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fallout2-ce/src/interpreter.cc

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Initial commit
2022-05-19 01:51:26 -07:00
#include "interpreter.h"
#include "core.h"
#include "db.h"
#include "debug.h"
#include "export.h"
#include "interpreter_lib.h"
#include "memory_manager.h"
Add string functions compatibility layer See #17
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#include "platform_compat.h"
Initial commit
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#include <assert.h>
Add missing includes
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#include <limits.h>
Initial commit
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#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
// 0x50942C
char _aCouldnTFindPro[] = "<couldn't find proc>";
// sayTimeoutMsg
// 0x519038
int _TimeOut = 0;
// 0x51903C
int _Enabled = 1;
// 0x519040
int (*_timerFunc)() = _defaultTimerFunc;
// 0x519044
int _timerTick = 1000;
// 0x519048
char* (*_filenameFunc)(char*) = _defaultFilename_;
// 0x51904C
int (*_outputFunc)(char*) = _outputStr;
// 0x519050
int _cpuBurstSize = 10;
// 0x59E230
OpcodeHandler* gInterpreterOpcodeHandlers[342];
// 0x59E78C
Program* gInterpreterCurrentProgram;
// 0x59E790
ProgramListNode* gInterpreterProgramListHead;
int _suspendEvents;
int _busy;
// 0x4670A0
int _defaultTimerFunc()
{
return _get_time();
}
// 0x4670B4
char* _defaultFilename_(char* s)
{
return s;
}
// 0x4670B8
char* _interpretMangleName(char* s)
{
return _filenameFunc(s);
}
// 0x4670C0
int _outputStr(char* a1)
{
return 1;
}
// 0x4670C8
int _checkWait(Program* program)
{
return 1000 * _timerFunc() / _timerTick <= program->field_70;
}
// 0x4670FC
void _interpretOutputFunc(int (*func)(char*))
{
_outputFunc = func;
}
// 0x467104
int _interpretOutput(const char* format, ...)
{
if (_outputFunc == NULL) {
return 0;
}
char string[260];
va_list args;
va_start(args, format);
int rc = vsprintf(string, format, args);
va_end(args);
debugPrint(string);
return rc;
}
// 0x467160
char* programGetCurrentProcedureName(Program* program)
{
int procedureCount = stackReadInt32(program->procedures, 0);
unsigned char* ptr = program->procedures + 4;
int procedureOffset = stackReadInt32(ptr, 16);
int identifierOffset = stackReadInt32(ptr, 0);
for (int index = 0; index < procedureCount; index++) {
int nextProcedureOffset = stackReadInt32(ptr + 24, 16);
if (program->instructionPointer >= procedureOffset && program->instructionPointer < nextProcedureOffset) {
return (char*)(program->identifiers + identifierOffset);
}
ptr += 24;
identifierOffset = stackReadInt32(ptr, 0);
}
return _aCouldnTFindPro;
}
// 0x4671F0
Use C++ noreturn attribute
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[[noreturn]] void programFatalError(const char* format, ...)
Initial commit
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{
char string[260];
va_list argptr;
va_start(argptr, format);
vsprintf(string, format, argptr);
va_end(argptr);
debugPrint("\nError during execution: %s\n", string);
if (gInterpreterCurrentProgram == NULL) {
debugPrint("No current script");
} else {
char* procedureName = programGetCurrentProcedureName(gInterpreterCurrentProgram);
debugPrint("Current script: %s, procedure %s", gInterpreterCurrentProgram->name, procedureName);
}
if (gInterpreterCurrentProgram) {
longjmp(gInterpreterCurrentProgram->env, 1);
}
}
// 0x467290
opcode_t stackReadInt16(unsigned char* data, int pos)
{
// TODO: The return result is probably short.
opcode_t value = 0;
value |= data[pos++] << 8;
value |= data[pos++];
return value;
}
// 0x4672A4
int stackReadInt32(unsigned char* data, int pos)
{
int value = 0;
value |= data[pos++] << 24;
value |= data[pos++] << 16;
value |= data[pos++] << 8;
value |= data[pos++] & 0xFF;
return value;
}
// 0x4672D4
void stackWriteInt16(int value, unsigned char* stack, int pos)
{
stack[pos++] = (value >> 8) & 0xFF;
stack[pos] = value & 0xFF;
}
// NOTE: Inlined.
//
// 0x4672E8
void stackWriteInt32(int value, unsigned char* stack, int pos)
{
stack[pos++] = (value >> 24) & 0xFF;
stack[pos++] = (value >> 16) & 0xFF;
stack[pos++] = (value >> 8) & 0xFF;
stack[pos] = value & 0xFF;
}
// pushShortStack
// 0x467324
void stackPushInt16(unsigned char* data, int* pointer, int value)
{
if (*pointer + 2 >= 0x1000) {
programFatalError("pushShortStack: Stack overflow.");
}
stackWriteInt16(value, data, *pointer);
*pointer += 2;
}
// pushLongStack
// 0x46736C
void stackPushInt32(unsigned char* data, int* pointer, int value)
{
int v1;
if (*pointer + 4 >= 0x1000) {
// FIXME: Should be pushLongStack.
programFatalError("pushShortStack: Stack overflow.");
}
v1 = *pointer;
stackWriteInt16(value >> 16, data, v1);
stackWriteInt16(value & 0xFFFF, data, v1 + 2);
*pointer = v1 + 4;
}
// popStackLong
// 0x4673C4
int stackPopInt32(unsigned char* data, int* pointer)
{
if (*pointer < 4) {
programFatalError("\nStack underflow long.");
}
*pointer -= 4;
return stackReadInt32(data, *pointer);
}
// popStackShort
// 0x4673F0
opcode_t stackPopInt16(unsigned char* data, int* pointer)
{
if (*pointer < 2) {
programFatalError("\nStack underflow short.");
}
*pointer -= 2;
// NOTE: uninline
return stackReadInt16(data, *pointer);
}
// 0x467440
void programPopString(Program* program, opcode_t opcode, int value)
{
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
char* string = (char*)(program->dynamicStrings + 4 + value);
short* refcountPtr = (short*)(string - 2);
if (*refcountPtr != 0) {
*refcountPtr -= 1;
} else {
debugPrint("Reference count zero for %s!\n", string);
}
if (*refcountPtr < 0) {
debugPrint("String ref went negative, this shouldn\'t ever happen\n");
}
}
}
// 0x46748C
void programStackPushInt16(Program* program, int value)
{
int v1, v2;
unsigned char* v3;
stackPushInt16(program->stack, &(program->stackPointer), value);
if (value == VALUE_TYPE_DYNAMIC_STRING) {
v1 = program->stackPointer;
if (v1 >= 6) {
v2 = stackReadInt32(program->stack, v1 - 6);
v3 = program->dynamicStrings + 4 + v2 - 2;
*(short*)v3 = *(short*)v3 + 1;
}
}
}
// 0x4674DC
void programStackPushInt32(Program* program, int value)
{
stackPushInt32(program->stack, &(program->stackPointer), value);
}
// 0x4674F0
opcode_t programStackPopInt16(Program* program)
{
return stackPopInt16(program->stack, &(program->stackPointer));
}
// 0x467500
int programStackPopInt32(Program* program)
{
return stackPopInt32(program->stack, &(program->stackPointer));
}
// 0x467510
void programReturnStackPushInt16(Program* program, int value)
{
stackPushInt16(program->returnStack, &(program->returnStackPointer), value);
if (value == VALUE_TYPE_DYNAMIC_STRING && program->stackPointer >= 6) {
int v4 = stackReadInt32(program->returnStack, program->returnStackPointer - 6);
*(short*)(program->dynamicStrings + 4 + v4 - 2) += 1;
}
}
// 0x467574
opcode_t programReturnStackPopInt16(Program* program)
{
opcode_t type;
int v5;
type = stackPopInt16(program->returnStack, &(program->returnStackPointer));
if (type == VALUE_TYPE_DYNAMIC_STRING && program->stackPointer >= 4) {
v5 = stackReadInt32(program->returnStack, program->returnStackPointer - 4);
programPopString(program, type, v5);
}
return type;
}
// 0x4675B8
int programReturnStackPopInt32(Program* program)
{
return stackPopInt32(program->returnStack, &(program->returnStackPointer));
}
// NOTE: Inlined.
//
// 0x4675C8
void _detachProgram(Program* program)
{
Program* parent = program->parent;
if (parent != NULL) {
parent->flags &= ~PROGRAM_FLAG_0x20;
parent->flags &= ~PROGRAM_FLAG_0x0100;
if (program == parent->child) {
parent->child = NULL;
}
}
}
// 0x4675F4
void _purgeProgram(Program* program)
{
if (!program->exited) {
_removeProgramReferences_(program);
program->exited = true;
}
}
// 0x467614
void programFree(Program* program)
{
// NOTE: Uninline.
_detachProgram(program);
Program* curr = program->child;
while (curr != NULL) {
// NOTE: Uninline.
_purgeProgram(curr);
curr->parent = NULL;
Program* next = curr->child;
curr->child = NULL;
curr = next;
}
// NOTE: Uninline.
_purgeProgram(program);
if (program->dynamicStrings != NULL) {
internal_free_safe(program->dynamicStrings, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 429
}
if (program->data != NULL) {
internal_free_safe(program->data, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 430
}
if (program->name != NULL) {
internal_free_safe(program->name, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 431
}
if (program->stack != NULL) {
internal_free_safe(program->stack, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 432
}
if (program->returnStack != NULL) {
internal_free_safe(program->returnStack, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 433
}
internal_free_safe(program, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 435
}
// 0x467734
Program* programCreateByPath(const char* path)
{
File* stream = fileOpen(path, "rb");
if (stream == NULL) {
char err[260];
sprintf(err, "Couldn't open %s for read\n", path);
programFatalError(err);
return NULL;
}
int fileSize = fileGetSize(stream);
Convert to C++
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unsigned char* data = (unsigned char*)internal_malloc_safe(fileSize, __FILE__, __LINE__); // ..\\int\\INTRPRET.C, 458
Initial commit
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fileRead(data, 1, fileSize, stream);
fileClose(stream);
Convert to C++
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Program* program = (Program*)internal_malloc_safe(sizeof(Program), __FILE__, __LINE__); // ..\\int\\INTRPRET.C, 463
Initial commit
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memset(program, 0, sizeof(Program));
Convert to C++
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program->name = (char*)internal_malloc_safe(strlen(path) + 1, __FILE__, __LINE__); // ..\\int\\INTRPRET.C, 466
Initial commit
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strcpy(program->name, path);
program->child = NULL;
program->parent = NULL;
program->field_78 = -1;
Convert to C++
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program->stack = (unsigned char*)internal_calloc_safe(1, 4096, __FILE__, __LINE__); // ..\\int\\INTRPRET.C, 472
Initial commit
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program->exited = false;
program->basePointer = -1;
program->framePointer = -1;
Convert to C++
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program->returnStack = (unsigned char*)internal_calloc_safe(1, 4096, __FILE__, __LINE__); // ..\\int\\INTRPRET.C, 473
Initial commit
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program->data = data;
program->procedures = data + 42;
program->identifiers = 24 * stackReadInt32(program->procedures, 0) + program->procedures + 4;
program->staticStrings = program->identifiers + stackReadInt32(program->identifiers, 0) + 4;
return program;
}
// 0x4678E0
char* programGetString(Program* program, opcode_t opcode, int offset)
{
// The order of checks is important, because dynamic string flag is
// always used with static string flag.
if ((opcode & RAW_VALUE_TYPE_DYNAMIC_STRING) != 0) {
return (char*)(program->dynamicStrings + 4 + offset);
}
if ((opcode & RAW_VALUE_TYPE_STATIC_STRING) != 0) {
return (char*)(program->staticStrings + 4 + offset);
}
return NULL;
}
// 0x46790C
char* programGetIdentifier(Program* program, int offset)
{
return (char*)(program->identifiers + offset);
}
// Loops thru heap:
// - mark unreferenced blocks as free.
// - merge consequtive free blocks as one large block.
//
// This is done by negating block length:
// - positive block length - check for ref count.
// - negative block length - block is free, attempt to merge with next block.
//
// 0x4679E0
void programMarkHeap(Program* program)
{
unsigned char* ptr;
short len;
unsigned char* next_ptr;
short next_len;
short diff;
if (program->dynamicStrings == NULL) {
return;
}
ptr = program->dynamicStrings + 4;
while (*(unsigned short*)ptr != 0x8000) {
len = *(short*)ptr;
if (len < 0) {
len = -len;
next_ptr = ptr + len + 4;
if (*(unsigned short*)next_ptr != 0x8000) {
next_len = *(short*)next_ptr;
if (next_len < 0) {
diff = 4 - next_len;
if (diff + len < 32766) {
len += diff;
*(short*)ptr += next_len - 4;
} else {
debugPrint("merged string would be too long, size %d %d\n", diff, len);
}
}
}
} else if (*(short*)(ptr + 2) == 0) {
*(short*)ptr = -len;
*(short*)(ptr + 2) = 0;
}
ptr += len + 4;
}
}
// 0x467A80
int programPushString(Program* program, char* string)
{
int v27;
unsigned char* v20;
unsigned char* v23;
if (program == NULL) {
return 0;
}
v27 = strlen(string) + 1;
// Align memory
if (v27 & 1) {
v27++;
}
if (program->dynamicStrings != NULL) {
// TODO: Needs testing, lots of pointer stuff.
unsigned char* heap = program->dynamicStrings + 4;
while (*(unsigned short*)heap != 0x8000) {
short v2 = *(short*)heap;
if (v2 >= 0) {
if (v2 == v27) {
if (strcmp(string, (char*)(heap + 4)) == 0) {
return (heap + 4) - (program->dynamicStrings + 4);
}
}
} else {
v2 = -v2;
if (v2 > v27) {
if (v2 - v27 <= 4) {
*(short*)heap = v2;
} else {
*(short*)(heap + v27 + 6) = 0;
*(short*)(heap + v27 + 4) = -(v2 - v27 - 4);
*(short*)(heap) = v27;
}
*(short*)(heap + 2) = 0;
strcpy((char*)(heap + 4), string);
*(heap + v27 + 3) = '\0';
return (heap + 4) - (program->dynamicStrings + 4);
}
}
heap += v2 + 4;
}
} else {
Convert to C++
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program->dynamicStrings = (unsigned char*)internal_malloc_safe(8, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 631
Initial commit
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*(int*)(program->dynamicStrings) = 0;
*(short*)(program->dynamicStrings + 4) = 0x8000;
*(short*)(program->dynamicStrings + 6) = 1;
}
Convert to C++
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program->dynamicStrings = (unsigned char*)internal_realloc_safe(program->dynamicStrings, *(int*)(program->dynamicStrings) + 8 + 4 + v27, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 640
Initial commit
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v20 = program->dynamicStrings + *(int*)(program->dynamicStrings) + 4;
if ((*(short*)v20 & 0xFFFF) != 0x8000) {
programFatalError("Internal consistancy error, string table mangled");
}
*(int*)(program->dynamicStrings) += v27 + 4;
*(short*)(v20) = v27;
*(short*)(v20 + 2) = 0;
strcpy((char*)(v20 + 4), string);
v23 = v20 + v27;
*(v23 + 3) = '\0';
*(short*)(v23 + 4) = 0x8000;
*(short*)(v23 + 6) = 1;
return v20 + 4 - (program->dynamicStrings + 4);
}
// 0x467C90
void opNoop(Program* program)
{
}
// 0x467C94
void opPush(Program* program)
{
int pos = program->instructionPointer;
program->instructionPointer = pos + 4;
int value = stackReadInt32(program->data, pos);
stackPushInt32(program->stack, &(program->stackPointer), value);
programStackPushInt16(program, (program->flags >> 16) & 0xFFFF);
}
// - Pops value from stack, which is a number of arguments in the procedure.
// - Saves current frame pointer in return stack.
// - Sets frame pointer to the stack pointer minus number of arguments.
//
// 0x467CD0
void opPushBase(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int value = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, value);
}
stackPushInt32(program->returnStack, &(program->returnStackPointer), program->framePointer);
programReturnStackPushInt16(program, VALUE_TYPE_INT);
program->framePointer = program->stackPointer - 6 * value;
}
// pop_base
// 0x467D3C
void opPopBase(Program* program)
{
opcode_t opcode = programReturnStackPopInt16(program);
int data = stackPopInt32(program->returnStack, &(program->returnStackPointer));
if (opcode != VALUE_TYPE_INT) {
char err[260];
sprintf(err, "Invalid type given to pop_base: %x", opcode);
programFatalError(err);
}
program->framePointer = data;
}
// 0x467D94
void opPopToBase(Program* program)
{
while (program->stackPointer != program->framePointer) {
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
}
}
// 0x467DE0
void op802C(Program* program)
{
program->basePointer = program->stackPointer;
}
// 0x467DEC
void opDump(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if (opcode != VALUE_TYPE_INT) {
char err[256];
sprintf(err, "Invalid type given to dump, %x", opcode);
programFatalError(err);
}
// NOTE: Original code is slightly different - it goes backwards to -1.
for (int index = 0; index < data; index++) {
opcode = stackPopInt16(program->stack, &(program->stackPointer));
data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
}
}
// 0x467EA4
void opDelayedCall(Program* program)
{
opcode_t opcode[2];
int data[2];
for (int arg = 0; arg < 2; arg++) {
opcode[arg] = stackPopInt16(program->stack, &(program->stackPointer));
data[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode[arg], data[arg]);
}
if (arg == 0) {
if ((opcode[arg] & 0xF7FF) != VALUE_TYPE_INT) {
programFatalError("Invalid procedure type given to call");
}
} else if (arg == 1) {
if ((opcode[arg] & 0xF7FF) != VALUE_TYPE_INT) {
programFatalError("Invalid time given to call");
}
}
}
unsigned char* procedure_ptr = program->procedures + 4 + 24 * data[0];
int delay = 1000 * data[1];
if (!_suspendEvents) {
delay += 1000 * _timerFunc() / _timerTick;
}
int flags = stackReadInt32(procedure_ptr, 4);
stackWriteInt32(delay, procedure_ptr, 8);
stackWriteInt32(flags | PROCEDURE_FLAG_TIMED, procedure_ptr, 4);
}
// 0x468034
void opConditionalCall(Program* program)
{
opcode_t opcode[2];
int data[2];
for (int arg = 0; arg < 2; arg++) {
opcode[arg] = stackPopInt16(program->stack, &(program->stackPointer));
data[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode[arg], data[arg]);
}
}
if ((opcode[0] & 0xF7FF) != VALUE_TYPE_INT) {
programFatalError("Invalid procedure type given to conditional call");
}
if ((opcode[1] & 0xF7FF) != VALUE_TYPE_INT) {
programFatalError("Invalid address given to conditional call");
}
unsigned char* procedure_ptr = program->procedures + 4 + 24 * data[0];
int flags = stackReadInt32(procedure_ptr, 4);
stackWriteInt32(flags | PROCEDURE_FLAG_CONDITIONAL, procedure_ptr, 4);
stackWriteInt32(data[1], procedure_ptr, 12);
}
// 0x46817C
void opWait(Program* program)
{
opcode_t opcode = programStackPopInt16(program);
int data = programStackPopInt32(program);
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if ((opcode & 0xF7FF) != VALUE_TYPE_INT) {
programFatalError("Invalid type given to wait\n");
}
program->field_74 = 1000 * _timerFunc() / _timerTick;
program->field_70 = program->field_74 + data;
program->field_7C = _checkWait;
program->flags |= PROGRAM_FLAG_0x10;
}
// 0x468218
void opCancel(Program* program)
{
opcode_t opcode = programStackPopInt16(program);
int data = programStackPopInt32(program);
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if ((opcode & 0xF7FF) != VALUE_TYPE_INT) {
programFatalError("invalid type given to cancel");
}
if (data >= stackReadInt32(program->procedures, 0)) {
programFatalError("Invalid procedure offset given to cancel");
}
Procedure* proc = (Procedure*)(program->procedures + 4 + data * sizeof(*proc));
proc->field_4 = 0;
proc->field_8 = 0;
proc->field_C = 0;
}
// 0x468330
void opCancelAll(Program* program)
{
int procedureCount = stackReadInt32(program->procedures, 0);
for (int index = 0; index < procedureCount; index++) {
// TODO: Original code uses different approach, check.
Procedure* proc = (Procedure*)(program->procedures + 4 + index * sizeof(*proc));
proc->field_4 = 0;
proc->field_8 = 0;
proc->field_C = 0;
}
}
// 0x468400
void opIf(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if (data) {
opcode = stackPopInt16(program->stack, &(program->stackPointer));
data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
} else {
opcode = stackPopInt16(program->stack, &(program->stackPointer));
data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
program->instructionPointer = data;
}
}
// 0x4684A4
void opWhile(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if (data == 0) {
opcode = stackPopInt16(program->stack, &(program->stackPointer));
data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
program->instructionPointer = data;
}
}
// 0x468518
void opStore(Program* program)
{
opcode_t opcode[2];
int data[2];
// NOTE: Original code does not use loop.
for (int arg = 0; arg < 2; arg++) {
opcode[arg] = stackPopInt16(program->stack, &(program->stackPointer));
data[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode[arg], data[arg]);
}
}
int var_address = program->framePointer + 6 * data[0];
// NOTE: original code is different, does not use reading functions
opcode_t var_type = stackReadInt16(program->stack, var_address + 4);
int var_value = stackReadInt32(program->stack, var_address);
if (var_type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, var_type, var_value);
}
// TODO: Original code is different, check.
stackWriteInt32(data[1], program->stack, var_address);
stackWriteInt16(opcode[1], program->stack, var_address + 4);
if (opcode[1] == VALUE_TYPE_DYNAMIC_STRING) {
// increment ref count
*(short*)(program->dynamicStrings + 4 - 2 + data[1]) += 1;
}
}
// fetch
// 0x468678
void opFetch(Program* program)
{
char err[256];
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if (opcode != VALUE_TYPE_INT) {
sprintf(err, "Invalid type given to fetch, %x", opcode);
programFatalError(err);
}
// NOTE: original code is a bit different
int variableAddress = program->framePointer + 6 * data;
int variableType = stackReadInt16(program->stack, variableAddress + 4);
int variableValue = stackReadInt32(program->stack, variableAddress);
programStackPushInt32(program, variableValue);
programStackPushInt16(program, variableType);
}
// 0x46873C
void opConditionalOperatorNotEqual(Program* program)
{
opcode_t opcode[2];
int data[2];
float* floats = (float*)data;
char text[2][80];
char* str_ptr[2];
int res;
// NOTE: Original code does not use loop.
for (int arg = 0; arg < 2; arg++) {
opcode[arg] = stackPopInt16(program->stack, &(program->stackPointer));
data[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode[arg], data[arg]);
}
}
switch (opcode[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[1] = programGetString(program, opcode[1], data[1]);
switch (opcode[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[0] = programGetString(program, opcode[0], data[0]);
break;
case VALUE_TYPE_FLOAT:
sprintf(text[0], "%.5f", floats[0]);
str_ptr[0] = text[0];
break;
case VALUE_TYPE_INT:
sprintf(text[0], "%d", data[0]);
str_ptr[0] = text[0];
break;
default:
assert(false && "Should be unreachable");
}
res = strcmp(str_ptr[1], str_ptr[0]) != 0;
break;
case VALUE_TYPE_FLOAT:
switch (opcode[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%.5f", floats[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, opcode[0], data[0]);
res = strcmp(str_ptr[1], str_ptr[0]) != 0;
break;
case VALUE_TYPE_FLOAT:
res = floats[1] != floats[0];
break;
case VALUE_TYPE_INT:
res = floats[1] != (float)data[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_INT:
switch (opcode[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%d", data[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, opcode[0], data[0]);
res = strcmp(str_ptr[1], str_ptr[0]) != 0;
break;
case VALUE_TYPE_FLOAT:
res = (float)data[1] != floats[0];
break;
case VALUE_TYPE_INT:
res = data[1] != data[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
default:
assert(false && "Should be unreachable");
}
stackPushInt32(program->stack, &(program->stackPointer), res);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x468AA8
void opConditionalOperatorEqual(Program* program)
{
int arg;
opcode_t type[2];
int value[2];
float* floats = (float*)&value;
char text[2][80];
char* str_ptr[2];
int res;
for (arg = 0; arg < 2; arg++) {
type[arg] = stackPopInt16(program->stack, &(program->stackPointer));
value[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[arg], value[arg]);
}
}
switch (type[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[1] = programGetString(program, type[1], value[1]);
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[0] = programGetString(program, type[0], value[0]);
break;
case VALUE_TYPE_FLOAT:
sprintf(text[0], "%.5f", floats[0]);
str_ptr[0] = text[0];
break;
case VALUE_TYPE_INT:
sprintf(text[0], "%d", value[0]);
str_ptr[0] = text[0];
break;
default:
assert(false && "Should be unreachable");
}
res = strcmp(str_ptr[1], str_ptr[0]) == 0;
break;
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%.5f", floats[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, type[0], value[0]);
res = strcmp(str_ptr[1], str_ptr[0]) == 0;
break;
case VALUE_TYPE_FLOAT:
res = floats[1] == floats[0];
break;
case VALUE_TYPE_INT:
res = floats[1] == (float)value[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%d", value[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, type[0], value[0]);
res = strcmp(str_ptr[1], str_ptr[0]) == 0;
break;
case VALUE_TYPE_FLOAT:
res = (float)value[1] == floats[0];
break;
case VALUE_TYPE_INT:
res = value[1] == value[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
default:
assert(false && "Should be unreachable");
}
stackPushInt32(program->stack, &(program->stackPointer), res);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x468E14
void opConditionalOperatorLessThanEquals(Program* program)
{
int arg;
opcode_t type[2];
int value[2];
float* floats = (float*)&value;
char text[2][80];
char* str_ptr[2];
int res;
for (arg = 0; arg < 2; arg++) {
type[arg] = stackPopInt16(program->stack, &(program->stackPointer));
value[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[arg], value[arg]);
}
}
switch (type[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[1] = programGetString(program, type[1], value[1]);
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[0] = programGetString(program, type[0], value[0]);
break;
case VALUE_TYPE_FLOAT:
sprintf(text[0], "%.5f", floats[0]);
str_ptr[0] = text[0];
break;
case VALUE_TYPE_INT:
sprintf(text[0], "%d", value[0]);
str_ptr[0] = text[0];
break;
default:
assert(false && "Should be unreachable");
}
res = strcmp(str_ptr[1], str_ptr[0]) <= 0;
break;
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%.5f", floats[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, type[0], value[0]);
res = strcmp(str_ptr[1], str_ptr[0]) <= 0;
break;
case VALUE_TYPE_FLOAT:
res = floats[1] <= floats[0];
break;
case VALUE_TYPE_INT:
res = floats[1] <= (float)value[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%d", value[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, type[0], value[0]);
res = strcmp(str_ptr[1], str_ptr[0]) <= 0;
break;
case VALUE_TYPE_FLOAT:
res = (float)value[1] <= floats[0];
break;
case VALUE_TYPE_INT:
res = value[1] <= value[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
default:
assert(false && "Should be unreachable");
}
stackPushInt32(program->stack, &(program->stackPointer), res);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x469180
void opConditionalOperatorGreaterThanEquals(Program* program)
{
int arg;
opcode_t type[2];
int value[2];
float* floats = (float*)&value;
char text[2][80];
char* str_ptr[2];
int res;
// NOTE: original code does not use loop
for (arg = 0; arg < 2; arg++) {
type[arg] = stackPopInt16(program->stack, &(program->stackPointer));
value[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[arg], value[arg]);
}
}
switch (type[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[1] = programGetString(program, type[1], value[1]);
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[0] = programGetString(program, type[0], value[0]);
break;
case VALUE_TYPE_FLOAT:
sprintf(text[0], "%.5f", floats[0]);
str_ptr[0] = text[0];
break;
case VALUE_TYPE_INT:
sprintf(text[0], "%d", value[0]);
str_ptr[0] = text[0];
break;
default:
assert(false && "Should be unreachable");
}
res = strcmp(str_ptr[1], str_ptr[0]) >= 0;
break;
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%.5f", floats[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, type[0], value[0]);
res = strcmp(str_ptr[1], str_ptr[0]) >= 0;
break;
case VALUE_TYPE_FLOAT:
res = floats[1] >= floats[0];
break;
case VALUE_TYPE_INT:
res = floats[1] >= (float)value[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%d", value[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, type[0], value[0]);
res = strcmp(str_ptr[1], str_ptr[0]) >= 0;
break;
case VALUE_TYPE_FLOAT:
res = (float)value[1] >= floats[0];
break;
case VALUE_TYPE_INT:
res = value[1] >= value[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
default:
assert(false && "Should be unreachable");
}
stackPushInt32(program->stack, &(program->stackPointer), res);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x4694EC
void opConditionalOperatorLessThan(Program* program)
{
opcode_t opcodes[2];
int values[2];
float* floats = (float*)&values;
char text[2][80];
char* str_ptr[2];
int res;
for (int arg = 0; arg < 2; arg++) {
opcodes[arg] = stackPopInt16(program->stack, &(program->stackPointer));
values[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (opcodes[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcodes[arg], values[arg]);
}
}
switch (opcodes[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[1] = programGetString(program, opcodes[1], values[1]);
switch (opcodes[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[0] = programGetString(program, opcodes[0], values[0]);
break;
case VALUE_TYPE_FLOAT:
sprintf(text[0], "%.5f", floats[0]);
str_ptr[0] = text[0];
break;
case VALUE_TYPE_INT:
sprintf(text[0], "%d", values[0]);
str_ptr[0] = text[0];
break;
default:
assert(false && "Should be unreachable");
}
res = strcmp(str_ptr[1], str_ptr[0]) < 0;
break;
case VALUE_TYPE_FLOAT:
switch (opcodes[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%.5f", floats[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, opcodes[0], values[0]);
res = strcmp(str_ptr[1], str_ptr[0]) < 0;
break;
case VALUE_TYPE_FLOAT:
res = floats[1] < floats[0];
break;
case VALUE_TYPE_INT:
res = floats[1] < (float)values[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_INT:
switch (opcodes[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%d", values[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, opcodes[0], values[0]);
res = strcmp(str_ptr[1], str_ptr[0]) < 0;
break;
case VALUE_TYPE_FLOAT:
res = (float)values[1] < floats[0];
break;
case VALUE_TYPE_INT:
res = values[1] < values[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
default:
assert(false && "Should be unreachable");
}
stackPushInt32(program->stack, &(program->stackPointer), res);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x469858
void opConditionalOperatorGreaterThan(Program* program)
{
int arg;
opcode_t type[2];
int value[2];
float* floats = (float*)&value;
char text[2][80];
char* str_ptr[2];
int res;
for (arg = 0; arg < 2; arg++) {
type[arg] = stackPopInt16(program->stack, &(program->stackPointer));
value[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[arg], value[arg]);
}
}
switch (type[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[1] = programGetString(program, type[1], value[1]);
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[0] = programGetString(program, type[0], value[0]);
break;
case VALUE_TYPE_FLOAT:
sprintf(text[0], "%.5f", floats[0]);
str_ptr[0] = text[0];
break;
case VALUE_TYPE_INT:
sprintf(text[0], "%d", value[0]);
str_ptr[0] = text[0];
break;
default:
assert(false && "Should be unreachable");
}
res = strcmp(str_ptr[1], str_ptr[0]) > 0;
break;
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%.5f", floats[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, type[0], value[0]);
res = strcmp(str_ptr[1], str_ptr[0]) > 0;
break;
case VALUE_TYPE_FLOAT:
res = floats[1] > floats[0];
break;
case VALUE_TYPE_INT:
res = floats[1] > (float)value[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
sprintf(text[1], "%d", value[1]);
str_ptr[1] = text[1];
str_ptr[0] = programGetString(program, type[0], value[0]);
res = strcmp(str_ptr[1], str_ptr[0]) > 0;
break;
case VALUE_TYPE_FLOAT:
res = (float)value[1] > floats[0];
break;
case VALUE_TYPE_INT:
res = value[1] > value[0];
break;
default:
assert(false && "Should be unreachable");
}
break;
default:
assert(false && "Should be unreachable");
}
stackPushInt32(program->stack, &(program->stackPointer), res);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x469BC4
void opAdd(Program* program)
{
// TODO: Check everything, too many conditions, variables and allocations.
opcode_t opcodes[2];
int values[2];
float* floats = (float*)&values;
char* str_ptr[2];
char* t;
float resf;
// NOTE: original code does not use loop
for (int arg = 0; arg < 2; arg++) {
opcodes[arg] = stackPopInt16(program->stack, &(program->stackPointer));
values[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (opcodes[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcodes[arg], values[arg]);
}
}
switch (opcodes[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[1] = programGetString(program, opcodes[1], values[1]);
switch (opcodes[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
t = programGetString(program, opcodes[0], values[0]);
Convert to C++
2022-05-21 08:22:03 -07:00
str_ptr[0] = (char*)internal_malloc_safe(strlen(t) + 1, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1002
Initial commit
2022-05-19 01:51:26 -07:00
strcpy(str_ptr[0], t);
break;
case VALUE_TYPE_FLOAT:
Convert to C++
2022-05-21 08:22:03 -07:00
str_ptr[0] = (char*)internal_malloc_safe(80, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1011
Initial commit
2022-05-19 01:51:26 -07:00
sprintf(str_ptr[0], "%.5f", floats[0]);
break;
case VALUE_TYPE_INT:
Convert to C++
2022-05-21 08:22:03 -07:00
str_ptr[0] = (char*)internal_malloc_safe(80, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1007
Initial commit
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sprintf(str_ptr[0], "%d", values[0]);
break;
}
Convert to C++
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t = (char*)internal_malloc_safe(strlen(str_ptr[1]) + strlen(str_ptr[0]) + 1, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1015
Initial commit
2022-05-19 01:51:26 -07:00
strcpy(t, str_ptr[1]);
strcat(t, str_ptr[0]);
stackPushInt32(program->stack, &(program->stackPointer), programPushString(program, t));
programStackPushInt16(program, VALUE_TYPE_DYNAMIC_STRING);
internal_free_safe(str_ptr[0], __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1019
internal_free_safe(t, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1020
break;
case VALUE_TYPE_FLOAT:
switch (opcodes[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[0] = programGetString(program, opcodes[0], values[0]);
Convert to C++
2022-05-21 08:22:03 -07:00
t = (char*)internal_malloc_safe(strlen(str_ptr[0]) + 80, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1039
Initial commit
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sprintf(t, "%.5f", floats[1]);
strcat(t, str_ptr[0]);
stackPushInt32(program->stack, &(program->stackPointer), programPushString(program, t));
programStackPushInt16(program, VALUE_TYPE_DYNAMIC_STRING);
internal_free_safe(t, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1044
break;
case VALUE_TYPE_FLOAT:
resf = floats[1] + floats[0];
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&resf);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
break;
case VALUE_TYPE_INT:
resf = floats[1] + (float)values[0];
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&resf);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
break;
}
break;
case VALUE_TYPE_INT:
switch (opcodes[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
str_ptr[0] = programGetString(program, opcodes[0], values[0]);
Convert to C++
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t = (char*)internal_malloc_safe(strlen(str_ptr[0]) + 80, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1070
Initial commit
2022-05-19 01:51:26 -07:00
sprintf(t, "%d", values[1]);
strcat(t, str_ptr[0]);
stackPushInt32(program->stack, &(program->stackPointer), programPushString(program, t));
programStackPushInt16(program, VALUE_TYPE_DYNAMIC_STRING);
internal_free_safe(t, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 1075
break;
case VALUE_TYPE_FLOAT:
resf = (float)values[1] + floats[0];
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&resf);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
break;
case VALUE_TYPE_INT:
if ((values[0] <= 0 || (INT_MAX - values[0]) > values[1])
&& (values[0] >= 0 || (INT_MIN - values[0]) <= values[1])) {
stackPushInt32(program->stack, &(program->stackPointer), values[1] + values[0]);
programStackPushInt16(program, VALUE_TYPE_INT);
} else {
resf = (float)values[1] + (float)values[0];
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&resf);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
}
break;
}
break;
}
}
// 0x46A1D8
void opSubtract(Program* program)
{
opcode_t type[2];
int value[2];
float* floats = (float*)&value;
float resf;
for (int arg = 0; arg < 2; arg++) {
type[arg] = stackPopInt16(program->stack, &(program->stackPointer));
value[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[arg], value[arg]);
}
}
switch (type[1]) {
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
resf = floats[1] - floats[0];
break;
default:
resf = floats[1] - value[0];
break;
}
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&resf);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
resf = value[1] - floats[0];
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&resf);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
break;
default:
stackPushInt32(program->stack, &(program->stackPointer), value[1] - value[0]);
programStackPushInt16(program, VALUE_TYPE_INT);
break;
}
break;
}
}
// 0x46A300
void opMultiply(Program* program)
{
int arg;
opcode_t type[2];
int value[2];
float* floats = (float*)&value;
float resf;
for (arg = 0; arg < 2; arg++) {
type[arg] = stackPopInt16(program->stack, &(program->stackPointer));
value[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[arg], value[arg]);
}
}
switch (type[1]) {
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
resf = floats[1] * floats[0];
break;
default:
resf = floats[1] * value[0];
break;
}
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&resf);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
resf = value[1] * floats[0];
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&resf);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
break;
default:
stackPushInt32(program->stack, &(program->stackPointer), value[0] * value[1]);
programStackPushInt16(program, VALUE_TYPE_INT);
break;
}
break;
}
}
// 0x46A424
void opDivide(Program* program)
{
// TODO: Check entire function, probably errors due to casts.
opcode_t type[2];
int value[2];
float* float_value = (float*)&value;
float divisor;
float result;
type[0] = stackPopInt16(program->stack, &(program->stackPointer));
value[0] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[0] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[0], value[0]);
}
type[1] = stackPopInt16(program->stack, &(program->stackPointer));
value[1] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[1] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[1], value[1]);
}
switch (type[1]) {
case VALUE_TYPE_FLOAT:
if (type[0] == VALUE_TYPE_FLOAT) {
divisor = float_value[0];
} else {
divisor = (float)value[0];
}
if ((int)divisor & 0x7FFFFFFF) {
programFatalError("Division (DIV) by zero");
}
result = float_value[1] / divisor;
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&result);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
break;
case VALUE_TYPE_INT:
if (type[0] == VALUE_TYPE_FLOAT) {
divisor = float_value[0];
if ((int)divisor & 0x7FFFFFFF) {
programFatalError("Division (DIV) by zero");
}
result = (float)value[1] / divisor;
stackPushInt32(program->stack, &(program->stackPointer), *(int*)&result);
programStackPushInt16(program, VALUE_TYPE_FLOAT);
} else {
if (value[0] == 0) {
programFatalError("Division (DIV) by zero");
}
stackPushInt32(program->stack, &(program->stackPointer), value[1] / value[0]);
programStackPushInt16(program, VALUE_TYPE_INT);
}
break;
}
}
// 0x46A5B8
void opModulo(Program* program)
{
opcode_t type[2];
int value[2];
type[0] = stackPopInt16(program->stack, &(program->stackPointer));
value[0] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[0] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[0], value[0]);
}
type[1] = stackPopInt16(program->stack, &(program->stackPointer));
value[1] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[1] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[1], value[1]);
}
if (type[1] == VALUE_TYPE_FLOAT) {
programFatalError("Trying to MOD a float");
}
if (type[1] != VALUE_TYPE_INT) {
return;
}
if (type[0] == VALUE_TYPE_FLOAT) {
programFatalError("Trying to MOD with a float");
}
if (value[0] == 0) {
programFatalError("Division (MOD) by zero");
}
stackPushInt32(program->stack, &(program->stackPointer), value[1] % value[0]);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x46A6B4
void opLogicalOperatorAnd(Program* program)
{
opcode_t type[2];
int value[2];
int result;
type[0] = stackPopInt16(program->stack, &(program->stackPointer));
value[0] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[0] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[0], value[0]);
}
type[1] = stackPopInt16(program->stack, &(program->stackPointer));
value[1] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[1] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[1], value[1]);
}
switch (type[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
result = 1;
break;
case VALUE_TYPE_FLOAT:
result = (value[0] & 0x7FFFFFFF) != 0;
break;
case VALUE_TYPE_INT:
result = value[0] != 0;
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
result = value[1] != 0;
break;
case VALUE_TYPE_FLOAT:
result = (value[1] & 0x7FFFFFFF) && (value[0] & 0x7FFFFFFF);
break;
case VALUE_TYPE_INT:
result = (value[1] & 0x7FFFFFFF) && (value[0] != 0);
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
result = value[1] != 0;
break;
case VALUE_TYPE_FLOAT:
result = (value[1] != 0) && (value[0] & 0x7FFFFFFF);
break;
case VALUE_TYPE_INT:
result = (value[1] != 0) && (value[0] != 0);
break;
default:
assert(false && "Should be unreachable");
}
break;
default:
assert(false && "Should be unreachable");
}
stackPushInt32(program->stack, &(program->stackPointer), result);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x46A8D8
void opLogicalOperatorOr(Program* program)
{
opcode_t type[2];
int value[2];
int result;
type[0] = stackPopInt16(program->stack, &(program->stackPointer));
value[0] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[0] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[0], value[0]);
}
type[1] = stackPopInt16(program->stack, &(program->stackPointer));
value[1] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[1] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[1], value[1]);
}
switch (type[1]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
case VALUE_TYPE_FLOAT:
case VALUE_TYPE_INT:
result = 1;
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
result = 1;
break;
case VALUE_TYPE_FLOAT:
result = (value[1] & 0x7FFFFFFF) || (value[0] & 0x7FFFFFFF);
break;
case VALUE_TYPE_INT:
result = (value[1] & 0x7FFFFFFF) || (value[0] != 0);
break;
default:
assert(false && "Should be unreachable");
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_STRING:
case VALUE_TYPE_DYNAMIC_STRING:
result = 1;
break;
case VALUE_TYPE_FLOAT:
result = (value[1] != 0) || (value[0] & 0x7FFFFFFF);
break;
case VALUE_TYPE_INT:
result = (value[1] != 0) || (value[0] != 0);
break;
default:
assert(false && "Should be unreachable");
}
break;
default:
assert(false && "Should be unreachable");
}
stackPushInt32(program->stack, &(program->stackPointer), result);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x46AACC
void opLogicalOperatorNot(Program* program)
{
opcode_t type;
int value;
type = programStackPopInt16(program);
value = programStackPopInt32(program);
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
programStackPushInt32(program, value == 0);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x46AB2C
void opUnaryMinus(Program* program)
{
opcode_t type;
int value;
type = stackPopInt16(program->stack, &(program->stackPointer));
value = stackPopInt32(program->stack, &(program->stackPointer));
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
stackPushInt32(program->stack, &(program->stackPointer), -value);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x46AB84
void opBitwiseOperatorNot(Program* program)
{
opcode_t type;
int value;
type = programStackPopInt16(program);
value = programStackPopInt32(program);
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
programStackPushInt32(program, ~value);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// floor
// 0x46ABDC
void opFloor(Program* program)
{
opcode_t type = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, data);
}
if (type == VALUE_TYPE_STRING) {
programFatalError("Invalid arg given to floor()");
} else if (type == VALUE_TYPE_FLOAT) {
type = VALUE_TYPE_INT;
data = (int)(*((float*)&data));
}
stackPushInt32(program->stack, &(program->stackPointer), data);
programStackPushInt16(program, type);
}
// 0x46AC78
void opBitwiseOperatorAnd(Program* program)
{
opcode_t type[2];
int value[2];
int result;
type[0] = stackPopInt16(program->stack, &(program->stackPointer));
value[0] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[0] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[0], value[0]);
}
type[1] = stackPopInt16(program->stack, &(program->stackPointer));
value[1] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[1] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[1], value[1]);
}
switch (type[1]) {
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
result = (int)(float)value[1] & (int)(float)value[0];
break;
default:
result = (int)(float)value[1] & value[0];
break;
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
result = value[1] & (int)(float)value[0];
break;
default:
result = value[1] & value[0];
break;
}
break;
default:
return;
}
stackPushInt32(program->stack, &(program->stackPointer), result);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x46ADA4
void opBitwiseOperatorOr(Program* program)
{
opcode_t type[2];
int value[2];
int result;
type[0] = stackPopInt16(program->stack, &(program->stackPointer));
value[0] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[0] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[0], value[0]);
}
type[1] = stackPopInt16(program->stack, &(program->stackPointer));
value[1] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[1] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[1], value[1]);
}
switch (type[1]) {
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
result = (int)(float)value[1] | (int)(float)value[0];
break;
default:
result = (int)(float)value[1] | value[0];
break;
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
result = value[1] | (int)(float)value[0];
break;
default:
result = value[1] | value[0];
break;
}
break;
default:
return;
}
stackPushInt32(program->stack, &(program->stackPointer), result);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x46AED0
void opBitwiseOperatorXor(Program* program)
{
opcode_t type[2];
int value[2];
int result;
type[0] = stackPopInt16(program->stack, &(program->stackPointer));
value[0] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[0] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[0], value[0]);
}
type[1] = stackPopInt16(program->stack, &(program->stackPointer));
value[1] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[1] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[1], value[1]);
}
switch (type[1]) {
case VALUE_TYPE_FLOAT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
result = (int)(float)value[1] ^ (int)(float)value[0];
break;
default:
result = (int)(float)value[1] ^ value[0];
break;
}
break;
case VALUE_TYPE_INT:
switch (type[0]) {
case VALUE_TYPE_FLOAT:
result = value[1] ^ (int)(float)value[0];
break;
default:
result = value[1] ^ value[0];
break;
}
break;
default:
return;
}
stackPushInt32(program->stack, &(program->stackPointer), result);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// 0x46AFFC
void opSwapReturnStack(Program* program)
{
opcode_t v1;
int v5;
opcode_t a2;
int v10;
v1 = programReturnStackPopInt16(program);
v5 = stackPopInt32(program->returnStack, &(program->returnStackPointer));
a2 = programReturnStackPopInt16(program);
v10 = stackPopInt32(program->returnStack, &(program->returnStackPointer));
stackPushInt32(program->returnStack, &(program->returnStackPointer), v5);
programReturnStackPushInt16(program, v1);
stackPushInt32(program->returnStack, &(program->returnStackPointer), v10);
programReturnStackPushInt16(program, a2);
}
// 0x46B070
void opLeaveCriticalSection(Program* program)
{
program->flags &= ~PROGRAM_FLAG_CRITICAL_SECTION;
}
// 0x46B078
void opEnterCriticalSection(Program* program)
{
program->flags |= PROGRAM_FLAG_CRITICAL_SECTION;
}
// 0x46B080
void opJump(Program* program)
{
opcode_t type;
int value;
char err[260];
type = stackPopInt16(program->stack, &(program->stackPointer));
value = stackPopInt32(program->stack, &(program->stackPointer));
// NOTE: comparing shorts (0x46B0B1)
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
// NOTE: comparing ints (0x46B0D3)
if ((type & VALUE_TYPE_MASK) != VALUE_TYPE_INT) {
sprintf(err, "Invalid type given to jmp, %x", value);
programFatalError(err);
}
program->instructionPointer = value;
}
// 0x46B108
void opCall(Program* program)
{
opcode_t type = stackPopInt16(program->stack, &(program->stackPointer));
int value = stackPopInt32(program->stack, &(program->stackPointer));
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
if ((type & 0xF7FF) != VALUE_TYPE_INT) {
programFatalError("Invalid address given to call");
}
unsigned char* ptr = program->procedures + 4 + 24 * value;
int flags = stackReadInt32(ptr, 4);
if ((flags & 4) != 0) {
// TODO: Incomplete.
} else {
program->instructionPointer = stackReadInt32(ptr, 16);
if ((flags & 0x10) != 0) {
program->flags |= PROGRAM_FLAG_CRITICAL_SECTION;
}
}
}
// 0x46B590
void op801F(Program* program)
{
opcode_t opcode[3];
int data[3];
for (int arg = 0; arg < 3; arg++) {
opcode[arg] = stackPopInt16(program->stack, &(program->stackPointer));
data[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode[arg], data[arg]);
}
}
program->field_84 = data[0];
program->field_7C = (int (*)(Program*))data[1];
program->flags = data[2] & 0xFFFF;
}
// pop stack 2 -> set program address
// 0x46B63C
void op801C(Program* program)
{
programReturnStackPopInt16(program);
program->instructionPointer = stackPopInt32(program->returnStack, &(program->returnStackPointer));
}
// 0x46B658
void op801D(Program* program)
{
programReturnStackPopInt16(program);
program->instructionPointer = stackPopInt32(program->returnStack, &(program->returnStackPointer));
program->flags |= PROGRAM_FLAG_0x40;
}
// 0x46B67C
void op8020(Program* program)
{
op801F(program);
programReturnStackPopInt16(program);
program->instructionPointer = programReturnStackPopInt32(program);
}
// 0x46B698
void op8021(Program* program)
{
op801F(program);
programReturnStackPopInt16(program);
program->instructionPointer = programReturnStackPopInt32(program);
program->flags |= PROGRAM_FLAG_0x40;
}
// 0x46B6BC
void op8025(Program* program)
{
opcode_t type;
int value;
type = programStackPopInt16(program);
value = programStackPopInt32(program);
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
op801F(program);
programReturnStackPopInt16(program);
program->instructionPointer = programReturnStackPopInt32(program);
program->flags |= PROGRAM_FLAG_0x40;
programStackPushInt32(program, value);
programStackPushInt16(program, type);
}
// 0x46B73C
void op8026(Program* program)
{
opcode_t type;
int value;
Program* v1;
type = stackPopInt16(program->stack, &(program->stackPointer));
value = stackPopInt32(program->stack, &(program->stackPointer));
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
op801F(program);
programReturnStackPopInt16(program);
v1 = (Program*)stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
v1->field_7C = (int (*)(Program*))stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
v1->flags = stackPopInt32(program->returnStack, &(program->returnStackPointer));
program->instructionPointer = programReturnStackPopInt32(program);
program->flags |= PROGRAM_FLAG_0x40;
stackPushInt32(program->stack, &(program->stackPointer), value);
programStackPushInt16(program, type);
}
// 0x46B808
void op8022(Program* program)
{
Program* v1;
op801F(program);
programReturnStackPopInt16(program);
v1 = (Program*)stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
v1->field_7C = (int (*)(Program*))stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
v1->flags = stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
program->instructionPointer = programReturnStackPopInt32(program);
}
// 0x46B86C
void op8023(Program* program)
{
Program* v1;
op801F(program);
programReturnStackPopInt16(program);
v1 = (Program*)stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
v1->field_7C = (int (*)(Program*))stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
v1->flags = stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
program->instructionPointer = programReturnStackPopInt32(program);
program->flags |= 0x40;
}
// pop value from stack 1 and push it to script popped from stack 2
// 0x46B8D8
void op8024(Program* program)
{
opcode_t type;
int value;
Program* v10;
char* str;
type = stackPopInt16(program->stack, &(program->stackPointer));
value = stackPopInt32(program->stack, &(program->stackPointer));
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
op801F(program);
programReturnStackPopInt16(program);
v10 = (Program*)stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
v10->field_7C = (int (*)(Program*))stackPopInt32(program->returnStack, &(program->returnStackPointer));
programReturnStackPopInt16(program);
v10->flags = stackPopInt32(program->returnStack, &(program->returnStackPointer));
if ((type & 0xF7FF) == VALUE_TYPE_STRING) {
str = programGetString(program, type, value);
stackPushInt32(v10->stack, &(v10->stackPointer), programPushString(v10, str));
type = VALUE_TYPE_DYNAMIC_STRING;
} else {
stackPushInt32(v10->stack, &(v10->stackPointer), value);
}
programStackPushInt16(v10, type);
if (v10->flags & 0x80) {
program->flags &= ~0x80;
}
programReturnStackPopInt16(program);
program->instructionPointer = programReturnStackPopInt32(program);
programReturnStackPopInt16(v10);
v10->instructionPointer = programReturnStackPopInt32(program);
}
// 0x46BA10
void op801E(Program* program)
{
programReturnStackPopInt16(program);
programReturnStackPopInt32(program);
}
// 0x46BA2C
void opAtoD(Program* program)
{
opcode_t opcode = programReturnStackPopInt16(program);
int data = stackPopInt32(program->returnStack, &(program->returnStackPointer));
stackPushInt32(program->stack, &(program->stackPointer), data);
programStackPushInt16(program, opcode);
}
// 0x46BA68
void opDtoA(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
stackPushInt32(program->returnStack, &(program->returnStackPointer), data);
programReturnStackPushInt16(program, opcode);
}
// 0x46BAC0
void opExitProgram(Program* program)
{
program->flags |= PROGRAM_FLAG_EXITED;
}
// 0x46BAC8
void opStopProgram(Program* program)
{
program->flags |= PROGRAM_FLAG_STOPPED;
}
// 0x46BAD0
void opFetchGlobalVariable(Program* program)
{
opcode_t opcode = programStackPopInt16(program);
int data = programStackPopInt32(program);
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
// TODO: Check.
int addr = program->basePointer + 6 * data;
int v8 = stackReadInt32(program->stack, addr);
opcode_t varType = stackReadInt16(program->stack, addr + 4);
programStackPushInt32(program, v8);
// TODO: Check.
programStackPushInt16(program, varType);
}
// 0x46BB5C
void opStoreGlobalVariable(Program* program)
{
opcode_t type[2];
int value[2];
for (int arg = 0; arg < 2; arg++) {
type[arg] = stackPopInt16(program->stack, &(program->stackPointer));
value[arg] = stackPopInt32(program->stack, &(program->stackPointer));
if (type[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type[arg], value[arg]);
}
}
int var_address = program->basePointer + 6 * value[0];
opcode_t var_type = stackReadInt16(program->stack, var_address + 4);
int var_value = stackReadInt32(program->stack, var_address);
if (var_type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, var_type, var_value);
}
// TODO: Check offsets.
stackWriteInt32(value[1], program->stack, var_address);
// TODO: Check endianness.
stackWriteInt16(type[1], program->stack, var_address + 4);
if (type[1] == VALUE_TYPE_DYNAMIC_STRING) {
*(short*)(program->dynamicStrings + 4 + value[1] - 2) += 1;
}
}
// 0x46BCAC
void opSwapStack(Program* program)
{
opcode_t opcode[2];
int data[2];
// NOTE: Original code does not use loops.
for (int arg = 0; arg < 2; arg++) {
opcode[arg] = programStackPopInt16(program);
data[arg] = programStackPopInt32(program);
if (opcode[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode[arg], data[arg]);
}
}
for (int arg = 0; arg < 2; arg++) {
programStackPushInt32(program, data[arg]);
programStackPushInt16(program, opcode[arg]);
}
}
// fetch_proc_address
// 0x46BD60
void opFetchProcedureAddress(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if (opcode != VALUE_TYPE_INT) {
char err[256];
sprintf(err, "Invalid type given to fetch_proc_address, %x", opcode);
programFatalError(err);
}
int procedureIndex = data;
int address = stackReadInt32(program->procedures + 4 + sizeof(Procedure) * procedureIndex, 16);
stackPushInt32(program->stack, &(program->stackPointer), address);
programStackPushInt16(program, VALUE_TYPE_INT);
}
// Pops value from stack and throws it away.
//
// 0x46BE10
void opPop(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
}
// 0x46BE4C
void opDuplicate(Program* program)
{
opcode_t opcode = programStackPopInt16(program);
int data = programStackPopInt32(program);
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
programStackPushInt32(program, data);
programStackPushInt16(program, opcode);
programStackPushInt32(program, data);
programStackPushInt16(program, opcode);
}
// 0x46BEC8
void opStoreExternalVariable(Program* program)
{
opcode_t opcode[2];
int data[2];
// NOTE: Original code does not use loop.
for (int arg = 0; arg < 2; arg++) {
opcode[arg] = programStackPopInt16(program);
data[arg] = programStackPopInt32(program);
if (opcode[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode[arg], data[arg]);
}
}
const char* identifier = programGetIdentifier(program, data[0]);
if (externalVariableSetValue(program, identifier, opcode[1], data[1])) {
char err[256];
sprintf(err, "External variable %s does not exist\n", identifier);
programFatalError(err);
}
}
// 0x46BF90
void opFetchExternalVariable(Program* program)
{
opcode_t opcode = programStackPopInt16(program);
int data = programStackPopInt32(program);
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
const char* identifier = programGetIdentifier(program, data);
opcode_t variableOpcode;
int variableData;
if (externalVariableGetValue(program, identifier, &variableOpcode, &variableData) != 0) {
char err[256];
sprintf(err, "External variable %s does not exist\n", identifier);
programFatalError(err);
}
programStackPushInt32(program, variableData);
programStackPushInt16(program, variableOpcode);
}
// 0x46C044
void opExportProcedure(Program* program)
{
opcode_t type;
int value;
int proc_index;
unsigned char* proc_ptr;
char* v9;
int v10;
char err[256];
type = programStackPopInt16(program);
value = programStackPopInt32(program);
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
proc_index = value;
type = programStackPopInt16(program);
value = programStackPopInt32(program);
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
proc_ptr = program->procedures + 4 + sizeof(Procedure) * proc_index;
v9 = (char*)(program->identifiers + stackReadInt32(proc_ptr, 0));
v10 = stackReadInt32(proc_ptr, 16);
if (externalProcedureCreate(program, v9, v10, value) != 0) {
sprintf(err, "Error exporting procedure %s", v9);
programFatalError(err);
}
}
// 0x46C120
void opExportVariable(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if (externalVariableCreate(program, programGetIdentifier(program, data))) {
char err[256];
sprintf(err, "External variable %s already exists", programGetIdentifier(program, data));
programFatalError(err);
}
}
// 0x46C1A0
void opExit(Program* program)
{
program->flags |= PROGRAM_FLAG_EXITED;
Program* parent = program->parent;
if (parent != NULL) {
if ((parent->flags & PROGRAM_FLAG_0x0100) != 0) {
parent->flags &= ~PROGRAM_FLAG_0x0100;
}
}
if (!program->exited) {
_removeProgramReferences_(program);
program->exited = true;
}
}
// 0x46C1EC
void opDetach(Program* program)
{
Program* parent = program->parent;
if (parent == NULL) {
return;
}
parent->flags &= ~PROGRAM_FLAG_0x20;
parent->flags &= ~PROGRAM_FLAG_0x0100;
if (parent->child == program) {
parent->child = NULL;
}
}
// callstart
// 0x46C218
void opCallStart(Program* program)
{
opcode_t type;
int value;
char* name;
char err[260];
if (program->child) {
programFatalError("Error, already have a child process\n");
}
type = programStackPopInt16(program);
value = programStackPopInt32(program);
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
if ((type & 0xF7FF) != VALUE_TYPE_STRING) {
programFatalError("Invalid type given to callstart");
}
program->flags |= PROGRAM_FLAG_0x20;
name = programGetString(program, type, value);
name = _interpretMangleName(name);
program->child = programCreateByPath(name);
if (program->child == NULL) {
sprintf(err, "Error spawning child %s", programGetString(program, type, value));
programFatalError(err);
}
programListNodeCreate(program->child);
_interpret(program->child, 24);
program->child->parent = program;
program->child->field_84 = program->field_84;
}
// spawn
// 0x46C344
void opSpawn(Program* program)
{
opcode_t type;
int value;
char* name;
char err[256];
if (program->child) {
programFatalError("Error, already have a child process\n");
}
type = programStackPopInt16(program);
value = programStackPopInt32(program);
if (type == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, type, value);
}
if ((type & 0xF7FF) != VALUE_TYPE_STRING) {
programFatalError("Invalid type given to spawn");
}
program->flags |= PROGRAM_FLAG_0x0100;
if ((type >> 8) & 8) {
name = (char*)program->dynamicStrings + 4 + value;
} else if ((type >> 8) & 16) {
name = (char*)program->staticStrings + 4 + value;
} else {
name = NULL;
}
name = _interpretMangleName(name);
program->child = programCreateByPath(name);
if (program->child == NULL) {
sprintf(err, "Error spawning child %s", programGetString(program, type, value));
programFatalError(err);
}
programListNodeCreate(program->child);
_interpret(program->child, 24);
program->child->parent = program;
program->child->field_84 = program->field_84;
if ((program->flags & PROGRAM_FLAG_CRITICAL_SECTION) != 0) {
program->child->flags |= PROGRAM_FLAG_CRITICAL_SECTION;
_interpret(program->child, -1);
}
}
// fork
// 0x46C490
Program* forkProgram(Program* program)
{
opcode_t opcode = stackPopInt16(program->stack, &(program->stackPointer));
int data = stackPopInt32(program->stack, &(program->stackPointer));
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
char* name = programGetString(program, opcode, data);
name = _interpretMangleName(name);
Program* forked = programCreateByPath(name);
if (forked == NULL) {
char err[256];
sprintf(err, "couldn't fork script '%s'", programGetString(program, opcode, data));
programFatalError(err);
}
programListNodeCreate(forked);
_interpret(forked, 24);
forked->field_84 = program->field_84;
return forked;
}
// NOTE: Uncollapsed 0x46C490 with different signature.
//
// 0x46C490
void opFork(Program* program)
{
forkProgram(program);
}
// 0x46C574
void opExec(Program* program)
{
Program* parent = program->parent;
Program* fork = forkProgram(program);
if (parent != NULL) {
fork->parent = parent;
parent->child = fork;
}
fork->child = NULL;
program->parent = NULL;
program->flags |= PROGRAM_FLAG_EXITED;
// probably inlining due to check for null
parent = program->parent;
if (parent != NULL) {
if ((parent->flags & PROGRAM_FLAG_0x0100) != 0) {
parent->flags &= ~PROGRAM_FLAG_0x0100;
}
}
_purgeProgram(program);
}
// 0x46C5D8
void opCheckProcedureArgumentCount(Program* program)
{
opcode_t opcode[2];
int data[2];
// NOTE: original code does not use loop
for (int arg = 0; arg < 2; arg++) {
opcode[arg] = programStackPopInt16(program);
data[arg] = programStackPopInt32(program);
if (opcode[arg] == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode[arg], data[arg]);
}
}
int expectedArgumentCount = data[0];
int procedureIndex = data[1];
int actualArgumentCount = stackReadInt32(program->procedures + 4 + 24 * procedureIndex, 20);
if (actualArgumentCount != expectedArgumentCount) {
const char* identifier = programGetIdentifier(program, stackReadInt32(program->procedures + 4 + 24 * procedureIndex, 0));
char err[260];
sprintf(err, "Wrong number of args to procedure %s\n", identifier);
programFatalError(err);
}
}
// lookup_string_proc
// 0x46C6B4
void opLookupStringProc(Program* program)
{
opcode_t opcode = programStackPopInt16(program);
int data = programStackPopInt32(program);
if (opcode == VALUE_TYPE_DYNAMIC_STRING) {
programPopString(program, opcode, data);
}
if ((opcode & 0xF7FF) != VALUE_TYPE_STRING) {
programFatalError("Wrong type given to lookup_string_proc\n");
}
const char* procedureNameToLookup = programGetString(program, opcode, data);
int procedureCount = stackReadInt32(program->procedures, 0);
// Skip procedure count (4 bytes) and main procedure, which cannot be
// looked up.
unsigned char* procedurePtr = program->procedures + 4 + sizeof(Procedure);
// Start with 1 since we've skipped main procedure, which is always at
// index 0.
for (int index = 1; index < procedureCount; index++) {
int offset = stackReadInt32(procedurePtr, 0);
const char* procedureName = programGetIdentifier(program, offset);
Add string functions compatibility layer See #17
2022-05-28 01:57:32 -07:00
if (compat_stricmp(procedureName, procedureNameToLookup) == 0) {
Initial commit
2022-05-19 01:51:26 -07:00
programStackPushInt32(program, index);
programStackPushInt16(program, VALUE_TYPE_INT);
return;
}
procedurePtr += sizeof(Procedure);
}
char err[260];
sprintf(err, "Couldn't find string procedure %s\n", procedureNameToLookup);
programFatalError(err);
}
// 0x46C7DC
void interpreterRegisterOpcodeHandlers()
{
_Enabled = 1;
// NOTE: The original code has different sorting.
interpreterRegisterOpcode(OPCODE_NOOP, opNoop);
interpreterRegisterOpcode(OPCODE_PUSH, opPush);
interpreterRegisterOpcode(OPCODE_ENTER_CRITICAL_SECTION, opEnterCriticalSection);
interpreterRegisterOpcode(OPCODE_LEAVE_CRITICAL_SECTION, opLeaveCriticalSection);
interpreterRegisterOpcode(OPCODE_JUMP, opJump);
interpreterRegisterOpcode(OPCODE_CALL, opCall);
interpreterRegisterOpcode(OPCODE_CALL_AT, opDelayedCall);
interpreterRegisterOpcode(OPCODE_CALL_WHEN, opConditionalCall);
interpreterRegisterOpcode(OPCODE_CALLSTART, opCallStart);
interpreterRegisterOpcode(OPCODE_EXEC, opExec);
interpreterRegisterOpcode(OPCODE_SPAWN, opSpawn);
interpreterRegisterOpcode(OPCODE_FORK, opFork);
interpreterRegisterOpcode(OPCODE_A_TO_D, opAtoD);
interpreterRegisterOpcode(OPCODE_D_TO_A, opDtoA);
interpreterRegisterOpcode(OPCODE_EXIT, opExit);
interpreterRegisterOpcode(OPCODE_DETACH, opDetach);
interpreterRegisterOpcode(OPCODE_EXIT_PROGRAM, opExitProgram);
interpreterRegisterOpcode(OPCODE_STOP_PROGRAM, opStopProgram);
interpreterRegisterOpcode(OPCODE_FETCH_GLOBAL, opFetchGlobalVariable);
interpreterRegisterOpcode(OPCODE_STORE_GLOBAL, opStoreGlobalVariable);
interpreterRegisterOpcode(OPCODE_FETCH_EXTERNAL, opFetchExternalVariable);
interpreterRegisterOpcode(OPCODE_STORE_EXTERNAL, opStoreExternalVariable);
interpreterRegisterOpcode(OPCODE_EXPORT_VARIABLE, opExportVariable);
interpreterRegisterOpcode(OPCODE_EXPORT_PROCEDURE, opExportProcedure);
interpreterRegisterOpcode(OPCODE_SWAP, opSwapStack);
interpreterRegisterOpcode(OPCODE_SWAPA, opSwapReturnStack);
interpreterRegisterOpcode(OPCODE_POP, opPop);
interpreterRegisterOpcode(OPCODE_DUP, opDuplicate);
interpreterRegisterOpcode(OPCODE_POP_RETURN, op801C);
interpreterRegisterOpcode(OPCODE_POP_EXIT, op801D);
interpreterRegisterOpcode(OPCODE_POP_ADDRESS, op801E);
interpreterRegisterOpcode(OPCODE_POP_FLAGS, op801F);
interpreterRegisterOpcode(OPCODE_POP_FLAGS_RETURN, op8020);
interpreterRegisterOpcode(OPCODE_POP_FLAGS_EXIT, op8021);
interpreterRegisterOpcode(OPCODE_POP_FLAGS_RETURN_EXTERN, op8022);
interpreterRegisterOpcode(OPCODE_POP_FLAGS_EXIT_EXTERN, op8023);
interpreterRegisterOpcode(OPCODE_POP_FLAGS_RETURN_VAL_EXTERN, op8024);
interpreterRegisterOpcode(OPCODE_POP_FLAGS_RETURN_VAL_EXIT, op8025);
interpreterRegisterOpcode(OPCODE_POP_FLAGS_RETURN_VAL_EXIT_EXTERN, op8026);
interpreterRegisterOpcode(OPCODE_CHECK_PROCEDURE_ARGUMENT_COUNT, opCheckProcedureArgumentCount);
interpreterRegisterOpcode(OPCODE_LOOKUP_PROCEDURE_BY_NAME, opLookupStringProc);
interpreterRegisterOpcode(OPCODE_POP_BASE, opPopBase);
interpreterRegisterOpcode(OPCODE_POP_TO_BASE, opPopToBase);
interpreterRegisterOpcode(OPCODE_PUSH_BASE, opPushBase);
interpreterRegisterOpcode(OPCODE_SET_GLOBAL, op802C);
interpreterRegisterOpcode(OPCODE_FETCH_PROCEDURE_ADDRESS, opFetchProcedureAddress);
interpreterRegisterOpcode(OPCODE_DUMP, opDump);
interpreterRegisterOpcode(OPCODE_IF, opIf);
interpreterRegisterOpcode(OPCODE_WHILE, opWhile);
interpreterRegisterOpcode(OPCODE_STORE, opStore);
interpreterRegisterOpcode(OPCODE_FETCH, opFetch);
interpreterRegisterOpcode(OPCODE_EQUAL, opConditionalOperatorEqual);
interpreterRegisterOpcode(OPCODE_NOT_EQUAL, opConditionalOperatorNotEqual);
interpreterRegisterOpcode(OPCODE_LESS_THAN_EQUAL, opConditionalOperatorLessThanEquals);
interpreterRegisterOpcode(OPCODE_GREATER_THAN_EQUAL, opConditionalOperatorGreaterThanEquals);
interpreterRegisterOpcode(OPCODE_LESS_THAN, opConditionalOperatorLessThan);
interpreterRegisterOpcode(OPCODE_GREATER_THAN, opConditionalOperatorGreaterThan);
interpreterRegisterOpcode(OPCODE_ADD, opAdd);
interpreterRegisterOpcode(OPCODE_SUB, opSubtract);
interpreterRegisterOpcode(OPCODE_MUL, opMultiply);
interpreterRegisterOpcode(OPCODE_DIV, opDivide);
interpreterRegisterOpcode(OPCODE_MOD, opModulo);
interpreterRegisterOpcode(OPCODE_AND, opLogicalOperatorAnd);
interpreterRegisterOpcode(OPCODE_OR, opLogicalOperatorOr);
interpreterRegisterOpcode(OPCODE_BITWISE_AND, opBitwiseOperatorAnd);
interpreterRegisterOpcode(OPCODE_BITWISE_OR, opBitwiseOperatorOr);
interpreterRegisterOpcode(OPCODE_BITWISE_XOR, opBitwiseOperatorXor);
interpreterRegisterOpcode(OPCODE_BITWISE_NOT, opBitwiseOperatorNot);
interpreterRegisterOpcode(OPCODE_FLOOR, opFloor);
interpreterRegisterOpcode(OPCODE_NOT, opLogicalOperatorNot);
interpreterRegisterOpcode(OPCODE_NEGATE, opUnaryMinus);
interpreterRegisterOpcode(OPCODE_WAIT, opWait);
interpreterRegisterOpcode(OPCODE_CANCEL, opCancel);
interpreterRegisterOpcode(OPCODE_CANCEL_ALL, opCancelAll);
interpreterRegisterOpcode(OPCODE_START_CRITICAL, opEnterCriticalSection);
interpreterRegisterOpcode(OPCODE_END_CRITICAL, opLeaveCriticalSection);
_initIntlib();
_initExport();
}
// 0x46CC68
void _interpretClose()
{
externalVariablesClear();
_intlibClose();
}
// 0x46CCA4
void _interpret(Program* program, int a2)
{
char err[260];
Program* oldCurrentProgram = gInterpreterCurrentProgram;
if (!_Enabled) {
return;
}
if (_busy) {
return;
}
if (program->exited || (program->flags & PROGRAM_FLAG_0x20) != 0 || (program->flags & PROGRAM_FLAG_0x0100) != 0) {
return;
}
if (program->field_78 == -1) {
program->field_78 = 1000 * _timerFunc() / _timerTick;
}
gInterpreterCurrentProgram = program;
if (setjmp(program->env)) {
gInterpreterCurrentProgram = oldCurrentProgram;
program->flags |= PROGRAM_FLAG_EXITED | PROGRAM_FLAG_0x04;
return;
}
if ((program->flags & PROGRAM_FLAG_CRITICAL_SECTION) != 0 && a2 < 3) {
a2 = 3;
}
while ((program->flags & PROGRAM_FLAG_CRITICAL_SECTION) != 0 || --a2 != -1) {
if ((program->flags & (PROGRAM_FLAG_EXITED | PROGRAM_FLAG_0x04 | PROGRAM_FLAG_STOPPED | PROGRAM_FLAG_0x20 | PROGRAM_FLAG_0x40 | PROGRAM_FLAG_0x0100)) != 0) {
break;
}
if (program->exited) {
break;
}
if ((program->flags & PROGRAM_FLAG_0x10) != 0) {
_busy = 1;
if (program->field_7C != NULL) {
if (!program->field_7C(program)) {
_busy = 0;
continue;
}
}
_busy = 0;
program->field_7C = NULL;
program->flags &= ~PROGRAM_FLAG_0x10;
}
int instructionPointer = program->instructionPointer;
program->instructionPointer = instructionPointer + 2;
opcode_t opcode = stackReadInt16(program->data, instructionPointer);
// TODO: Replace with field_82 and field_80?
program->flags &= 0xFFFF;
program->flags |= (opcode << 16);
if (!((opcode >> 8) & 0x80)) {
sprintf(err, "Bad opcode %x %c %d.", opcode, opcode, opcode);
programFatalError(err);
}
unsigned int opcodeIndex = opcode & 0x3FF;
OpcodeHandler* handler = gInterpreterOpcodeHandlers[opcodeIndex];
if (handler == NULL) {
sprintf(err, "Undefined opcode %x.", opcode);
programFatalError(err);
}
handler(program);
}
if ((program->flags & PROGRAM_FLAG_EXITED) != 0) {
if (program->parent != NULL) {
if (program->parent->flags & PROGRAM_FLAG_0x20) {
program->parent->flags &= ~PROGRAM_FLAG_0x20;
program->parent->child = NULL;
program->parent = NULL;
}
}
}
program->flags &= ~PROGRAM_FLAG_0x40;
gInterpreterCurrentProgram = oldCurrentProgram;
programMarkHeap(program);
}
// Prepares program stacks for executing proc at [address].
//
// 0x46CED0
void _setupCallWithReturnVal(Program* program, int address, int returnAddress)
{
// Save current instruction pointer
stackPushInt32(program->returnStack, &(program->returnStackPointer), program->instructionPointer);
programReturnStackPushInt16(program, VALUE_TYPE_INT);
// Save return address
stackPushInt32(program->returnStack, &(program->returnStackPointer), returnAddress);
programReturnStackPushInt16(program, VALUE_TYPE_INT);
// Save program flags
stackPushInt32(program->stack, &(program->stackPointer), program->flags & 0xFFFF);
programStackPushInt16(program, VALUE_TYPE_INT);
stackPushInt32(program->stack, &(program->stackPointer), (intptr_t)program->field_7C);
programStackPushInt16(program, VALUE_TYPE_INT);
stackPushInt32(program->stack, &(program->stackPointer), program->field_84);
programStackPushInt16(program, VALUE_TYPE_INT);
program->flags &= ~0xFFFF;
program->instructionPointer = address;
}
// 0x46CF9C
void _setupExternalCallWithReturnVal(Program* program1, Program* program2, int address, int a4)
{
stackPushInt32(program2->returnStack, &(program2->returnStackPointer), program2->instructionPointer);
programReturnStackPushInt16(program2, VALUE_TYPE_INT);
stackPushInt32(program2->returnStack, &(program2->returnStackPointer), program1->flags & 0xFFFF);
programReturnStackPushInt16(program2, VALUE_TYPE_INT);
stackPushInt32(program2->returnStack, &(program2->returnStackPointer), (intptr_t)program1->field_7C);
programReturnStackPushInt16(program2, VALUE_TYPE_INT);
stackPushInt32(program2->returnStack, &(program2->returnStackPointer), (intptr_t)program1);
programReturnStackPushInt16(program2, VALUE_TYPE_INT);
stackPushInt32(program2->returnStack, &(program2->returnStackPointer), a4);
programReturnStackPushInt16(program2, VALUE_TYPE_INT);
stackPushInt32(program2->stack, &(program2->stackPointer), program2->flags & 0xFFFF);
programReturnStackPushInt16(program2, VALUE_TYPE_INT);
stackPushInt32(program2->stack, &(program2->stackPointer), (intptr_t)program2->field_7C);
programReturnStackPushInt16(program2, VALUE_TYPE_INT);
stackPushInt32(program2->stack, &(program2->stackPointer), program2->field_84);
programReturnStackPushInt16(program2, VALUE_TYPE_INT);
program2->flags &= ~0xFFFF;
program2->instructionPointer = address;
program2->field_84 = program1->field_84;
program1->flags |= PROGRAM_FLAG_0x20;
}
// 0x46DB58
void _executeProc(Program* program, int procedure_index)
{
Program* external_program;
char* identifier;
int address;
int arguments_count;
unsigned char* procedure_ptr;
int flags;
char err[256];
Program* v12;
procedure_ptr = program->procedures + 4 + 24 * procedure_index;
flags = stackReadInt32(procedure_ptr, 4);
if (!(flags & PROCEDURE_FLAG_IMPORTED)) {
address = stackReadInt32(procedure_ptr, 16);
_setupCallWithReturnVal(program, address, 20);
programStackPushInt32(program, 0);
programStackPushInt16(program, VALUE_TYPE_INT);
if (!(flags & PROCEDURE_FLAG_CRITICAL)) {
return;
}
program->flags |= PROGRAM_FLAG_CRITICAL_SECTION;
v12 = program;
} else {
identifier = programGetIdentifier(program, stackReadInt32(procedure_ptr, 0));
external_program = externalProcedureGetProgram(identifier, &address, &arguments_count);
if (external_program == NULL) {
sprintf(err, "External procedure %s not found\n", identifier);
// TODO: Incomplete.
// _interpretOutput(err);
return;
}
if (arguments_count != 0) {
sprintf(err, "External procedure cannot take arguments in interrupt context");
// TODO: Incomplete.
// _interpretOutput(err);
return;
}
_setupExternalCallWithReturnVal(program, external_program, address, 28);
programStackPushInt32(external_program, 0);
programStackPushInt16(external_program, VALUE_TYPE_INT);
procedure_ptr = external_program->procedures + 4 + 24 * procedure_index;
flags = stackReadInt32(procedure_ptr, 4);
if (!(flags & PROCEDURE_FLAG_CRITICAL)) {
return;
}
external_program->flags |= PROGRAM_FLAG_CRITICAL_SECTION;
v12 = external_program;
}
_interpret(v12, 0);
}
// Returns index of the procedure with specified name or -1 if no such
// procedure exists.
//
// 0x46DCD0
int programFindProcedure(Program* program, const char* name)
{
int procedureCount = stackReadInt32(program->procedures, 0);
unsigned char* ptr = program->procedures + 4;
for (int index = 0; index < procedureCount; index++) {
int identifierOffset = stackReadInt32(ptr, offsetof(Procedure, field_0));
Add string functions compatibility layer See #17
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if (compat_stricmp((char*)(program->identifiers + identifierOffset), name) == 0) {
Initial commit
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return index;
}
ptr += sizeof(Procedure);
}
return -1;
}
// 0x46DD2C
void _executeProcedure(Program* program, int procedure_index)
{
Program* external_program;
char* identifier;
int address;
int arguments_count;
unsigned char* procedure_ptr;
int flags;
char err[256];
jmp_buf jmp_buf;
Program* v13;
procedure_ptr = program->procedures + 4 + 24 * procedure_index;
flags = stackReadInt32(procedure_ptr, 4);
if (flags & 0x04) {
identifier = programGetIdentifier(program, stackReadInt32(procedure_ptr, 0));
external_program = externalProcedureGetProgram(identifier, &address, &arguments_count);
if (external_program == NULL) {
sprintf(err, "External procedure %s not found\n", identifier);
// TODO: Incomplete.
// _interpretOutput(err);
return;
}
if (arguments_count != 0) {
sprintf(err, "External procedure cannot take arguments in interrupt context");
// TODO: Incomplete.
// _interpretOutput(err);
return;
}
_setupExternalCallWithReturnVal(program, external_program, address, 32);
programStackPushInt32(external_program, 0);
programStackPushInt16(external_program, VALUE_TYPE_INT);
memcpy(jmp_buf, program->env, sizeof(jmp_buf));
v13 = external_program;
} else {
address = stackReadInt32(procedure_ptr, 16);
_setupCallWithReturnVal(program, address, 24);
// Push number of arguments. It's always zero for built-in procs. This
// number is consumed by 0x802B.
programStackPushInt32(program, 0);
programStackPushInt16(program, VALUE_TYPE_INT);
memcpy(jmp_buf, program->env, sizeof(jmp_buf));
v13 = program;
}
_interpret(v13, -1);
memcpy(v13->env, jmp_buf, sizeof(jmp_buf));
}
// 0x46DEE4
void _doEvents()
{
// TODO: Incomplete.
}
// 0x46E10C
void programListNodeFree(ProgramListNode* programListNode)
{
ProgramListNode* tmp;
tmp = programListNode->next;
if (tmp != NULL) {
tmp->prev = programListNode->prev;
}
tmp = programListNode->prev;
if (tmp != NULL) {
tmp->next = programListNode->next;
} else {
gInterpreterProgramListHead = programListNode->next;
}
programFree(programListNode->program);
internal_free_safe(programListNode, __FILE__, __LINE__); // "..\\int\\INTRPRET.C", 2923
}
// 0x46E154
void programListNodeCreate(Program* program)
{
program->flags |= PROGRAM_FLAG_0x02;
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ProgramListNode* programListNode = (ProgramListNode*)internal_malloc_safe(sizeof(*programListNode), __FILE__, __LINE__); // .\\int\\INTRPRET.C, 2907
Initial commit
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programListNode->program = program;
programListNode->next = gInterpreterProgramListHead;
programListNode->prev = NULL;
if (gInterpreterProgramListHead != NULL) {
gInterpreterProgramListHead->prev = programListNode;
}
gInterpreterProgramListHead = programListNode;
}
// 0x46E1EC
void _updatePrograms()
{
ProgramListNode* curr = gInterpreterProgramListHead;
while (curr != NULL) {
ProgramListNode* next = curr->next;
if (curr->program != NULL) {
_interpret(curr->program, _cpuBurstSize);
}
if (curr->program->exited) {
programListNodeFree(curr);
}
curr = next;
}
_doEvents();
_updateIntLib();
}
// 0x46E238
void programListFree()
{
ProgramListNode* curr = gInterpreterProgramListHead;
while (curr != NULL) {
ProgramListNode* next = curr->next;
programListNodeFree(curr);
curr = next;
}
}
// 0x46E368
void interpreterRegisterOpcode(int opcode, OpcodeHandler* handler)
{
int index = opcode & 0x3FFF;
if (index >= OPCODE_MAX_COUNT) {
printf("Too many opcodes!\n");
exit(1);
}
gInterpreterOpcodeHandlers[index] = handler;
}
// 0x46E5EC
void interpreterPrintStats()
{
ProgramListNode* programListNode = gInterpreterProgramListHead;
while (programListNode != NULL) {
Program* program = programListNode->program;
if (program != NULL) {
int total = 0;
if (program->dynamicStrings != NULL) {
debugPrint("Program %s\n");
unsigned char* heap = program->dynamicStrings + sizeof(int);
while (*(unsigned short*)heap != 0x8000) {
int size = *(short*)heap;
if (size >= 0) {
int refcount = *(short*)(heap + sizeof(short));
debugPrint("Size: %d, ref: %d, string %s\n", size, refcount, (char*)(heap + sizeof(short) + sizeof(short)));
} else {
debugPrint("Free space, length %d\n", -size);
}
// TODO: Not sure about total, probably calculated wrong, check.
heap += sizeof(short) + sizeof(short) + size;
total += sizeof(short) + sizeof(short) + size;
}
debugPrint("Total length of heap %d, stored length %d\n", total, *(int*)(program->dynamicStrings));
} else {
debugPrint("No string heap for program %s\n", program->name);
}
}
programListNode = programListNode->next;
}
}