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C02/vars.c
2018-01-28 13:27:33 -05:00

350 lines
8.0 KiB
C

/*************************************
* C02 Variable Management Routines *
*************************************/
#include <stdio.h>
#include <stdlib.h>
#include <ctype.h>
#include <string.h>
#include <errno.h>
#include "common.h"
#include "files.h"
#include "asm.h"
#include "parse.h"
#include "label.h"
#include "vars.h"
/* Lookup variable name in variable table *
* Returns index into varnam array *
* FALSE if variable was not found */
int fndvar(char *name)
{
int i;
DEBUG("Looking up variable '%s'\n", word);
for (i=0; i<varcnt; i++) {
if (strcmp(varnam[i], name) == 0)
return i;
}
return -1;
}
/* Check if variable has been defined */
int symdef(char *name)
{
if (fndvar(name) > -1)
return TRUE;
else
return FALSE;
}
/* Check for variable *
* Generates error if variable is undefined *
* Args: alwreg - allow register name *
* name - variable name */
void chksym(int alwreg, char *name)
{
if (strlen(name) == 1 && strchr("AXY", name[0])) {
if (alwreg) return;
else ERROR("Illegal reference to register %s\n", name, EXIT_FAILURE);
}
if (!symdef(name))
ERROR("Undeclared variable '%s' encountered\n", name, EXIT_FAILURE);
}
/* Parse Variable Name *
* Parameters: alwary - Allow Array Reference *
* Sets: vrname - operand for LDA/STA/LDY/STY */
void reqvar(int alwary)
{
prsvar(FALSE);
if (!alwary)
if (valtyp != VARIABLE)
expctd("Variable");
}
/* Check for Array specifier and get size *
* Sets: value - array size (as string) *
* "" if not an array */
void pvarsz()
{
DEBUG("Checking for array definition\n", 0);
value[0] = 0;
if (match('[')) {
skpchr();
if (alcvar) {
DEBUG("Parsing array size\n", 0);
sprintf(value, "%d", prsnum(0xFF) + 1);
}
expect(']');
}
if (!alcvar)
strcpy(value, "*");
}
/* Parse Data Constant */
void prsdtc()
{
dtype = DTBYTE;
prscon();
}
/* Parse Data Array */
void prsdta()
{
dtype = DTARRY;
expect('{');
dlen = 0;
while (TRUE) {
prscon();
dattmp[dlen++] = cnstnt;
if (!look(','))
break;
}
expect('}');
}
/* Parse Data String */
void prsdts()
{
dtype = DTSTR;
getstr();
strcpy(value, word);
DEBUG("Parsed Data String '%s'\n", value);
}
/* Store variable data *
* Uses: value - Data to store *
* Sets: datvar[] - Variable Data *
* datlen[] - Data Length */
void setdat()
{
int i;
if (dtype == DTBYTE) {
DEBUG("Setting variable data to '%d'\n", cnstnt);
dlen = 1;
datvar[dsize++] = cnstnt;
}
else if (dtype == DTARRY) {
DEBUG("Setting variable data to array of length %d\n", dlen);
for (i=0; i<dlen; i++)
datvar[dsize++] = dattmp[i];
}
else {
DEBUG("Setting variable data to '%s'\n", value);
dlen = strlen(value);
for (i=0; i<dlen; i++)
datvar[dsize++] = value[i];
}
datlen[varcnt] = dlen;
dattyp[varcnt] = dtype;
DEBUG("Total data alllocated: %d bytes\n", dsize);
}
/* Parse and store variable data */
void prsdat()
{
DEBUG("Checking for variable data\n", 0);
if (!look('=')) {
datlen[varcnt] = 0;
return;
}
skpspc();
if (iscpre())
prsdtc(); //Parse Data Constant
else if (match('"'))
prsdts(); //Parse Data String
else if (match('{'))
prsdta(); //Parse Data Array
else
expctd("numeric or string constant");
setdat(); //Store Data Value
}
/* Add Variable to Variable table *
* Uses: word - variable name *
* value - variable size */
void setvar(int m, int t)
{
DEBUG("Added variable '%s' ", word);
strncpy(varnam[varcnt], vrname, VARLEN);
varmod[varcnt] = m;
vartyp[varcnt] = t;
strncpy(varsiz[varcnt], value, 3);
DETAIL("at index %d\n", varcnt);
}
/* Parse and Compile Variable Declaration *
* Uses: word - variable name */
void addvar(int m, int t)
{
strcpy(vrname, word); //Save Variable Name
if (symdef(vrname))
ERROR("Duplicate declaration of variable '%s\n", word,EXIT_FAILURE);
if (t == VTVOID)
ERROR("Illegal Variable Type\n", 0, EXIT_FAILURE);
if (m == MTZP) {
setlbl(vrname);
sprintf(word, "$%hhX", zpaddr++);
asmlin(EQUOP, word);
strcpy(value, "*"); //Set Variable Type to Zero Page
}
else
pvarsz(); //Check for Array Declaration and Get Size
setvar(m, t); //Add to Variable Table
if (m != MTZP)
prsdat(); //Parse Variable Data
varcnt++; //Increment Variable Counter
}
/* Add Function Definition */
void addfnc()
{
ACMNT(word);
expect('(');
strcpy(fncnam, word); //Save Function Name
prmcnt = 0; //Set Number of Parameters
skpspc(); //Skip Spaces
if (isalph()) { //Parse Parameters
reqvar(FALSE); //Get First Parameter
strcpy(prmtra, value);
prmcnt++;
if (look(',')) {
reqvar(FALSE); //Get Second Parameter
strcpy(prmtry, value);
prmcnt++;
if (look(',')) {
reqvar(FALSE); //Third Parameter
strcpy(prmtrx, value);
prmcnt++;
}
}
}
expect(')');
if (look(';')) //Forward Definition
return;
setlbl(fncnam); //Set Function Entry Point
if (prmcnt > 0)
asmlin("STA", prmtra); //Store First Parameter
if (prmcnt > 1)
asmlin("STY", prmtry); //Store Second Parameter
if (prmcnt > 2)
asmlin("STX", prmtrx); //Store Third Parameter
endlbl[0] = 0; //Create Dummy End Label
pshlbl(LTFUNC, endlbl); //and Push onto Stack
bgnblk(TRUE); //Start Program Block
}
/* (Check For and) Parse Variable Declaration*/
void pdecl(int m, int t)
{
DEBUG("Processing variable declarations(s) of type %d\n", t);
while(TRUE) {
getwrd();
if (match('(')) {
if (m != MTNONE) {
ERROR("Illegal Modifier %d in Function Definion", m, EXIT_FAILURE);
}
addfnc(); //Add Function Call
return;
}
addvar(m, t);
if (!look(','))
break;
}
expect(';');
DEBUG("Variable Declaration Completed\n", 0);
SCMNT(""); //Clear Assembler Comment
}
/* Check for and Parse Type Keyword */
int ptype(int m)
{
int result = TRUE;
if (wordis("VOID"))
pdecl(m, VTVOID); //Parse 'void' declaration
else if (wordis("CHAR"))
pdecl(m, VTCHAR); //Parse 'char' declaration
else
result = FALSE;
//DEBUG("Returning %d from function ptype\n", result)'
return result;
}
/* Check for and Parse Modifier */
int pmodfr()
{
DEBUG("Parsing modifier '%s'\n", word);
int result = TRUE;
if (wordis("ALIGNED")) {
getwrd();
ptype(MTALGN);
}
else if (wordis("ZEROPAGE")) {
getwrd();
ptype(MTZP);
}
else
result = FALSE;
return result;
}
/* Write Variable Data */
void vardat(int i)
{
int j;
DEBUG("Building Data for Variable '%s'\n", varnam[i]);
value[0] = 0;
for (j=0; j<datlen[i]; j++) {
if (j) strcat(value,",");
sprintf(word, "$%hhX", datvar[dlen++]);
strcat(value, word);
}
if (dattyp[i] == DTSTR) strcat(value, ",$00");
DEBUG("Allocating Data for Variable '%s'\n", varnam[i]);
asmlin(BYTEOP, value);
}
/* Write Variable Table */
void vartbl()
{
int i;
DEBUG("Writing Variable Table", 0);
dlen = 0;
for (i=0; i<varcnt; i++) {
strcpy(lblasm, varnam[i]);
DEBUG("Set Label to '%s'\n", lblasm);
if (strcmp(varsiz[i], "*") == 0)
continue;
if (varmod[i] == MTALGN) {
DEBUG("Alligning variable '%s'\n", varnam[i]);
asmlin(ALNOP, "256");
}
if (datlen[i])
vardat(i); //Write Variable Data
else if (strlen(varsiz[i]) > 0) {
DEBUG("Allocating array '%s'\n", varnam[i]);
asmlin(STROP, varsiz[i]);
}
else {
DEBUG("Allocating variable '%s'\n", varnam[i]);
asmlin(BYTEOP, "0");
}
}
vrwrtn = TRUE;
}
/* Print Variable Table to Log File */
void logvar()
{
int i;
fprintf(logfil, "\n%-31s %s %s %s\n", "Variable", "Type", "Size", "Data");
for (i=0; i<varcnt; i++)
{
fprintf(logfil, "%-31s %4d %4s %1d-%d\n", varnam[i], vartyp[i], varsiz[i], dattyp[i], datlen[i]);
}
}