#include <stdarg.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "Operation.h"
#include "Script.h"
static void sError(Script* sc, const char* format, ...) {
va_list args;
va_start(args, format);
vsnprintf(sc->error, SCRIPT_ERROR_SIZE, format, args);
va_end(args);
}
static bool sPrinter(Object* o) {
switch(o->type) {
case OT_INT: printf("%d\n", o->data.intValue); return false;
case OT_FLOAT: printf("%.2f\n", o->data.floatValue); return false;
case OT_NULL: printf("null\n"); return false;
case OT_BOOL: printf(o->data.intValue ? "true\n" : "false\n"); return false;
case OT_VOID: printf("void\n"); return false;
}
return true;
}
static ObjectPrinter printer = sPrinter;
static bool sRead(Script* sc, void* buffer, int length) {
if(sc->readIndex + length > sc->code->length) {
sError(sc, "cannot read expected %d bytes of data from bytecode on line %d", sc->line);
return true;
}
memcpy(buffer, sc->code->code + sc->readIndex, length);
sc->readIndex += length;
return false;
}
static Operation sReadOperation(Script* sc) {
unsigned char c;
if(sRead(sc, &c, 1)) {
return OP_NOTHING;
}
return c;
}
static bool sReadInt(Script* sc, int* i) {
return !sRead(sc, i, sizeof(int));
}
static bool sCheckType(Script* sc, Object* o, ObjectType ot) {
if(o->type == ot) {
return true;
}
sError(sc, "object is not of type %s on line %d", oGetName(ot), sc->line);
return false;
}
static bool sPush(Script* sc, Object* o) {
if(sc->stackIndex >= SCRIPT_STACK_SIZE) {
sError(sc, "stack overflow on line %d", sc->line);
return false;
}
sc->stack[sc->stackIndex++] = *o;
return true;
}
static bool sPop(Script* sc, Object* o) {
if(sc->stackIndex <= 0) {
sError(sc, "stack underflow on line %d", sc->line);
return true;
}
*o = sc->stack[--sc->stackIndex];
return false;
}
static void sPopEmpty(Script* sc) {
Object o;
sPop(sc, &o);
}
static Object* sPeek(Script* sc) {
if(sc->stackIndex <= 0) {
sError(sc, "stack underflow on line %d", sc->line);
return NULL;
}
return sc->stack + (sc->stackIndex - 1);
}
static bool sPushInt(Script* sc, int value) {
Object o = {.type = OT_INT, .data.intValue = value};
return sPush(sc, &o);
}
static void sPushFloat(Script* sc, float value) {
Object o = {.type = OT_FLOAT, .data.floatValue = value};
sPush(sc, &o);
}
static void sPushNull(Script* sc) {
Object o = {.type = OT_NULL};
sPush(sc, &o);
}
static void sPushBool(Script* sc, bool value) {
Object o = {.type = OT_BOOL, .data.intValue = value};
sPush(sc, &o);
}
static void sPushVars(Script* sc) {
int vars = 0;
int offset = 0;
if(sReadInt(sc, &vars) && sReadInt(sc, &offset)) {
int stackVarIndex = sc->stackVarIndex;
sc->stackVarIndex = sc->stackIndex - offset;
for(int i = 0; i < vars - offset; i++) {
sPushNull(sc);
}
sPushInt(sc, stackVarIndex);
}
}
static void sPopVars(Script* sc) {
int value = 0;
Object o;
if(sReadInt(sc, &value) && !sPop(sc, &o) && sCheckType(sc, &o, OT_INT)) {
sc->stackVarIndex = o.data.intValue;
if(sc->stackIndex < value) {
sError(sc, "stack underflow on line %d", sc->line);
} else {
sc->stackIndex -= value;
}
}
}
static void sSet(Script* sc) {
int value = 0;
if(sReadInt(sc, &value)) {
sPop(sc, sc->stack + value + sc->stackVarIndex);
}
}
static void sGet(Script* sc) {
int value = 0;
if(sReadInt(sc, &value)) {
sPush(sc, sc->stack + value + sc->stackVarIndex);
}
}
static void sPushCodeInt(Script* sc) {
int value = 0;
if(sReadInt(sc, &value)) {
sPushInt(sc, value);
}
}
static void sPushCodeFloat(Script* sc) {
float value = 0;
if(sRead(sc, &value, sizeof(float))) {
sError(sc, "cannot read a float from the bytecode on line %d", sc->line);
return;
}
sPushFloat(sc, value);
}
static void sIntBinary(Script* sc, int (*fInt)(int, int), float (*fFloat)(float, float)) {
Object o[2];
if(sPop(sc, o) || sPop(sc, o + 1)) {
return;
} else if(o[0].type == OT_INT && o[1].type == OT_INT) {
sPushInt(sc, fInt(o[0].data.intValue, o[1].data.intValue));
} else if(o[0].type == OT_FLOAT && o[1].type == OT_INT) {
sPushFloat(sc, fFloat(o[0].data.floatValue, o[1].data.intValue));
} else if(o[0].type == OT_INT && o[1].type == OT_FLOAT) {
sPushFloat(sc, fFloat(o[0].data.intValue, o[1].data.floatValue));
} else if(o[0].type == OT_FLOAT && o[1].type == OT_FLOAT) {
sPushFloat(sc, fFloat(o[0].data.floatValue, o[1].data.floatValue));
} else {
sError(sc, "object is not a number on line %d", sc->line);
}
}
static int sIntAdd(int a, int b) {
return a + b;
}
static int sIntSub(int a, int b) {
return b - a;
}
static int sIntMul(int a, int b) {
return a * b;
}
static float sFloatAdd(float a, float b) {
return a + b;
}
static float sFloatSub(float a, float b) {
return b - a;
}
static float sFloatMul(float a, float b) {
return a * b;
}
static void sBoolBinary(Script* sc, bool (*fInt)(int, int), bool (*fFloat)(float, float)) {
Object o[2];
if(sPop(sc, o) || sPop(sc, o + 1)) {
return;
} else if(o[0].type == OT_INT && o[1].type == OT_INT) {
sPushBool(sc, fInt(o[0].data.intValue, o[1].data.intValue));
} else if(o[0].type == OT_FLOAT && o[1].type == OT_INT) {
sPushBool(sc, fFloat(o[0].data.floatValue, o[1].data.intValue));
} else if(o[0].type == OT_INT && o[1].type == OT_FLOAT) {
sPushBool(sc, fFloat(o[0].data.intValue, o[1].data.floatValue));
} else if(o[0].type == OT_FLOAT && o[1].type == OT_FLOAT) {
sPushBool(sc, fFloat(o[0].data.floatValue, o[1].data.floatValue));
} else {
sError(sc, "object is not a number on line %d", sc->line);
}
}
static bool sIntLess(int a, int b) {
return b < a;
}
static bool sIntGreater(int a, int b) {
return b > a;
}
static bool sFloatLess(float a, float b) {
return b < a;
}
static bool sFloatGreater(float a, float b) {
return b > a;
}
static void sEqual(Script* sc) {
Object o[2];
if(sPop(sc, o) || sPop(sc, o + 1)) {
return;
} else if(o[0].type == OT_INT && o[1].type == OT_INT) {
sPushBool(sc, o[0].data.intValue == o[1].data.intValue);
} else if(o[0].type == OT_INT && o[1].type == OT_FLOAT) {
sPushBool(sc, o[0].data.intValue == o[1].data.floatValue);
} else if(o[0].type == OT_FLOAT && o[1].type == OT_INT) {
sPushBool(sc, o[0].data.floatValue == o[1].data.intValue);
} else if(o[0].type == OT_FLOAT && o[1].type == OT_FLOAT) {
sPushBool(sc, o[0].data.floatValue == o[1].data.floatValue);
} else if(o[0].type == OT_BOOL && o[1].type == OT_BOOL) {
sPushBool(sc, o[0].data.intValue == o[1].data.intValue);
} else if(o[0].type == OT_NULL && o[1].type == OT_NULL) {
sPushBool(sc, true);
} else {
sError(sc, "object types do not match on line %d", sc->line);
}
}
static void sNot(Script* sc) {
Object* o = sPeek(sc);
if(o != NULL && sCheckType(sc, o, OT_BOOL)) {
o->data.intValue = !o->data.intValue;
}
}
static void sPrint(Script* sc) {
Object o;
if(!sPop(sc, &o) && printer(&o)) {
sError(sc, "cannot print given object on line %d", sc->line);
}
}
static void sLine(Script* sc) {
if(sRead(sc, &sc->line, 2)) {
sError(sc, "line operation without a line near line %d", sc->line);
}
}
static void sGoTo(Script* sc) {
int gotoIndex;
if(sReadInt(sc, &gotoIndex)) {
sc->readIndex = gotoIndex;
}
}
static void sGoSub(Script* sc) {
int gotoIndex;
int arguments;
if(sReadInt(sc, &gotoIndex) && sReadInt(sc, &arguments)) {
int returnStackIndex = sc->stackIndex - arguments - 1;
if(returnStackIndex < 0 || sc->stack[returnStackIndex].type != OT_INT) {
sError(sc, "cannot find return address entry on stack on line %d", sc->line);
return;
}
sc->stack[returnStackIndex].data.intValue = sc->readIndex;
sc->readIndex = gotoIndex;
}
}
static void sIfGoTo(Script* sc) {
int gotoIndex;
Object o;
if(sReadInt(sc, &gotoIndex) && !sPop(sc, &o) && sCheckType(sc, &o, OT_BOOL) && !o.data.intValue) {
sc->readIndex = gotoIndex;
}
}
static void sSetReturn(Script* sc) {
sPop(sc, &sc->returnValue);
}
static void sReturn(Script* sc) {
Object o;
if(!sPop(sc, &o) && sCheckType(sc, &o, OT_INT)) {
sc->readIndex = o.data.intValue;
if(sc->returnValue.type != OT_VOID) {
sPush(sc, &sc->returnValue);
sc->returnValue.type = OT_VOID;
}
}
}
static void sConsumeInstruction(Script* sc) {
switch(sReadOperation(sc)) {
case OP_NOTHING: break;
case OP_PUSH_INT: sPushCodeInt(sc); break;
case OP_PUSH_FLOAT: sPushCodeFloat(sc); break;
case OP_PUSH_NULL: sPushNull(sc); break;
case OP_PUSH_TRUE: sPushBool(sc, true); break;
case OP_PUSH_FALSE: sPushBool(sc, false); break;
case OP_PUSH_VARS: sPushVars(sc); break;
case OP_POP_VARS: sPopVars(sc); break;
case OP_POP: sPopEmpty(sc); break;
case OP_SET: sSet(sc); break;
case OP_GET: sGet(sc); break;
case OP_ADD: sIntBinary(sc, sIntAdd, sFloatAdd); break;
case OP_SUB: sIntBinary(sc, sIntSub, sFloatSub); break;
case OP_MUL: sIntBinary(sc, sIntMul, sFloatMul); break;
case OP_LESS: sBoolBinary(sc, sIntLess, sFloatLess); break;
case OP_GREATER: sBoolBinary(sc, sIntGreater, sFloatGreater); break;
case OP_EQUAL: sEqual(sc); break;
case OP_NOT: sNot(sc); break;
case OP_PRINT: sPrint(sc); break;
case OP_LINE: sLine(sc); break;
case OP_GOTO: sGoTo(sc); break;
case OP_GOSUB: sGoSub(sc); break;
case OP_IF_GOTO: sIfGoTo(sc); break;
case OP_SET_RETURN: sSetReturn(sc); break;
case OP_RETURN: sReturn(sc); break;
}
}
static bool sHasData(Script* sc) {
return sc->readIndex < sc->code->length;
}
Script* sInit(ByteCode* code) {
Script* sc = malloc(sizeof(Script));
sc->error[0] = '\0';
sc->code = code;
sc->readIndex = 0;
sc->returnValue.type = OT_VOID;
sc->stackIndex = 0;
sc->stackVarIndex = 0;
sc->line = 0;
return sc;
}
void sDelete(Script* sc) {
bcDelete(sc->code);
free(sc);
}
void sRun(Script* sc) {
while(sHasData(sc)) {
sConsumeInstruction(sc);
if(sc->error[0] != '\0') {
puts(sc->error);
return;
}
}
}
void sSetPrinter(ObjectPrinter p) {
printer = p;
}
static void sPrintInt(Script* sc, const char* msg) {
int value = 0;
sReadInt(sc, &value);
printf("%s %d\n", msg, value);
}
static void sPrint2Int(Script* sc, const char* msg) {
int a = 0;
sReadInt(sc, &a);
int b = 0;
sReadInt(sc, &b);
printf("%s %d %d\n", msg, a, b);
}
static void sPrintInt16(Script* sc, const char* msg) {
int value = 0;
sRead(sc, &value, 2);
printf("%s %d\n", msg, value);
}
static void sPrintFloat(Script* sc, const char* msg) {
float value = 0;
sRead(sc, &value, sizeof(float));
printf("%s %.2f\n", msg, value);
}
void sPrintCode(Script* sc) {
int oldRead = sc->readIndex;
sc->readIndex = 0;
while(sHasData(sc)) {
printf(" %3d | ", sc->readIndex);
switch(sReadOperation(sc)) {
case OP_NOTHING: puts("Nothing"); break;
case OP_PUSH_INT: sPrintInt(sc, "Push Int"); break;
case OP_PUSH_FLOAT: sPrintFloat(sc, "Push Float"); break;
case OP_PUSH_NULL: puts("Push null"); break;
case OP_PUSH_TRUE: puts("Push true"); break;
case OP_PUSH_FALSE: puts("Push false"); break;
case OP_PUSH_VARS: sPrint2Int(sc, "Push Vars"); break;
case OP_POP_VARS: sPrintInt(sc, "Pop Vars"); break;
case OP_POP: puts("Pop"); break;
case OP_SET: sPrintInt(sc, "Set"); break;
case OP_GET: sPrintInt(sc, "Get"); break;
case OP_ADD: puts("Add"); break;
case OP_SUB: puts("Sub"); break;
case OP_MUL: puts("Mul"); break;
case OP_LESS: puts("Less"); break;
case OP_GREATER: puts("Greater"); break;
case OP_EQUAL: puts("Equal"); break;
case OP_NOT: puts("Not"); break;
case OP_PRINT: puts("Print"); break;
case OP_LINE: sPrintInt16(sc, "------------ Line"); break;
case OP_GOTO: sPrintInt(sc, "GoTo"); break;
case OP_GOSUB: sPrint2Int(sc, "GoSub"); break;
case OP_IF_GOTO: sPrintInt(sc, "If GoTo"); break;
case OP_SET_RETURN: puts("Set Return"); break;
case OP_RETURN: puts("Return"); break;
}
}
sc->readIndex = oldRead;
}