intconstant;
 		t->integer = atoi(p->current->token);
 		next(p);
 	} else if(p->current->type == string) {
 		t->type = stringconstant;
 		t->string = p->current->token;
 		next(p);
 	} else if(p->current->type == keyword) {
 		t->type = keywordconstant;
 		bool valid = false;
 		for(int i = 0; i < keywordconstantssize; i++)
 			if(!strcmp(p->current->token, keywordconstants[i]))
 				valid = true;
 		if(!valid)
 			unexpected(p);
 		t->string = p->current->token;
 		next(p);
 	} else if(!strcmp(p->current->token, "-") || !strcmp(p->current->token, "~")) {
 		t->type = unaryopterm;
 		t->unaryop = p->current->token[0];
 		next(p);
 		t->expression = parseterm(p);
 	} else if(!strcmp(p->current->token, "(")) {
 		next(p);
 		t->type = innerexpression;
 		t->expression = parseexpression(p);
 		checkcontent(p, ")");
 	} else if(p->current->type == identifier) {
 		SUBROUTCALL* call = parsesubroutcall(p);
 		if(call == NULL) {
 			t->string = p->current->token;
 			next(p);
 			if(!strcmp(p->current->token, "[")) {
 				next(p);
 				t->arrayexp = parseexpression(p);
 				t->type = arrayitem;
 				checkcontent(p, "]");
 			} else {
 				t->type = varname;
 			}
 		} else {
 			t->type = subroutcall;
 			t->call = call;
 		}
 	} else {
 		return NULL;
 	}
 	return t;
 }
 bool isop(TOKEN* t) {
 	for(int i = 0; i < opssize; i++)
 		if(!strcmp(t->token, ops[i]))
 			return true;
 	return false;
 }
 TERM* parseexpressionnullified(PARSER* p) {
 	TERM* head = parseterm(p);
 	TERM* current = head;
 	TERM* nextt;
 	while(isop(p->current)) {
 		current->op = p->current->token[0]; 
 		next(p);
 		nextt = parsetermnullified(p);
 		current->next = nextt;
 		current = nextt;
 	}
 	if(current != NULL)
 		current->next = NULL;
 	return head;
 }
 TERM* parseterm(PARSER* p) {
 	TERM* t = parsetermnullified(p);
 	if(t == NULL)
 		unexpected(p);
 	return t;
 }
 TERM* parseexpression(PARSER* p) {
 	TERM* t = parseexpressionnullified(p);
 	if(t == NULL)
 		unexpected(p);
 	return t;
 }
 EXPRESSIONLIST* parseexpressionlist(PARSER* p) {
 	if(!strcmp(p->current->token, ")"))
 		return NULL;
 	EXPRESSIONLIST* head = (EXPRESSIONLIST*)malloc(sizeof(EXPRESSIONLIST));
 	head->expression = parseexpressionnullified(p);
 	EXPRESSIONLIST* current = head;
 	EXPRESSIONLIST* nextls;
 	while(!strcmp(p->current->token, ",")) {
 		next(p);
 		nextls = (EXPRESSIONLIST*)malloc(sizeof(EXPRESSIONLIST));
 		nextls->expression = parseexpression(p);
 		current->next = nextls;
 		current = nextls;
 	}
 	if(current != NULL)
 		current->next = NULL;
 	return head;
 }
 SUBROUTCALL* parsesubroutcall(PARSER* p) {
 	checkpoint(p);
 	SUBROUTCALL* call = (SUBROUTCALL*)malloc(sizeof(SUBROUTCALL));
 	if(!strcmp(p->current->next->token, ".")) {
 		if(p->current->type != identifier) {
 			free(call);
 			return NULL;
 		}
 		call->parentname = p->current->token;
 		next(p);
 		next(p);
 	}
 	else
 		call->parentname = NULL;
 	if(p->current->type != identifier) {
 		free(call);
 		restorecp(p);
 		return NULL;
 	}
 	call->name = p->current->token;
 	next(p);
 	if(strcmp(p->current->token, "(")) {
 		free(call);
 		restorecp(p);
 		return NULL;
 	}
 	next(p);
 	call->parameters = parseexpressionlist(p);
 	if(strcmp(p->current->token, ")")) {
 		free(call);
 		restorecp(p);
 		return NULL;
 	}
 	next(p);
 	return call;
 }
 CONDSTATEMENT* parsecond(PARSER* p) {
 	checkcontent(p, "(");
 	CONDSTATEMENT* st = (CONDSTATEMENT*)malloc(sizeof(CONDSTATEMENT));
 	st->expression = parseexpression(p);
 	checkcontent(p, ")");
 	checkcontent(p, "{");
 	st->statements = parsestatements(p);
 	checkcontent(p, "}");
 	return st;
 }
 IFSTATEMENT* parseif(PARSER* p) {
 	IFSTATEMENT* ifst = (IFSTATEMENT*)malloc(sizeof(IFSTATEMENT));
 	ifst->base = parsecond(p);
 	if(!strcmp(p->current->token, "else")) {
 		next(p);
 		checkcontent(p, "{");
 		ifst->elsestatements = parsestatements(p);
 		checkcontent(p, "}");
 	}
 	else
 		ifst->elsestatements = NULL;
 	return ifst;
 }
 LETSTATEMENT* parselet(PARSER* p) {
 	LETSTATEMENT* letstatement = (LETSTATEMENT*)malloc(sizeof(LETSTATEMENT));
 	letstatement->varname = parseidentifier(p);
 	if(!strcmp(p->current->token, "[")) {
 		next(p);
 		letstatement->arrayind = parseexpression(p);
 		checkcontent(p, "]");
 	}
 	else
 		letstatement->arrayind = NULL;
 	checkcontent(p, "=");
 	letstatement->expression = parseexpression(p);
 	checkcontent(p, ";");
 	return letstatement;
 }
 STATEMENT* parsestatement(PARSER* p) {
 	STATEMENT* st = (STATEMENT*)malloc(sizeof(STATEMENT));
 	if(!strcmp(p->current->token, "let")) {
 		next(p);
 		st->type = letstatement;
 		st->letst = parselet(p);
 	} else if(!strcmp(p->current->token, "if")) {
 		next(p);
 		st->type = ifstatement;
 		st->ifst = parseif(p);
 	} else if(!strcmp(p->current->token, "while")) {
 		next(p);
 		st->type = whilestatement;
 		st->whilest = parsecond(p);
 	} else if(!strcmp(p->current->token, "do")) {
 		next(p);
 		st->type = dostatement;
 		st->dost = parsesubroutcall(p);
 		checkcontent(p, ";");
 	} else if(!strcmp(p->current->token, "return")) {
 		next(p);
 		st->type = returnstatement;
 		if(strcmp(p->current->token, ";")) {
 			st->retst = parseexpressionnullified(p);
 			checkcontent(p, ";");
 		}
 		else {
 			st->retst = NULL;
 			next(p);
 		}
 	} else {
 		free(st);
 		return NULL;
 	}
 	return st;
 }
 STATEMENT* parsestatements(PARSER* p) {
 	STATEMENT* head = parsestatement(p);
 	STATEMENT* current = head;
 	STATEMENT* next;
 	while(next = parsestatement(p), next != NULL) {
 		current->next = next;
 		current = next;
 	}
 	if(current != NULL)
 		current->next = NULL;
 	return head;
 }
 char* parsetype(PARSER* p) {
 	char* result = p->current->token;
 	if(p->current->type == keyword)
 		for(int i = 0; i < vardectypessize; i++) {
 			if(!strcmp(p->current->token, vardectypes[i])) {
 				next(p);
 				return result;
 			}
 		}
 	else if (p->current->type == identifier) {
 		next(p);
 		return result;
 	}
 	else
 		unexpected(p);
 }
 int parsepossibilities(PARSER* p, const char** strings, int sz) {
 	for(int i = 0; i < sz; i++)
 		if(!strcmp(p->current->token, strings[i]))
 			return i;
 	return -1;
 }
 VARCLASS parsevarclass(PARSER* p) {
 	return parsepossibilities(p, varclasses, varclassessize);
 }
 SUBROUTCLASS parsesubroutclass(PARSER* p) {
 	return parsepossibilities(p, subroutclasses, subroutclassessize);
 }
 char* parseidentifier(PARSER* p) {
 	checktype(p, identifier);
 	char* result = p->current->token;
 	next(p);
 	return result;
 }
 void parsevardeccommon(PARSER* p, VARDEC* v) {
 	v->typeclass = p->current->type;
 	v->type = parsetype(p);
 	STRINGLIST* currstr = (STRINGLIST*)malloc(sizeof(STRINGLIST));
 	v->names = currstr;
 	v->names->content = parseidentifier(p);
 	while(!strcmp(p->current->token, ",")) {
 		next(p);
 		STRINGLIST* nextstr = (STRINGLIST*)malloc(sizeof(STRINGLIST));
 		nextstr->content = parseidentifier(p);
 		currstr->next = nextstr;
 		currstr = nextstr;
 	}
 	currstr->next = NULL;
 	checkcontent(p, ";");
 }
 CLASSVARDEC* parseclassvardec(PARSER* p) {
 	VARCLASS varclass = parsevarclass(p);
 	if(varclass == -1)
 		return NULL;
 	next(p);
 	CLASSVARDEC* classvardec = (CLASSVARDEC*)malloc(sizeof(CLASSVARDEC));
 	classvardec->varclass = varclass;
 	classvardec->base = (VARDEC*)malloc(sizeof(VARDEC));
 	parsevardeccommon(p, classvardec->base);
 	return classvardec;
 }
 CLASSVARDEC* parseclassvardecs(PARSER* p) {
 	CLASSVARDEC* head = parseclassvardec(p);
 	CLASSVARDEC* current = head;
 	CLASSVARDEC* next;
 	while(next = parseclassvardec(p), next != NULL) {
 		current->next = next;
 		current= next;
 	}
 	if(current != NULL)
 		current->next = NULL;
 	return head;
 }
 VARDEC* parsevardec(PARSER* p) {
 	if(strcmp(p->current->token, "var"))
 		return NULL;
 	next(p);
 	VARDEC* vardec = (VARDEC*)malloc(sizeof(VARDEC));
 	parsevardeccommon(p, vardec);
 	return vardec;
 }
 VARDEC* parsevardecs(PARSER* p) {
 	VARDEC* head = parsevardec(p);
 	VARDEC* current = head;
 	VARDEC* next;
 	while(next = parsevardec(p), next != NULL) {
 		current->next = next;
 		current = next;
 	}
 	if(current != NULL)
 		current->next = NULL;
 	return head;
 }
 PARAMETER* parseparameter(PARSER* p) {
 	PARAMETER* param = (PARAMETER*)malloc(sizeof(PARAMETER));
 	if(!strcmp(p->current->token, ")"))
 		return NULL;
 	param->type = parsetype(p);
 	param->name = parseidentifier(p);
 	return param;
 }
 PARAMETER* parseparameters(PARSER* p) {
 	PARAMETER* head = parseparameter(p);
 	PARAMETER* current = head;
 	while(!strcmp(p->current->token, ",")) {
 		current->next = parseparameter(p);
 		current = current->next;
 	}
 	if(current != NULL)
 		current->next = NULL;
 	return head;
 }
 SUBROUTBODY* parsesubroutbody(PARSER* p) {
 	SUBROUTBODY* subroutbody = (SUBROUTBODY*)malloc(sizeof(SUBROUTBODY));
 	subroutbody->vardecs = parsevardecs(p);
 	subroutbody->statements = parsestatements(p);
 	return subroutbody;
 }
 SUBDEC* parsesubroutdec(PARSER* p) {
 	SUBROUTCLASS subroutclass = parsesubroutclass(p);
 	if(subroutclass == -1)
 		return NULL;
 	next(p);
 	SUBDEC* subdec = (SUBDEC*)malloc(sizeof(SUBDEC));
 	subdec->subroutclass = subroutclass;
 	subdec->typeclass = p->current->type;
 	if(!strcmp(p->current->token, "void")) {
 		subdec->type = p->current->token;
 		next(p);
 	}
 	else
 		subdec->type = parsetype(p);
 	subdec->name = parseidentifier(p);
 	checkcontent(p, "(");
 	subdec->parameters = parseparameters(p);
 	checkcontent(p, ")");
 	checkcontent(p, "{");
 	subdec->body = parsesubroutbody(p);
 	checkcontent(p, "}");
 	return subdec;
 }
 SUBDEC* parsesubroutdecs(PARSER* p) {
 	SUBDEC* head = parsesubroutdec(p);
 	SUBDEC* current= head;
 	SUBDEC* next;
 	while(next = parsesubroutdec(p), next != NULL) {
 		current->next = next;
 		current = next;
 	}
 	if(current != NULL)
 		current->next = NULL;
 	return head;
 }
 CLASS* parseclass(PARSER* p) {
 	checkcontent(p, "class");
 	CLASS* class = (CLASS*)malloc(sizeof(CLASS));
 	class->name = parseidentifier(p);
 	checkcontent(p, "{");
 	class->vardecs = parseclassvardecs(p);
 	class->subdecs = parsesubroutdecs(p);
 	checkcontent(p, "}");
 	return class;
 }
 PARSER* mkparser(TOKEN* tokens, char* file) {
 	PARSER* parser = (PARSER*)malloc(sizeof(PARSER));
 	parser->tokens = tokens;
 	parser->current = tokens;
 	parser->file = file;
 	return parser;
 }
 void parse(PARSER* parser) {
 	parser->output = parseclass(parser);
 }
--- a/parser.h
+++ b/parser.h
@ -0,0 +1,132 @@
 #ifndef PARSER_H
 #define PARSER_H
 #include "tokenizer.h"
 struct statement;
 struct explist;
 typedef enum {
 	ifstatement, whilestatement, letstatement, dostatement, returnstatement
 } STATEMENTTYPE;
 typedef enum {
 	varname, intconstant, stringconstant, keywordconstant, arrayitem, subroutcall, innerexpression, unaryopterm
 } TERMTYPE;
 typedef struct {
 	char* parentname;
 	char* name;
 	struct explist* parameters;
 } SUBROUTCALL;
 typedef struct term {
 	TERMTYPE type;
 	union {
 		char* string;
 		int integer;
 		SUBROUTCALL* call;
 		struct term* expression;
 	};
 	char unaryop;
 	struct term* arrayexp;
 	char op;
 	struct term* next;
 } TERM; 
 typedef struct explist {
 	TERM* expression;
 	struct explist* next;
 } EXPRESSIONLIST;
 typedef struct {
 	TERM* expression;
 	struct statement* statements;
 } CONDSTATEMENT;
 typedef struct {
 	CONDSTATEMENT* base;
 	struct statement* elsestatements;
 } IFSTATEMENT;
 typedef struct {
 	char* varname;
 	TERM* arrayind;
 	TERM* expression;
 } LETSTATEMENT;
 typedef struct statement {
 	STATEMENTTYPE type;
 	union {
 		CONDSTATEMENT* whilest;
 		IFSTATEMENT* ifst;
 		LETSTATEMENT* letst;
 		SUBROUTCALL* dost;
 		TERM* retst;
 	};
 	struct statement* next;
 } STATEMENT;
 typedef enum {
 	stat, field
 } VARCLASS;
 typedef struct stringlist {
 	char* content;
 	struct stringlist* next;
 } STRINGLIST;
 typedef struct vardec {
 	char* type;
 	TOKENTYPE typeclass;
 	STRINGLIST* names;
 	struct vardec* next;
 } VARDEC;
 typedef struct classvardec {
 	VARCLASS varclass;
 	VARDEC* base;
 	struct classvardec* next;
 } CLASSVARDEC;
 typedef enum {
 	constructor, function, method
 } SUBROUTCLASS;
 typedef struct parameter {
 	char* type;
 	char* name;
 	struct parameter* next;
 } PARAMETER;
 typedef struct SUBROUTBODY {
 	VARDEC* vardecs;
 	STATEMENT* statements;
 } SUBROUTBODY;
 typedef struct subdec {
 	SUBROUTCLASS subroutclass;
 	char* type;
 	TOKENTYPE typeclass;
 	char* name;
 	PARAMETER* parameters;
 	SUBROUTBODY* body;
 	struct subdec* next;
 } SUBDEC;
 typedef struct {
 	char* name;
 	CLASSVARDEC* vardecs;
 	SUBDEC* subdecs;
 } CLASS;
 typedef struct {
 	TOKEN* tokens;
 	TOKEN* current;
 	TOKEN* checkpoint;
 	char* file;
 	CLASS* output;
 } PARSER;
 PARSER* mkparser(TOKEN* tokens, char* file);
 void parse(PARSER* parser);
 #endif
--- a/printer.c
+++ b/printer.c
@ -0,0 +1,443 @@
 #include "printer.h"
 void printexpression(TERM* e, FILE* output, int depth);
 void printstatements(STATEMENT* st, FILE* output, int depth);
 const char* tmpvarclasses[] = {
 	"static", "field"
 };
 const int tmpvarclassessize = sizeof(tmpvarclasses) / sizeof(char*);
 const char* tmpsubroutclasses[] = {
 	"constructor", "function", "method"
 };
 const int tmpsubroutclassessize = sizeof(tmpsubroutclasses) / sizeof(char*);
 const char* tmptokentypes[] = {
 	"keyword", "identifier"
 };
 void printident(FILE* output, int depth) {
 	for(int i = 0; i < depth; i++)
 		fprintf(output, "  ");
 }
 void printstringlist(FILE* output, int depth, STRINGLIST* ls) {
 	printident(output, depth);
 	fprintf(output, "<identifier> %s </identifier>\r\n", ls->content);
 	if(ls->next != NULL) {
 		printident(output, depth);
 		fprintf(output, "<symbol> , </symbol>\r\n");
 		printstringlist(output, depth, ls->next);
 	}
 }
 void printvardec(VARDEC* vd, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<%s> %s </%s>\r\n", tmptokentypes[vd->typeclass], vd->type, tmptokentypes[vd->typeclass]);
 	printstringlist(output, depth, vd->names);
 	printident(output, depth);
 	fprintf(output, "<symbol> ; </symbol>\r\n");
 }
 void printvardecs(VARDEC* vd, FILE* output, int depth) {
 	VARDEC* current = vd;
 	while(current != NULL) {
 		printident(output, depth);
 		fprintf(output, "<varDec>\r\n");
 		printident(output, depth+1);
 		fprintf(output, "<keyword> var </keyword>\r\n");
 		printvardec(current, output, depth+1);
 		current = current->next;
 		printident(output, depth);
 		fprintf(output, "</varDec>\r\n");
 	}
 }
 void printclassvardec(CLASSVARDEC* vd, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<keyword> %s </keyword>\r\n", tmpvarclasses[vd->varclass]);
 	printvardec(vd->base, output, depth);
 }
 void printclassvardecs(CLASSVARDEC* vd, FILE* output, int depth) {
 	CLASSVARDEC* current = vd;
 	while(current != NULL) {
 		printident(output, depth);
 		fprintf(output, "<classVarDec>\r\n");
 		printclassvardec(current, output, depth+1);
 		current = current->next;
 		printident(output, depth);
 		fprintf(output, "</classVarDec>\r\n");
 	}
 }
 void printparameter(PARAMETER* p, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<keyword> %s </keyword>\r\n", p->type);
 	printident(output, depth);
 	fprintf(output, "<identifier> %s </identifier>\r\n", p->name);
 	if(p->next != NULL) {
 		printident(output, depth);
 		fprintf(output, "<symbol> , </symbol>\r\n");
 	}
 }
 void printparameters(PARAMETER* p, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<parameterList>\r\n");
 	PARAMETER* current = p;
 	while(current != NULL) {
 		printparameter(current, output, depth+1);
 		current = current->next;
 	}
 	printident(output, depth);
 	fprintf(output, "</parameterList>\r\n");
 }
 void printexpressionlist(EXPRESSIONLIST* list, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<expressionList>\r\n");
 	if(list != NULL) {
 		EXPRESSIONLIST* current = list;
 		while(current != NULL) {
 			printexpression(current->expression, output, depth+1);
 			current = current->next;
 			if(current != NULL) {
 				printident(output, depth+1);
 				fprintf(output, "<symbol> , </symbol>\r\n");
 			}
 		}
 	}
 	printident(output, depth);
 	fprintf(output, "</expressionList>\r\n");
 }
 void printsubroutcall(SUBROUTCALL* c, FILE* output, int depth) {
 	if(c->parentname != NULL) {
 		printident(output, depth);
 		fprintf(output, "<identifier> %s </identifier>\r\n", c->parentname);
 		printident(output, depth);
 		fprintf(output, "<symbol> . </symbol>\r\n");
 	}
 	printident(output, depth);
 	fprintf(output, "<identifier> %s </identifier>\r\n", c->name);
 	printident(output, depth);
 	fprintf(output, "<symbol> ( </symbol>\r\n");
 	printexpressionlist(c->parameters, output, depth);
 	printident(output, depth);
 	fprintf(output, "<symbol> ) </symbol>\r\n");
 }
 void printterm(TERM* e, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<term>\r\n");
 	if(e->type == varname) {
 		printident(output, depth+1);
 		fprintf(output, "<identifier> %s </identifier>\r\n", e->string);
 	} else if(e->type == subroutcall) {
 		printsubroutcall(e->call, output, depth+1);
 	} else if(e->type == stringconstant) {
 		printident(output, depth+1);
 		fprintf(output, "<stringConstant> %s </stringConstant>\r\n", e->string);
 	} else if(e->type == keywordconstant) {
 		printident(output, depth+1);
 		fprintf(output, "<keyword> %s </keyword>\r\n", e->string);
 	} else if(e->type == intconstant) {
 		printident(output, depth+1);
 		fprintf(output, "<integerConstant> %i </integerConstant>\r\n", e->integer);
 	} else if(e->type == arrayitem) {
 		printident(output, depth+1);
 		fprintf(output, "<identifier> %s </identifier>\r\n", e->string);
 		printident(output, depth+1);
 		fprintf(output, "<symbol> [ </symbol>\r\n");
 		printexpression(e->arrayexp, output, depth+1);
 		printident(output, depth+1);
 		fprintf(output, "<symbol> ] </symbol>\r\n");
 	} else if(e->type == innerexpression) {
 		printident(output, depth+1);
 		fprintf(output, "<symbol> ( </symbol>\r\n");
 		printexpression(e->expression, output, depth+1);
 		printident(output, depth+1);
 		fprintf(output, "<symbol> ) </symbol>\r\n");
 	} else {
 		printident(output, depth+1);
 		fprintf(output, "<symbol> %c </symbol>\r\n", e->unaryop);
 		printterm(e->expression, output, depth+1);
 	}
 	printident(output, depth);
 	fprintf(output, "</term>\r\n");
 	if(e->next != NULL) {
 		printident(output, depth);
 		fprintf(output, "<symbol> %c </symbol>\r\n", e->op);
 	}
 }
 void printexpression(TERM* e, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<expression>\r\n");
 	TERM* current = e;
 	while(current != NULL) {
 		printterm(current, output, depth+1);
 		current = current->next;
 	}
 	printident(output, depth);
 	fprintf(output, "</expression>\r\n");
 }
 void printcond(CONDSTATEMENT* st, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<symbol> ( </symbol>\r\n");
 	printexpression(st->expression, output, depth);
 	printident(output, depth);
 	fprintf(output, "<symbol> ) </symbol>\r\n");
 	printident(output, depth);
 	fprintf(output, "<symbol> { </symbol>\r\n");
 	printstatements(st->statements, output, depth);
 	printident(output, depth);
 	fprintf(output, "<symbol> } </symbol>\r\n");
 }
 void printif(IFSTATEMENT* st, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<ifStatement>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<keyword> if </keyword>\r\n");
 	printcond(st->base, output, depth+1);
 	if(st->elsestatements != NULL) {
 		printident(output, depth+1);
 		fprintf(output, "<keyword> else </keyword>\r\n");
 		printident(output, depth+1);
 		fprintf(output, "<symbol> { </symbol>\r\n");
 		printstatements(st->elsestatements, output, depth+1);
 		printident(output, depth+1);
 		fprintf(output, "<symbol> } </symbol>\r\n");
 	}
 	printident(output, depth);
 	fprintf(output, "</ifStatement>\r\n");
 }
 void printwhile(CONDSTATEMENT* st, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<whileStatement>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<keyword> while </keyword>\r\n");
 	printcond(st, output, depth+1);
 	printident(output, depth);
 	fprintf(output, "</whileStatement>\r\n");
 }
 void printlet(LETSTATEMENT* st, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<letStatement>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<keyword> let </keyword>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<identifier> %s </identifier>\r\n", st->varname);
 	if(st->arrayind != NULL) {
 		printident(output, depth+1);
 		fprintf(output, "<symbol> [ </symbol>\r\n");
 		printexpression(st->arrayind, output, depth+1);
 		printident(output, depth+1);
 		fprintf(output, "<symbol> ] </symbol>\r\n");
 	}
 	printident(output, depth+1);
 	fprintf(output, "<symbol> = </symbol>\r\n");
 	printexpression(st->expression, output, depth+1);
 	printident(output, depth+1);
 	fprintf(output, "<symbol> ; </symbol>\r\n");
 	printident(output, depth);
 	fprintf(output, "</letStatement>\r\n");
 }
 void printdo(SUBROUTCALL* st, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<doStatement>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<keyword> do </keyword>\r\n");
 	printsubroutcall(st, output, depth+1);
 	printident(output, depth+1);
 	fprintf(output, "<symbol> ; </symbol>\r\n");
 	printident(output, depth);
 	fprintf(output, "</doStatement>\r\n");
 }
 void printreturn(TERM* st, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<returnStatement>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<keyword> return </keyword>\r\n");
 	if(st != NULL)
 		printexpression(st, output, depth+1);
 	printident(output, depth+1);
 	fprintf(output, "<symbol> ; </symbol>\r\n");
 	printident(output, depth);
 	fprintf(output, "</returnStatement>\r\n");
 }
 void printstatement(STATEMENT* st, FILE* output, int depth) {
 	if(st->type == ifstatement)
 		printif(st->ifst, output, depth);
 	else if(st->type == letstatement)
 		printlet(st->letst, output, depth);
 	else if(st->type == whilestatement)
 		printwhile(st->whilest, output, depth);
 	else if(st->type == dostatement)
 		printdo(st->dost, output, depth);
 	else
 		printreturn(st->retst, output, depth);
 }
 void printstatements(STATEMENT* st, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<statements>\r\n");
 	STATEMENT* current = st;
 	while(current != NULL) {
 		printstatement(current, output, depth+1);
 		current = current->next;
 	}
 	printident(output, depth);
 	fprintf(output, "</statements>\r\n");
 }
 void printsubroutbody(SUBROUTBODY* bd, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<subroutineBody>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<symbol> { </symbol>\r\n");
 	printvardecs(bd->vardecs, output, depth+1);
 	printstatements(bd->statements, output, depth+1);
 	printident(output, depth+1);
 	fprintf(output, "<symbol> } </symbol>\r\n");
 	printident(output, depth);
 	fprintf(output, "</subroutineBody>\r\n");
 }
 void printsubroutdec(SUBDEC* sd, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<keyword> %s </keyword>\r\n", tmpsubroutclasses[sd->subroutclass]);
 	printident(output, depth);
 	fprintf(output, "<%s> %s </%s>\r\n", tmptokentypes[sd->typeclass], sd->type, tmptokentypes[sd->typeclass]);
 	printident(output, depth);
 	fprintf(output, "<identifier> %s </identifier>\r\n", sd->name);
 	printident(output, depth);
 	fprintf(output, "<symbol> ( </symbol>\r\n");
 	printparameters(sd->parameters, output, depth);
 	printident(output, depth);
 	fprintf(output, "<symbol> ) </symbol>\r\n");
 	printsubroutbody(sd->body, output, depth);
 }
 void printsubroutdecs(SUBDEC* sd, FILE* output, int depth) {
 	SUBDEC* current = sd;
 	while(current != NULL) {
 		printident(output, depth);
 		fprintf(output, "<subroutineDec>\r\n");
 		printsubroutdec(current, output, depth+1);
 		current = current->next;
 		printident(output, depth);
 		fprintf(output, "</subroutineDec>\r\n");
 	}
 }
 void printclass(CLASS* c, FILE* output, int depth) {
 	printident(output, depth);
 	fprintf(output, "<class>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<keyword> class </keyword>\r\n");
 	printident(output, depth+1);
 	fprintf(output, "<identifier> %s </identifier>\r\n", c->name);
 	printident(output, depth+1);
 	fprintf(output, "<symbol> { </symbol>\r\n");
 	printclassvardecs(c->vardecs, output, depth+1);
 	printsubroutdecs(c->subdecs, output, depth+1);
 	printident(output, depth+1);
 	fprintf(output, "<symbol> } </symbol>\r\n");
 	printident(output, depth);
 	fprintf(output, "</class>\r\n");
 }
 void printparser(FILE* output, PARSER* p) {
 	printclass(p->output, output, 0);
 }
--- a/printer.h
+++ b/printer.h
@ -0,0 +1,7 @@
 #ifndef PRINTER_H
 #define PRINTER_H
 #include "parser.h"
 void printparser(FILE* output, PARSER* p);
 #endif
--- a/tokenizer.c
+++ b/tokenizer.c
@ -15,8 +15,8 @@ typedef struct {
 	int count;
 } STRING;
-TOKENLIST* mktokenlist() {
+TOKEN* mktokenlist() {
-	return (TOKENLIST*)malloc(sizeof(TOKENLIST));
+	return (TOKEN*)malloc(sizeof(TOKEN));
 }
 CHARTYPE getchartype(unsigned char c) {
@ -97,18 +97,18 @@ TOKENTYPE gettokentype(STRING* tk, int truen) {
 	exit(1);
 }
-TOKENLIST* appendtokenraw(TOKENLIST* curitem, STRING* token, int truen, TOKENTYPE type) {
+TOKEN* appendtokenraw(TOKEN* curitem, STRING* token, int truen, TOKENTYPE type) {
 	curitem->token = (char*)malloc(sizeof(char)*token->count);
 	strcpy(curitem->token, token->str);
 	curitem->truen = truen;
 	curitem->type = type;
-	TOKENLIST* nextitem = mktokenlist();
+	TOKEN* nextitem = mktokenlist();
 	curitem->next = nextitem;
 	token->count = 0;
 	return nextitem;
 }
-TOKENLIST* appendtoken(TOKENLIST* curitem, STRING* token, int truen) {
+TOKEN* appendtoken(TOKEN* curitem, STRING* token, int truen) {
 	append(token, '\0');
 	return appendtokenraw(curitem, token, truen, gettokentype(token, truen));
 }
@ -168,10 +168,10 @@ void freestr(STRING* str) {
 	free(str);
 }
-TOKENLIST* tokenize(FILE* input) {
+TOKEN* tokenize(FILE* input) {
-	TOKENLIST* head = mktokenlist();
+	TOKEN* head = mktokenlist();
-	TOKENLIST* lastitem = head;
+	TOKEN* lastitem = head;
-	TOKENLIST* curitem = head;
+	TOKEN* curitem = head;
 	STRING* tmptoken = mkstring(200);
 	CHARTYPE lasttype = space;
--- a/tokenizer.h
+++ b/tokenizer.h
@ -3,16 +3,16 @@
 #include <stdio.h>
 typedef enum {
-	keyword, symbol, integer, string, identifier
+	keyword, identifier, symbol, integer, string
 } TOKENTYPE;
-typedef struct tklist {
+typedef struct token {
 	char* token;
 	TOKENTYPE type;
 	int truen;
-	struct tklist* next;
+	struct token* next;
-} TOKENLIST;
+} TOKEN;
-TOKENLIST* tokenize(FILE* input);
+TOKEN* tokenize(FILE* input);
-void freetokenlist(TOKENLIST l);
+void freetokenlist(TOKEN l);
 #endif