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base: SpiderLang:6fb7a23e5d8b97703a37e691332fb453b8c05949
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SpiderLang:main SpiderLang:intr-024-03B SpiderLang:easter-egg-arturo-branch SpiderLang:diego/instruc-068-079
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compare: SpiderLang:easter-egg-arturo-branch
Branches Tags
SpiderLang:intr-024-03B SpiderLang:easter-egg-arturo-branch SpiderLang:diego/instruc-068-079 SpiderLang:main

10 Commits
6fb7a23e5d ... easter-egg

Author SHA1 Message Date
Arturo
cdf14cf545 added LLGS instruction to CPU.hpp 2026-04-11 11:50:37 -06:00
Arturo
c3c94583f4 Map LLGS instruction to opcode 0xF1 2026-04-11 11:35:27 -06:00
Arturo
1fe555aaba Added easter egg by Arturo Balam for 0F1 (slot 1) 2026-04-11 10:02:30 -06:00
AlmeidaDaniel
7155ad8d5a Finished STB, CRB and TSB instructions 2026-04-06 19:18:30 -06:00
AlmeidaDaniel
0449074ef6 Finished BOOL, FBT, UDMD and DMOD 2026-04-06 17:56:00 -06:00
AlmeidaDaniel
484c2a6afe Merge branch 'main' of https://git.sintekanalytics.com/SpiderLang/spider-runtime 2026-04-06 13:02:17 -06:00
AlmeidaDaniel
6f8a9d80f2 added unfinished code to instructions 2026-04-06 13:02:12 -06:00
Kittycannon
36889e160b Merge pull request 'arturo-fixed-files-branch' (#4) from arturo-fixed-files-branch into main 
Reviewed-on: #4
 2026-04-01 16:38:57 +00:00
Arturo
f82aa627c4 Fix execute() dispatch, addrModes mask, reg() operand ptr, cast warnings, and Enter key step 2026-03-31 01:19:00 -06:00
Arturo
7d3781681d Implement float math and type conversion instructions (054-067) 2026-03-30 23:44:10 -06:00
11 changed files with 422 additions and 305 deletions
Expand all files Collapse all files

4
src/spider/runtime/Runtime.cpp
View File

@@ -17,10 +17,8 @@ namespace spider {
// Stepping/Running the Machine // // Stepping/Running the Machine //
void Runtime::step() { void Runtime::step() {
// fetchInstr() decodes the opcode, addressing mode and type siz
cpu.fetchInstr(); cpu.fetchInstr();
// execute() completes the fetch-decode-execute cycle by calling the correct instruction method based on the opcode. // TODO: Call instruction
cpu.execute();
} }
void Runtime::step(u64 n) { void Runtime::step(u64 n) {

13
src/spider/runtime/cpu/CPU.cpp
View File

@@ -80,7 +80,7 @@ namespace spider {
_opers[1] = _opers[0]; _opers[1] = _opers[0];
// call specific addressing mode // call specific addressing mode
(this->*(CPU::addrModes[_addrm]))(); (this->*(CPU::addrModes[_addrm & 0b111]))(); // mask added here too
} }
void CPU::fetchOperSrc() { void CPU::fetchOperSrc() {
@@ -88,21 +88,19 @@ namespace spider {
_alu = &ALU1; _alu = &ALU1;
// call specific addressing mode // call specific addressing mode
(this->*(CPU::addrModes[_addrm]))(); (this->*(CPU::addrModes[_addrm & 0b111]))(); // mask keeps index within 0-7
// modify the _addrm register // modify the _addrm register
_addrm = static_cast<u8>((_addrm >> 3) & 0x1F); _addrm = static_cast<u8>((_addrm >> 3) & 0x1F);
_addrm++; _addrm++;
} }
/**
instrMap[] is the correct 512-entry dispatch
table that maps operation codes to instruction methods.
*/
void CPU::execute() { void CPU::execute() {
(this->*(CPU::instrMap[_opcode]))(); (this->*(CPU::instrMap[_opcode]))(); // no null check needed
} }
// Addressing Modes // // Addressing Modes //
/** /**
@@ -149,6 +147,7 @@ namespace spider {
// get byte // get byte
u8 reg = (_reel->readU8(RI) >> sh) & 0xF; u8 reg = (_reel->readU8(RI) >> sh) & 0xF;
_alu = &GPR[reg]; _alu = &GPR[reg];
_opers[0] = _alu; // explicitly sets _opers[0] = _dst
RI += use; RI += use;
// store no-op // store no-op

12
src/spider/runtime/cpu/CPU.hpp
View File

@@ -15,14 +15,6 @@ namespace spider {
static constexpr const u64 FLAG_INTERRUPT_REQUEST = 0b0000000000000000000000000000000000000000000000000000000000000100; static constexpr const u64 FLAG_INTERRUPT_REQUEST = 0b0000000000000000000000000000000000000000000000000000000000000100;
static constexpr const u64 FLAG_EXCEPTION = 0b0000000000000000000000000000000000000000000000000000000000001000; static constexpr const u64 FLAG_EXCEPTION = 0b0000000000000000000000000000000000000000000000000000000000001000;
static constexpr const u64 FLAG_MEMORY_MODE = 0b0000000000000000000000000000000000000000000000000000000000110000; static constexpr const u64 FLAG_MEMORY_MODE = 0b0000000000000000000000000000000000000000000000000000000000110000;
static constexpr const u64 FLAG_EXT_INT_DISABLE = 0b0000000000000000000000000000000000000000000000000000000010000000; // bit 7
static constexpr const u64 FLAG_EQUAL = 0b0000000000000000000000000000000000000000000000000000010000000000; // bit 10
static constexpr const u64 FLAG_EPSILON_ENABLE = 0b0000000000000000000000000000000000000000000000000001000000000000; // bit 12
static constexpr const u64 FLAG_HOTSWAP_SIGNAL = 0b0000000000000000000000000000000000000000000000010000000000000000; // bit 16
static constexpr const u64 FLAG_USER_A = 0b0000000000000000000000000000000000000000000100000000000000000000; // bit 20
static constexpr const u64 FLAG_USER_B = 0b0000000000000000000000000000000000000000001000000000000000000000; // bit 21
static constexpr const u64 FLAG_USER_C = 0b0000000000000000000000000000000000000000010000000000000000000000; // bit 22
static constexpr const u64 FLAG_USER_D = 0b0000000000000000000000000000000000000000100000000000000000000000; // bit 23
public: // Map of addressing modes & Instructions public: // Map of addressing modes & Instructions
@@ -884,6 +876,10 @@ namespace spider {
// Operation: // Operation:
void UPY(); void UPY();
//[Easter Egg] 0x0F1 - LLGS: Injects the custom 8x4 ASCII spider logo
// into RAM [0x80-0x9F] and signs Register RA with the "LLGS" hex literal.
void LLGS();
// </pygen-target> // // </pygen-target> //
}; };

18
src/spider/runtime/debug/LiveDebug.cpp
View File

@@ -330,18 +330,16 @@ namespace spider {
int liveDebugMain() { int liveDebugMain() {
Terminal t; Terminal t;
Runtime runtime(1024); Runtime runtime(1024);
InstrReelFixed fix(100); InstrReelFixed fix(100);
runtime.ram[0] = 0xFF;
runtime.ram[1] = 0xEE;
runtime.ram[2] = 0xDD;
runtime.ram[3] = 0xCC;
runtime.ram[4] = 0xBB;
runtime.ram[5] = 0xAA;
runtime.ram[6] = 0x99;
runtime.ram[7] = 0x88;
fix.writeU16(0, 0b0000111);
runtime.hookReel(&fix, false); runtime.hookReel(&fix, false);
bool running = true, update = true; bool running = true, update = true;
u64 ramScroll = 0; u64 ramScroll = 0;
u8 key = Terminal::UNKNOWN; u8 key = Terminal::UNKNOWN;
@@ -388,7 +386,7 @@ namespace spider {
case Terminal::ENTER: case Terminal::ENTER:
update = true; update = true;
runtime.cpu.fetchInstr(); runtime.cpu.fetchInstr();
runtime.cpu.fetchOperDst(); runtime.cpu.execute(); // looks up instrMap[_opcode] & calls the correct instruction method (e.g. FMUL)
break; break;
default: default:
break; break;

4
src/spider/runtime/instr/InstrMap.cpp
View File

@@ -276,7 +276,7 @@ CPU::Fn CPU::instrMap[] = {
nullptr, // 0x0EE nullptr, // 0x0EE
nullptr, // 0x0EF nullptr, // 0x0EF
&CPU::UPY, // 0x0F0 — Will place "YUPI" in memory &CPU::UPY, // 0x0F0 — Will place "YUPI" in memory
nullptr, // 0x0F1 &CPU::LLGS, // 0x0F1 — Spider ASCII art (LLGS easter egg)
nullptr, // 0x0F2 nullptr, // 0x0F2
nullptr, // 0x0F3 nullptr, // 0x0F3
nullptr, // 0x0F4 nullptr, // 0x0F4
@@ -737,6 +737,8 @@ void CPU::executeSwLk() {
// ── Easter Eggs ───────────────────────────────── // ── Easter Eggs ─────────────────────────────────
case 0x0F0: UPY(); break; case 0x0F0: UPY(); break;
case 0x0F1: LLGS(); break;
default: default:
break; break;

40
src/spider/runtime/instr/Instr_000-01F.cpp
View File

@@ -111,16 +111,16 @@ namespace spider {
fetchOperDst(); fetchOperDst();
switch(_size){ switch(_size){
case 0b00: //byte case 0b00: //byte
_dst->_u16 = _dst->_u8 & 1; _dst->_i16 = static_cast<i16>(_dst->_i8);
break; break;
case 0b01: //short case 0b01: //short
_dst->_u32 = _dst->_u16 & 1; _dst->_i32 = static_cast<i32>(_dst->_i16);
break; break;
case 0b10: //int case 0b10: //int
_dst->_u64 = _dst->_u32 & 1; _dst->_i64 = static_cast<i64>(_dst->_i32);
break; break;
case 0b11: //long case 0b11: //long
_dst->_u64 = _dst->_u64; _dst->_i64 = _dst->_i64;
break; break;
} }
_dst->_u32 = _dst->_u8; _dst->_u32 = _dst->_u8;
@@ -301,13 +301,17 @@ namespace spider {
fetchOperDst(); fetchOperDst();
switch(_size){ switch(_size){
case 0b00: //byte case 0b00: //byte
_dst->_i8 = _dst->_i8 / _src->_i8, _dst->_i8 % _src->_i8; RX._i8 = _dst->_i8 / _src->_i8;
RY._i8 = _dst->_i8 % _src->_i8;
case 0b01: //short case 0b01: //short
_dst->_i16 = _dst->_i16 / _src->_i16, _dst->_i16 % _src->_i16; RX._i16 = _dst->_i16 / _src->_i16;
RY._i16 = _dst->_i16 % _src->_i16;
case 0b10: //int case 0b10: //int
_dst->_i32 = _dst->_i32 / _src->_i32, _dst->_i32 % _src->_i32; RX._i32 = _dst->_i32 / _src->_i32;
RY._i32 = _dst->_i32 % _src->_i32;
case 0b11: //long case 0b11: //long
_dst->_i64 = _dst->_i64 / _src->_i64, _dst->_i64 % _src->_i64; RX._i64 = _dst->_i64 / _src->_i64;
RY._i64 = _dst->_i64 % _src->_i64;
} }
(this->*_post)(); (this->*_post)();
} }
@@ -318,13 +322,17 @@ namespace spider {
fetchOperDst(); fetchOperDst();
switch(_size){ switch(_size){
case 0b00: //byte case 0b00: //byte
_dst->_u8 = _dst->_u8 / _src->_u8, _dst->_u8 % _src->_u8; RX._u8 = _dst->_u8 / _src->_u8;
RY._u8 = _dst->_u8 % _src->_u8;
case 0b01: //short case 0b01: //short
_dst->_u16 = _dst->_u16 / _src->_u16, _dst->_u16 % _src->_u16; RX._u16 = _dst->_u16 / _src->_u16;
RY._u16 = _dst->_u16 % _src->_u16;
case 0b10: //int case 0b10: //int
_dst->_u32 = _dst->_u32 / _src->_u32, _dst->_u32 % _src->_u32; RX._u32 = _dst->_u32 / _src->_u32;
RY._u32 = _dst->_u32 % _src->_u32;
case 0b11: //long case 0b11: //long
_dst->_u64 = _dst->_u64 / _src->_u64, _dst->_u64 % _src->_u64; RX._u64 = _dst->_u64 / _src->_u64;
RY._u64 = _dst->_u64 % _src->_u64;
} }
(this->*_post)(); (this->*_post)();
} }
@@ -334,13 +342,13 @@ namespace spider {
fetchOperDst(); fetchOperDst();
switch(_size){ switch(_size){
case 0b00: //byte case 0b00: //byte
_dst->_u8 = 1; RF = (RF & ~(0x3 << 9)) | ((_dst->_u8 >> 9) & 0x3) << 9;
case 0b01: //short case 0b01: //short
_dst->_u16 = 1; RF = (RF & ~(0x3 << 9)) | ((_dst->_u16 >> 9) & 0x3) << 9;
case 0b10: //int case 0b10: //int
_dst->_u32 = 1; RF = (RF & ~(0x3 << 9)) | ((_dst->_u32 >> 9) & 0x3) << 9;
case 0b11: //long case 0b11: //long
_dst->_u64 = 1; RF = (RF & ~(0x3 << 9)) | ((_dst->_u64 >> 9) & 0x3) << 9;
} }
(this->*_post)(); (this->*_post)();
} }

107
src/spider/runtime/instr/Instr_020-03F.cpp
View File

@@ -13,13 +13,13 @@ namespace spider {
fetchOperDst(); fetchOperDst();
switch(_size){ switch(_size){
case 0b00: //byte case 0b00: //byte
_dst->_u8 = 1; _dst->_u8 |= (1 << _src->_u8);
case 0b01: //short case 0b01: //short
_dst->_u16 = 1; _dst->_u16 |= (1 << _src->_u16);
case 0b10: //int case 0b10: //int
_dst->_u32 = 1; _dst->_u32 |= (1 << _src->_u32);
case 0b11: //long case 0b11: //long
_dst->_u64 = 1; _dst->_u64 |= (1 << _src->_u64);
} }
(this->*_post)(); (this->*_post)();
} }
@@ -30,13 +30,13 @@ namespace spider {
fetchOperDst(); fetchOperDst();
switch(_size){ switch(_size){
case 0b00: //byte case 0b00: //byte
_dst->_u8 = 1; _dst->_u8 &= ~(1 << _src->_u8);
case 0b01: //short case 0b01: //short
_dst->_u16 = 1; _dst->_u16 &= ~(1 << _src->_u16);
case 0b10: //int case 0b10: //int
_dst->_u32 = 1; _dst->_u32 &= ~(1 << _src->_u32);
case 0b11: //long case 0b11: //long
_dst->_u64 = 1; _dst->_u64 &= ~(1 << _src->_u64);
} }
(this->*_post)(); (this->*_post)();
} }
@@ -47,13 +47,37 @@ namespace spider {
fetchOperDst(); fetchOperDst();
switch(_size){ switch(_size){
case 0b00: //byte case 0b00: //byte
_dst->_u8 = 1; switch (((RF >> _src->_u8) & 1) != ((_dst->_u8 >> _src->_u8) & 1)){
case 1:
RF |= (1 << _src->_u8);
case 0:
RF &= ~(1 << _src->_u8);
}
case 0b01: //short case 0b01: //short
_dst->_u16 = 1; switch (((RF >> _src->_u16) & 1) != ((_dst->_u16 >> _src->_u16) & 1)){
case 1:
RF |= (1 << _src->_u16);
case 0:
RF &= ~(1 << _src->_u16);
}
case 0b10: //int case 0b10: //int
_dst->_u32 = 1; switch (((RF >> _src->_u32) & 1) != ((_dst->_u32 >> _src->_u32) & 1)){
case 1:
RF |= (1 << _src->_u32);
case 0:
RF &= ~(1 << _src->_u32);
}
case 0b11: //long case 0b11: //long
_dst->_u64 = 1; switch (((RF >> _src->_u64) & 1) != ((_dst->_u64 >> _src->_u64) & 1)){
case 1:
RF |= (1 << _src->_u64);
case 0:
RF &= ~(1 << _src->_u64);
}
} }
(this->*_post)(); (this->*_post)();
} }
@@ -63,13 +87,13 @@ namespace spider {
fetchOperDst(); fetchOperDst();
switch(_size){ switch(_size){
case 0b00: //byte case 0b00: //byte
_dst->_u8 = 1; _dst->_u8 = _dst != 0;
case 0b01: //short case 0b01: //short
_dst->_u16 = 1; _dst->_u16 = _dst != 0;
case 0b10: //int case 0b10: //int
_dst->_u32 = 1; _dst->_u32 = _dst != 0;
case 0b11: //long case 0b11: //long
_dst->_u64 = 1; _dst->_u64 = _dst != 0;
} }
(this->*_post)(); (this->*_post)();
} }
@@ -154,63 +178,20 @@ namespace spider {
// TODO: Implement JIF // TODO: Implement JIF
} }
// ── 0x03C — JMR: Dst + Instruction Register -> Instruction Register ──
void CPU::JMR() { void CPU::JMR() {
fetchOperDst(); // TODO: Implement JMR
i64 offset;
switch (_size) {
case 0b00: offset = static_cast<i64>(_dst->_i8); break; // 1 byte
case 0b01: offset = static_cast<i64>(_dst->_i16); break; // 2 bytes
case 0b10: offset = static_cast<i64>(_dst->_i32); break; // 4 bytes
case 0b11: offset = _dst->_i64; break; // 8 bytes
}
RI = static_cast<u64>(static_cast<i64>(RI) + offset);
} }
// ── 0x03D — JER: Dst + Instruction Register -> Instruction Register IF Flags.EQ ──
void CPU::JER() { void CPU::JER() {
fetchOperDst(); // TODO: Implement JER
if (RF & CPU::FLAG_EQUAL) {
i64 offset;
switch (_size) {
case 0b00: offset = static_cast<i64>(_dst->_i8); break;
case 0b01: offset = static_cast<i64>(_dst->_i16); break;
case 0b10: offset = static_cast<i64>(_dst->_i32); break;
case 0b11: offset = _dst->_i64; break;
}
RI = static_cast<u64>(static_cast<i64>(RI) + offset);
}
} }
// ── 0x03E — JNR: Dst + Instruction Register -> Instruction Register IF NOT Flags.EQ ──
void CPU::JNR() { void CPU::JNR() {
fetchOperDst(); // TODO: Implement JNR
if (!(RF & CPU::FLAG_EQUAL)) {
i64 offset;
switch (_size) {
case 0b00: offset = static_cast<i64>(_dst->_i8); break;
case 0b01: offset = static_cast<i64>(_dst->_i16); break;
case 0b10: offset = static_cast<i64>(_dst->_i32); break;
case 0b11: offset = _dst->_i64; break;
}
RI = static_cast<u64>(static_cast<i64>(RI) + offset);
}
} }
// ── 0x03F — JIR: Dst + Instruction Register -> Instruction Register IF Src ──
void CPU::JIR() { void CPU::JIR() {
fetchOperSrc(); // TODO: Implement JIR
fetchOperDst();
if (_src->_u64 != 0) {
i64 offset;
switch (_size) {
case 0b00: offset = static_cast<i64>(_dst->_i8); break;
case 0b01: offset = static_cast<i64>(_dst->_i16); break;
case 0b10: offset = static_cast<i64>(_dst->_i32); break;
case 0b11: offset = _dst->_i64; break;
}
RI = static_cast<u64>(static_cast<i64>(RI) + offset);
}
} }
} }

335
src/spider/runtime/instr/Instr_040-05F.cpp
View File

@@ -4,241 +4,276 @@
*/ */
#include <spider/runtime/cpu/CPU.hpp> #include <spider/runtime/cpu/CPU.hpp>
#include <spider/runtime/memory/RAM.hpp> #include <cmath> // provides std::fmod, std::fma and cast support
namespace spider { namespace spider {
// ── 0x040 — SFB: Store (User) Flag Bit ──────────────────────────────
void CPU::SFB() { void CPU::SFB() {
fetchOperSrc(); // TODO: Implement SFB
fetchOperDst();
u8 flag_idx = _dst->_u8 & 0x3;
u64 flag_bit = CPU::FLAG_USER_A << flag_idx;
if (_src->_u64 != 0) {
RF |= flag_bit;
} else {
RF &= ~flag_bit;
}
} }
// ── 0x041 — LFB: Load (User) Flag Bit ──────────────────────────────
void CPU::LFB() { void CPU::LFB() {
fetchOperSrc(); // TODO: Implement LFB
fetchOperDst();
u8 flag_idx = _src->_u8 & 0x3;
u64 flag_bit = CPU::FLAG_USER_A << flag_idx;
_dst->_u64 = (RF & flag_bit) ? 1 : 0;
(this->*_post)();
} }
// ── 0x042 — JUF: Jump to absolute position, if user flag is true ────
void CPU::JUF() { void CPU::JUF() {
fetchOperSrc(); // TODO: Implement JUF
fetchOperDst();
u8 flag_idx = _src->_u8 & 0x3;
u64 flag_bit = CPU::FLAG_USER_A << flag_idx;
if (RF & flag_bit) {
RI = _dst->_u64;
}
} }
// ── 0x043 — JUR: Jump to relative position, if user flag is true ────
void CPU::JUR() { void CPU::JUR() {
fetchOperSrc(); // TODO: Implement JUR
fetchOperDst();
u8 flag_idx = _src->_u8 & 0x3;
u64 flag_bit = CPU::FLAG_USER_A << flag_idx;
if (RF & flag_bit) {
i64 offset;
switch (_size) {
case 0b00: offset = static_cast<i64>(_dst->_i8); break;
case 0b01: offset = static_cast<i64>(_dst->_i16); break;
case 0b10: offset = static_cast<i64>(_dst->_i32); break;
case 0b11: offset = _dst->_i64; break;
default: offset = 0; break;
}
RI = static_cast<u64>(static_cast<i64>(RI) + offset);
}
} }
// ── 0x044 — PUSH: Dst -> pushed into stack ──────────────────────────
void CPU::PUSH() { void CPU::PUSH() {
fetchOperDst(); // TODO: Implement PUSH
u8 bytes = 1 << _size;
for (u8 i = 0; i < bytes; i++) {
_ram->at(RS + i) = (*_dst)[i];
}
RS += bytes;
} }
// ── 0x045 — POP: popped from stack -> Dst ───────────────────────────
void CPU::POP() { void CPU::POP() {
fetchOperDst(); // TODO: Implement POP
u8 bytes = 1 << _size;
RS -= bytes;
_ram->loadRegister(RS, _size, _dst);
(this->*_post)();
} }
// ── 0x046 — ALLOC: Dst -> heap ptr of size Dst ──────────────────────
void CPU::ALLOC() { void CPU::ALLOC() {
fetchOperDst(); // TODO: Implement ALLOC
// TODO: Proper heap allocation with gap tracking.
_dst->_u64 = 0;
(this->*_post)();
} }
// ── 0x047 — HFREE: Frees heap ptr in Dst ────────────────────────────
void CPU::HFREE() { void CPU::HFREE() {
fetchOperDst(); // TODO: Implement HFREE
// TODO: Proper heap deallocation.
} }
// ── 0x04A — CALL: Performs a function call, step XX ──────────────────
void CPU::CALL() { void CPU::CALL() {
fetchOperDst(); // TODO: Implement CALL
u64 target = _dst->_u64;
register_t rz_save;
rz_save._u64 = RZ;
for (u8 i = 0; i < 8; i++) {
_ram->at(RS + i) = rz_save[i];
}
RS += 8;
register_t ri_save;
ri_save._u64 = RI;
for (u8 i = 0; i < 8; i++) {
_ram->at(RS + i) = ri_save[i];
}
RS += 8;
RZ = RS;
RI = target;
} }
// ── 0x04B — RET: Undoes a function call, step XX ────────────────────
void CPU::RET() { void CPU::RET() {
RS = RZ; // TODO: Implement RET
RS -= 8;
register_t ri_restore;
_ram->loadRegister(RS, 0b11, &ri_restore);
RI = ri_restore._u64;
RS -= 8;
register_t rz_restore;
_ram->loadRegister(RS, 0b11, &rz_restore);
RZ = rz_restore._u64;
} }
// ── 0x04C — EDI: bool( Dst ) -> Enable External Interrupts Bit ─────
void CPU::EDI() { void CPU::EDI() {
fetchOperDst(); // TODO: Implement EDI
if (_dst->_u64 != 0) {
RF &= ~CPU::FLAG_EXT_INT_DISABLE;
} else {
RF |= CPU::FLAG_EXT_INT_DISABLE;
}
} }
// ── 0x04D — SHSS: bool( Dst ) -> Hot Swap Signal Bit ────────────────
void CPU::SHSS() { void CPU::SHSS() {
fetchOperDst(); // TODO: Implement SHSS
if (_dst->_u64 != 0) {
RF |= CPU::FLAG_HOTSWAP_SIGNAL;
} else {
RF &= ~CPU::FLAG_HOTSWAP_SIGNAL;
}
} }
// ── 0x050 — FLI: Float Load Immediate ───────────────────────────────
void CPU::FLI() { void CPU::FLI() {
fetchOperDst(); // TODO: Implement FLI
(this->*_post)();
} }
// ── 0x051 — FNEG: - Dst -> Dst ──────────────────────────────────────
void CPU::FNEG() { void CPU::FNEG() {
fetchOperDst(); // TODO: Implement FNEG
switch (_size) {
case 0b10: _dst->_f32 = -_dst->_f32; break;
case 0b11: _dst->_f64 = -_dst->_f64; break;
default: break;
}
(this->*_post)();
} }
// ── 0x052 — FADD: Dst + Src -> Dst ──────────────────────────────────
void CPU::FADD() { void CPU::FADD() {
fetchOperSrc(); // TODO: Implement FADD
fetchOperDst();
switch (_size) {
case 0b10: _dst->_f32 += _src->_f32; break;
case 0b11: _dst->_f64 += _src->_f64; break;
default: break;
}
(this->*_post)();
} }
// ── 0x053 — FSUB: Dst - Src -> Dst ──────────────────────────────────
void CPU::FSUB() { void CPU::FSUB() {
// TODO: Implement FSUB
}
// ── 0x054 — FMUL: Float Multiplication ───────────────────────────────────
void CPU::FMUL() {
fetchOperSrc(); fetchOperSrc();
fetchOperDst(); fetchOperDst();
switch (_size) { switch (_size) {
case 0b10: _dst->_f32 -= _src->_f32; break; case 0b10: _dst->_f32 *= _src->_f32; break; // f32
case 0b11: _dst->_f64 -= _src->_f64; break; case 0b11: _dst->_f64 *= _src->_f64; break; // f64
default: break; // invalid size
}
(this->*_post)();
}
// ── 0x055 — FDIV: Float Division ─────────────────────────────────────────
void CPU::FDIV() {
fetchOperSrc();
fetchOperDst();
switch (_size) {
case 0b10: _dst->_f32 /= _src->_f32; break;
case 0b11: _dst->_f64 /= _src->_f64; break;
default: break; default: break;
} }
(this->*_post)(); (this->*_post)();
} }
void CPU::FMUL() { // ── 0x056 — FMOD: Float Modulus ──────────────────────────────────────────
// TODO: Implement FMUL // C++ has no % for floats — std::fmod performs the equivalent operation
}
void CPU::FDIV() {
// TODO: Implement FDIV
}
void CPU::FMOD() { void CPU::FMOD() {
// TODO: Implement FMOD fetchOperSrc();
fetchOperDst();
switch (_size) {
case 0b10: _dst->_f32 = std::fmod(_dst->_f32, _src->_f32); break;
case 0b11: _dst->_f64 = std::fmod(_dst->_f64, _src->_f64); break;
default: break;
}
(this->*_post)();
} }
// ── 0x057 — FDMOD: Float Division and Modulus ────────────────────────────
// dst / src = RX (quotient) * src + RY (remainder)
void CPU::FDMOD() { void CPU::FDMOD() {
// TODO: Implement FDMOD fetchOperSrc();
fetchOperDst();
switch (_size) {
case 0b10: {
f32 q = static_cast<f32>(static_cast<i32>(_dst->_f32 / _src->_f32));
f32 r = _dst->_f32 - (q * _src->_f32);
RX._f32 = q;
RY._f32 = r;
break;
}
case 0b11: {
f64 q = static_cast<f64>(static_cast<i64>(_dst->_f64 / _src->_f64));
f64 r = _dst->_f64 - (q * _src->_f64);
RX._f64 = q;
RY._f64 = r;
break;
}
default: break;
}
(this->*_post)();
} }
// ── 0x058 — FEPS: Set Float Epsilon Value ────────────────────────────────
// Loads the epsilon value into RN (the epsilon register)
void CPU::FEPS() { void CPU::FEPS() {
// TODO: Implement FEPS fetchOperDst();
switch (_size) {
case 0b10: RN = _dst->_u32; break; // store f32 bits in RN
case 0b11: RN = _dst->_u64; break; // store f64 bits in RN
default: break;
}
(this->*_post)();
} }
// ── 0x059 — FEEP: Float Enable/Disable Epsilon ───────────────────────────
// Bit 12 of RF is the Epsilon Enable flag
void CPU::FEEP() { void CPU::FEEP() {
// TODO: Implement FEEP fetchOperDst();
constexpr u64 EPSILON_ENABLE_BIT = (1ULL << 12);
if (_dst->_u64) RF |= EPSILON_ENABLE_BIT; // non-zero → enable
else RF &= ~EPSILON_ENABLE_BIT; // zero → disable
(this->*_post)();
} }
// ── 0x05A — FEQ: Float Equal ──────────────────────────────────────────────
// Sets bit 10 (Zero/Equal flag) in RF if dst == src
void CPU::FEQ() { void CPU::FEQ() {
// TODO: Implement FEQ fetchOperSrc();
fetchOperDst();
constexpr u64 ZERO_FLAG = (1ULL << 10);
bool equal = false;
switch (_size) {
case 0b10: equal = (_dst->_f32 == _src->_f32); break;
case 0b11: equal = (_dst->_f64 == _src->_f64); break;
default: break;
}
if (equal) RF |= ZERO_FLAG;
else RF &= ~ZERO_FLAG;
(this->*_post)();
} }
// ── 0x05B — FNE: Float Not Equal ─────────────────────────────────────────
void CPU::FNE() { void CPU::FNE() {
// TODO: Implement FNE fetchOperSrc();
fetchOperDst();
constexpr u64 ZERO_FLAG = (1ULL << 10);
bool notEqual = false;
switch (_size) {
case 0b10: notEqual = (_dst->_f32 != _src->_f32); break;
case 0b11: notEqual = (_dst->_f64 != _src->_f64); break;
default: break;
}
if (notEqual) RF |= ZERO_FLAG;
else RF &= ~ZERO_FLAG;
(this->*_post)();
} }
// ── 0x05C — FGT: Float Greater Than ──────────────────────────────────────
// Sets/clears bit 9 (Negative flag) in RF
void CPU::FGT() { void CPU::FGT() {
// TODO: Implement FGT fetchOperSrc();
fetchOperDst();
constexpr u64 NEGATIVE_FLAG = (1ULL << 9);
bool gt = false;
switch (_size) {
case 0b10: gt = (_dst->_f32 > _src->_f32); break;
case 0b11: gt = (_dst->_f64 > _src->_f64); break;
default: break;
}
if (gt) RF &= ~NEGATIVE_FLAG;
else RF |= NEGATIVE_FLAG;
(this->*_post)();
} }
// ── 0x05D — FGE: Float Greater or Equal ──────────────────────────────────
void CPU::FGE() { void CPU::FGE() {
// TODO: Implement FGE fetchOperSrc();
fetchOperDst();
constexpr u64 NEGATIVE_FLAG = (1ULL << 9);
constexpr u64 ZERO_FLAG = (1ULL << 10);
bool ge = false;
bool eq = false;
switch (_size) {
case 0b10:
ge = (_dst->_f32 >= _src->_f32);
eq = (_dst->_f32 == _src->_f32);
break;
case 0b11:
ge = (_dst->_f64 >= _src->_f64);
eq = (_dst->_f64 == _src->_f64);
break;
default: break;
}
if (ge) RF &= ~NEGATIVE_FLAG;
else RF |= NEGATIVE_FLAG;
if (eq) RF |= ZERO_FLAG;
else RF &= ~ZERO_FLAG;
(this->*_post)();
} }
// ── 0x05E — FLT: Float Lower Than ────────────────────────────────────────
void CPU::FLT() { void CPU::FLT() {
// TODO: Implement FLT fetchOperSrc();
fetchOperDst();
constexpr u64 NEGATIVE_FLAG = (1ULL << 9);
bool lt = false;
switch (_size) {
case 0b10: lt = (_dst->_f32 < _src->_f32); break;
case 0b11: lt = (_dst->_f64 < _src->_f64); break;
default: break;
}
if (lt) RF |= NEGATIVE_FLAG;
else RF &= ~NEGATIVE_FLAG;
(this->*_post)();
} }
// ── 0x05F — FLE: Float Lower or Equal ────────────────────────────────────
void CPU::FLE() { void CPU::FLE() {
// TODO: Implement FLE fetchOperSrc();
fetchOperDst();
constexpr u64 NEGATIVE_FLAG = (1ULL << 9);
constexpr u64 ZERO_FLAG = (1ULL << 10);
bool le = false;
bool eq = false;
switch (_size) {
case 0b10:
le = (_dst->_f32 <= _src->_f32);
eq = (_dst->_f32 == _src->_f32);
break;
case 0b11:
le = (_dst->_f64 <= _src->_f64);
eq = (_dst->_f64 == _src->_f64);
break;
default: break;
} }
if (le) RF &= ~NEGATIVE_FLAG;
else RF |= NEGATIVE_FLAG;
if (eq) RF |= ZERO_FLAG;
else RF &= ~ZERO_FLAG;
(this->*_post)();
}
} }

46
src/spider/runtime/instr/Instr_060-07F.cpp
View File

@@ -4,39 +4,69 @@
*/ */
#include <spider/runtime/cpu/CPU.hpp> #include <spider/runtime/cpu/CPU.hpp>
#include <cmath> // provides std::fmod, std::fma and cast support
namespace spider { namespace spider {
// ── 0x060 — F2D: Float (f32) to Double (f64) ─────────────────────────────
// Widening conversion — no precision is lost
void CPU::F2D() { void CPU::F2D() {
// TODO: Implement F2D fetchOperDst();
_dst->_f64 = static_cast<f64>(_dst->_f32);
(this->*_post)();
} }
// ── 0x061 — D2F: Double (f64) to Float (f32) ─────────────────────────────
// Narrowing conversion — precision may be lost
void CPU::D2F() { void CPU::D2F() {
// TODO: Implement D2F fetchOperDst();
_dst->_f32 = static_cast<f32>(_dst->_f64);
(this->*_post)();
} }
// ── 0x062 — I2F: Integer (i32) to Float (f32) ────────────────────────────
void CPU::I2F() { void CPU::I2F() {
// TODO: Implement I2F fetchOperDst();
_dst->_f32 = static_cast<f32>(_dst->_u32);
(this->*_post)();
} }
// ── 0x063 — I2D: Integer (i32) to Double (f64) ───────────────────────────
void CPU::I2D() { void CPU::I2D() {
// TODO: Implement I2D fetchOperDst();
_dst->_f64 = static_cast<f64>(_dst->_u32);
(this->*_post)();
} }
// ── 0x064 — L2F: Long (i64) to Float (f32) ───────────────────────────────
void CPU::L2F() { void CPU::L2F() {
// TODO: Implement L2F fetchOperDst();
_dst->_f32 = static_cast<f32>(_dst->_u64);
(this->*_post)();
} }
// ── 0x065 — L2D: Long (i64) to Double (f64) ──────────────────────────────
void CPU::L2D() { void CPU::L2D() {
// TODO: Implement L2D fetchOperDst();
_dst->_f64 = static_cast<f64>(_dst->_u64);
(this->*_post)();
} }
// ── 0x066 — F2I: Float (f32) to Integer (i32) ────────────────────────────
// Truncates toward zero
void CPU::F2I() { void CPU::F2I() {
// TODO: Implement F2I fetchOperDst();
_dst->_u32 = static_cast<u32>(_dst->_f32);
(this->*_post)();
} }
// ── 0x067 — F2L: Float (f32) to Long (i64) ───────────────────────────────
// Truncates toward zero
void CPU::F2L() { void CPU::F2L() {
// TODO: Implement F2L fetchOperDst();
_dst->_u64 = static_cast<u64>(_dst->_f32);
(this->*_post)();
} }
void CPU::D2I() { void CPU::D2I() {

61
src/spider/runtime/instr/Instr_LLGS.cpp Normal file
View File

@@ -0,0 +1,61 @@
/**
* @brief LLGS — Easter egg by Arturo Balam (Data - 7A)
*
* Opcode: 0x0F1
*
* Writes a Spider ASCII art into RAM starting at address 0x00,
* and loads the author signature into RA as a packed ASCII string.
* This version matches the custom mechanical spider design
* and is formatted to fit an 8-byte RAM viewer width.
*
* RAM layout after LLGS executes (8 characters per row, 4 rows total):
* 0x00: "// _ \\" (Row 1)
* 0x08: "\\( )// " (Row 2)
* 0x10: " //()\\ " (Row 3)
* 0x18: " \\ // " (Row 4)
*
* RA after execution: 0x4C4C475300000000ULL ("LLGS" in ASCII, zero-padded)
* (L=0x4C, L=0x4C, G=0x47, S=0x53)
*/
#include <spider/runtime/cpu/CPU.hpp>
#include <spider/runtime/memory/RAM.hpp>
namespace spider {
void CPU::LLGS() {
// -- Write Spider ASCII art into RAM ---------------------------------
// Padded with exact spaces to ensure it never wraps in an 8-byte viewer
// Row 0: "// _ \\ "
_ram->at(0x00) = '/'; _ram->at(0x01) = '/';
_ram->at(0x02) = ' '; _ram->at(0x03) = '_';
_ram->at(0x04) = ' '; _ram->at(0x05) = '\\';
_ram->at(0x06) = '\\'; _ram->at(0x07) = ' ';
// Row 1: "\\( )// "
_ram->at(0x08) = '\\'; _ram->at(0x09) = '\\';
_ram->at(0x0A) = '('; _ram->at(0x0B) = ' ';
_ram->at(0x0C) = ')'; _ram->at(0x0D) = '/';
_ram->at(0x0E) = '/'; _ram->at(0x0F) = ' ';
// Row 2: " //()\\ "
_ram->at(0x10) = ' '; _ram->at(0x11) = '/';
_ram->at(0x12) = '/'; _ram->at(0x13) = '(';
_ram->at(0x14) = ')'; _ram->at(0x15) = '\\';
_ram->at(0x16) = '\\'; _ram->at(0x17) = ' ';
// Row 3: " \\ // "
_ram->at(0x18) = ' '; _ram->at(0x19) = '\\';
_ram->at(0x1A) = '\\'; _ram->at(0x1B) = ' ';
_ram->at(0x1C) = ' '; _ram->at(0x1D) = '/';
_ram->at(0x1E) = '/'; _ram->at(0x1F) = ' ';
// -- Load mnemonic into RA ------------------------
// "LLGS" packed as ASCII bytes into RA
RA._u64 = 0x4C4C475300000000ULL;
}
} // namespace spider

13
src/spider/runtime/util/Terminal.cpp
View File

@@ -11,8 +11,15 @@
#include <termios.h> #include <termios.h>
#include <unistd.h> #include <unistd.h>
#include <stdio.h> #include <stdio.h>
#include <sys/ioctl.h> //This was missing,
//The ioctl, TIOCGWINSZ and winsize used in getSize() live in that header, but it was never included.
#endif #endif
//the Linux includes at the top are inside #if SPIDER_OS_LINUX which IS defined,
//but getSize() is inside #if SPIDER_DISTRO_DESKTOP which is NOT defined,
//so the compiler sees the ioctl call without the include that would have covered it.
#if defined(SPIDER_DISTRO_DESKTOP) #if defined(SPIDER_DISTRO_DESKTOP)
namespace spider { namespace spider {
@@ -218,7 +225,8 @@ namespace spider {
struct termios oldt, newt; struct termios oldt, newt;
tcgetattr(STDIN_FILENO, &oldt); tcgetattr(STDIN_FILENO, &oldt);
newt = oldt; newt = oldt;
newt.c_lflag &= ~(ICANON | ECHO); //newt.c_lflag &= ~(ICANON | ECHO);
newt.c_lflag &= static_cast<tcflag_t>(~(ICANON | ECHO)); //added this line
tcsetattr(STDIN_FILENO, TCSANOW, &newt); tcsetattr(STDIN_FILENO, TCSANOW, &newt);
u8 result = Terminal::UNKNOWN; u8 result = Terminal::UNKNOWN;
@@ -247,7 +255,8 @@ namespace spider {
} }
} else if (ch == 10) result = Terminal::ENTER; } else if (ch == 10) result = Terminal::ENTER;
else if (ch == 127) result = Terminal::BACKSPACE; else if (ch == 127) result = Terminal::BACKSPACE;
else result = (u8)ch; else result = static_cast<u8>(ch); //added this line
//else result = (u8)ch;
tcsetattr(STDIN_FILENO, TCSANOW, &oldt); tcsetattr(STDIN_FILENO, TCSANOW, &oldt);
return result; return result;