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Matt Spraggs 2024-01-19 22:51:15 -03:00 committed by GitHub
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2 changed files with 223 additions and 279 deletions

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@ -217,145 +217,24 @@ void RunContext::reset(void)
#define CODE_WIDTH 6 #define CODE_WIDTH 6
#define CODE_MOD setw(CODE_WIDTH) << left #define CODE_MOD setw(CODE_WIDTH) << left
// Instruction operator //////////////////////////////////////////////////////// auto readConstant(Program::const_iterator ip)
ostream &Latan::operator<<(ostream& out, const Instruction& ins) -> std::tuple<double, Program::const_iterator>
{ {
ins.print(out); double value = 0.0;
std::copy(ip, ip + sizeof(double), reinterpret_cast<std::uint8_t*>(&value));
return out; return std::make_tuple(value, ip + sizeof(double));
} }
// Push constructors /////////////////////////////////////////////////////////// auto readAddress(Program::const_iterator ip)
Push::Push(const double val) -> std::tuple<unsigned int, Program::const_iterator>
: type_(ArgType::Constant)
, val_(val)
, address_(0)
, name_("")
{}
Push::Push(const unsigned int address, const string &name)
: type_(ArgType::Variable)
, val_(0.0)
, address_(address)
, name_(name)
{}
// Push execution //////////////////////////////////////////////////////////////
void Push::operator()(RunContext &context) const
{ {
if (type_ == ArgType::Constant) unsigned int address = 0.0;
{ const auto end = ip + sizeof(unsigned int);
context.stack().push(val_); std::copy(ip, end, reinterpret_cast<std::uint8_t*>(&address));
}
else
{
context.stack().push(context.getVariable(address_));
}
context.incrementInsIndex();
}
// Push print ////////////////////////////////////////////////////////////////// return std::make_tuple(address, end);
void Push::print(ostream &out) const
{
out << CODE_MOD << "push";
if (type_ == ArgType::Constant)
{
out << CODE_MOD << val_;
} }
else
{
out << CODE_MOD << name_ << " @v" << address_;
}
}
// Pop constructor /////////////////////////////////////////////////////////////
Pop::Pop(const unsigned int address, const string &name)
: address_(address)
, name_(name)
{}
// Pop execution ///////////////////////////////////////////////////////////////
void Pop::operator()(RunContext &context) const
{
if (!name_.empty())
{
context.setVariable(address_, context.stack().top());
}
context.stack().pop();
context.incrementInsIndex();
}
// Pop print ///////////////////////////////////////////////////////////////////
void Pop::print(ostream &out) const
{
out << CODE_MOD << "pop" << CODE_MOD << name_ << " @v" << address_;
}
// Store constructor ///////////////////////////////////////////////////////////
Store::Store(const unsigned int address, const string &name)
: address_(address)
, name_(name)
{}
// Store execution /////////////////////////////////////////////////////////////
void Store::operator()(RunContext &context) const
{
if (!name_.empty())
{
context.setVariable(address_, context.stack().top());
}
context.incrementInsIndex();
}
// Store print /////////////////////////////////////////////////////////////////
void Store::print(ostream &out) const
{
out << CODE_MOD << "store" << CODE_MOD << name_ << " @v" << address_;
}
// Call constructor ////////////////////////////////////////////////////////////
Call::Call(const unsigned int address, const string &name)
: address_(address)
, name_(name)
{}
// Call execution //////////////////////////////////////////////////////////////
void Call::operator()(RunContext &context) const
{
context.stack().push((*context.getFunction(address_))(context.stack()));
context.incrementInsIndex();
}
// Call print //////////////////////////////////////////////////////////////////
void Call::print(ostream &out) const
{
out << CODE_MOD << "call" << CODE_MOD << name_ << " @f" << address_;
}
// Math operations /////////////////////////////////////////////////////////////
#define DEF_OP(name, nArg, exp, insName)\
void name::operator()(RunContext &context) const\
{\
double x[nArg];\
for (int i = 0; i < nArg; ++i)\
{\
x[nArg-1-i] = context.stack().top();\
context.stack().pop();\
}\
context.stack().push(exp);\
context.incrementInsIndex();\
}\
void name::print(ostream &out) const\
{\
out << CODE_MOD << insName;\
}
DEF_OP(Neg, 1, -x[0], "neg")
DEF_OP(Add, 2, x[0] + x[1], "add")
DEF_OP(Sub, 2, x[0] - x[1], "sub")
DEF_OP(Mul, 2, x[0]*x[1], "mul")
DEF_OP(Div, 2, x[0]/x[1], "div")
DEF_OP(Pow, 2, pow(x[0],x[1]), "pow")
/****************************************************************************** /******************************************************************************
* ExprNode implementation * * ExprNode implementation *
@ -442,29 +321,35 @@ ostream &Latan::operator<<(ostream &out, const ExprNode &n)
return out; return out;
} }
#define PUSH_INS(program, type, ...)\ // Bytecode helper functions ///////////////////////////////////////////////////
program.push_back(unique_ptr<type>(new type(__VA_ARGS__))) void pushInstruction(Program &program, const Instruction instruction) {
#define GET_ADDRESS(address, table, name)\ program.push_back(static_cast<std::uint8_t>(instruction));
try\ }
{\
address = (table).at(name);\ void pushAddress(Program &program, const unsigned int address) {
}\ const auto address_ptr = reinterpret_cast<const std::uint8_t*>(&address);
catch (out_of_range)\ const auto size = sizeof(unsigned int);
{\ program.insert(program.end(), address_ptr, address_ptr + size);
address = (table).size();\ }
(table)[(name)] = address;\
}\ void pushConstant(Program &program, const double value) {
const auto value_ptr = reinterpret_cast<const std::uint8_t*>(&value);
const auto size = sizeof(double);
program.insert(program.end(), value_ptr, value_ptr + size);
}
// VarNode compile ///////////////////////////////////////////////////////////// // VarNode compile /////////////////////////////////////////////////////////////
void VarNode::compile(Program &program, RunContext &context) const void VarNode::compile(Program &program, RunContext &context) const
{ {
PUSH_INS(program, Push, context.getVariableAddress(getName()), getName()); pushInstruction(program, Instruction::LOAD);
pushAddress(program, context.getVariableAddress(getName()));
} }
// CstNode compile ///////////////////////////////////////////////////////////// // CstNode compile /////////////////////////////////////////////////////////////
void CstNode::compile(Program &program, RunContext &context __dumb) const void CstNode::compile(Program &program, RunContext &context __dumb) const
{ {
PUSH_INS(program, Push, strTo<double>(getName())); pushInstruction(program, Instruction::CONST);
pushConstant(program, strTo<double>(getName()));
} }
// SemicolonNode compile /////////////////////////////////////////////////////// // SemicolonNode compile ///////////////////////////////////////////////////////
@ -482,6 +367,10 @@ void SemicolonNode::compile(Program &program, RunContext &context) const
{ {
n[i].compile(program, context); n[i].compile(program, context);
} }
// Where a variable has just been assigned, pop it off the stack.
if (isAssign) {
pushInstruction(program, Instruction::POP);
}
} }
} }
@ -492,19 +381,10 @@ void AssignNode::compile(Program &program, RunContext &context) const
if (isDerivedFrom<VarNode>(&n[0])) if (isDerivedFrom<VarNode>(&n[0]))
{ {
bool hasSemicolonParent = isDerivedFrom<SemicolonNode>(getParent());
unsigned int address;
n[1].compile(program, context); n[1].compile(program, context);
address = context.addVariable(n[0].getName()); const unsigned int address = context.addVariable(n[0].getName());
if (hasSemicolonParent) pushInstruction(program, Instruction::STORE);
{ pushAddress(program, address);
PUSH_INS(program, Pop, address, n[0].getName());
}
else
{
PUSH_INS(program, Store, address, n[0].getName());
}
} }
else else
{ {
@ -519,19 +399,37 @@ void AssignNode::compile(Program &program, RunContext &context) const
void MathOpNode::compile(Program &program, RunContext &context) const void MathOpNode::compile(Program &program, RunContext &context) const
{ {
#define PUSH_BINARY_OP(op, instruction) \
case op: \
pushInstruction(program, Instruction::instruction); \
break;
auto &n = *this; auto &n = *this;
for (Index i = 0; i < n.getNArg(); ++i) for (Index i = 0; i < n.getNArg(); ++i)
{ {
n[i].compile(program, context); n[i].compile(program, context);
} }
IFNODE("-", 1) PUSH_INS(program, Neg,); if (n.getName() == "-" and n.getNArg() == 1) {
ELIFNODE("+", 2) PUSH_INS(program, Add,); pushInstruction(program, Instruction::NEG);
ELIFNODE("-", 2) PUSH_INS(program, Sub,); return;
ELIFNODE("*", 2) PUSH_INS(program, Mul,); }
ELIFNODE("/", 2) PUSH_INS(program, Div,);
ELIFNODE("^", 2) PUSH_INS(program, Pow,); if (getNArg() != 2) {
ELSE LATAN_ERROR(Compilation, "unknown operator '" + getName() + "'"); LATAN_ERROR(Compilation, "unknown operator '" + getName() + "'");
}
switch (getName()[0]) {
PUSH_BINARY_OP('+', ADD)
PUSH_BINARY_OP('-', SUB)
PUSH_BINARY_OP('*', MUL)
PUSH_BINARY_OP('/', DIV)
PUSH_BINARY_OP('^', POW)
default:
LATAN_ERROR(Compilation, "unknown operator '" + getName() + "'");
}
#undef PUSH_BINARY_OP
} }
// FuncNode compile //////////////////////////////////////////////////////////// // FuncNode compile ////////////////////////////////////////////////////////////
@ -543,7 +441,8 @@ void FuncNode::compile(Program &program, RunContext &context) const
{ {
n[i].compile(program, context); n[i].compile(program, context);
} }
PUSH_INS(program, Call, context.getFunctionAddress(getName()), getName()); pushInstruction(program, Instruction::CALL);
pushAddress(program, context.getFunctionAddress(getName()));
} }
// ReturnNode compile //////////////////////////////////////////////////////////// // ReturnNode compile ////////////////////////////////////////////////////////////
@ -552,7 +451,7 @@ void ReturnNode::compile(Program &program, RunContext &context) const
auto &n = *this; auto &n = *this;
n[0].compile(program, context); n[0].compile(program, context);
program.push_back(nullptr); pushInstruction(program, Instruction::RET);
} }
/****************************************************************************** /******************************************************************************
@ -582,7 +481,7 @@ MathInterpreter::MathInterpreter(const std::string &code)
// access ////////////////////////////////////////////////////////////////////// // access //////////////////////////////////////////////////////////////////////
const Instruction * MathInterpreter::operator[](const Index i) const const Instruction * MathInterpreter::operator[](const Index i) const
{ {
return program_[i].get(); return reinterpret_cast<const Instruction*>(&program_[i]);
} }
const ExprNode * MathInterpreter::getAST(void) const const ExprNode * MathInterpreter::getAST(void) const
@ -592,7 +491,7 @@ const ExprNode * MathInterpreter::getAST(void) const
void MathInterpreter::push(const Instruction *i) void MathInterpreter::push(const Instruction *i)
{ {
program_.push_back(unique_ptr<const Instruction>(i)); pushInstruction(program_, *i);
} }
// initialization ////////////////////////////////////////////////////////////// // initialization //////////////////////////////////////////////////////////////
@ -695,7 +594,7 @@ void MathInterpreter::compile(RunContext &context)
root_->compile(program_, context); root_->compile(program_, context);
for (unsigned int i = 0; i < program_.size(); ++i) for (unsigned int i = 0; i < program_.size(); ++i)
{ {
if (!program_[i]) if (static_cast<Instruction>(program_[i]) == Instruction::RET)
{ {
gotReturn = true; gotReturn = true;
program_.resize(i); program_.resize(i);
@ -726,20 +625,145 @@ void MathInterpreter::operator()(RunContext &context)
void MathInterpreter::execute(RunContext &context) const void MathInterpreter::execute(RunContext &context) const
{ {
context.setInsIndex(0); #define BINARY_OP_CASE(instruction, expr) \
while (context.getInsIndex() != program_.size()) case Instruction::instruction: { \
{ const auto second = context.stack().top(); \
(*(program_[context.getInsIndex()]))(context); context.stack().pop(); \
const auto first = context.stack().top(); \
context.stack().pop(); \
context.stack().push(expr); \
break; \
} }
auto ip = program_.begin();
while (ip != program_.end()) {
const auto instruction = static_cast<Instruction>(*ip);
ip++;
switch (instruction) {
BINARY_OP_CASE(ADD, first + second)
BINARY_OP_CASE(SUB, first - second)
BINARY_OP_CASE(MUL, first * second)
BINARY_OP_CASE(DIV, first / second)
BINARY_OP_CASE(POW, std::pow(first, second))
case Instruction::NEG: {
const auto operand = context.stack().top();
context.stack().pop();
context.stack().push(-operand);
break;
}
case Instruction::CONST: {
double value = 0.0;
std::tie(value, ip) = readConstant(ip);
context.stack().push(value);
break;
}
case Instruction::POP:
context.stack().pop();
break;
case Instruction::LOAD: {
unsigned int address = 0;
std::tie(address, ip) = readAddress(ip);
context.stack().push(context.getVariable(address));
break;
}
case Instruction::STORE: {
unsigned int address = 0;
std::tie(address, ip) = readAddress(ip);
context.setVariable(address, context.stack().top());
break;
}
case Instruction::CALL: {
unsigned int address = 0;
std::tie(address, ip) = readAddress(ip);
auto& stack = context.stack();
stack.push((*context.getFunction(address))(stack));
break;
}
case Instruction::RET:
break;
}
}
#undef BINARY_OP_CASE
}
Program::const_iterator instructionToStream(
ostream &out, Program::const_iterator ip)
{
const auto instruction = static_cast<Instruction>(*ip);
ip++;
switch (instruction) {
case Instruction::ADD:
out << "ADD";
break;
case Instruction::SUB:
out << "SUB";
break;
case Instruction::MUL:
out << "MUL";
break;
case Instruction::DIV:
out << "DIV";
break;
case Instruction::POW:
out << "POW";
break;
case Instruction::NEG:
out << "NEG";
break;
case Instruction::CONST: {
double value = 0.0;
std::tie(value, ip) = readConstant(ip);
out << CODE_MOD << setfill(' ') << "CONST" << value;
break;
}
case Instruction::POP:
out << "POP";
break;
case Instruction::LOAD: {
unsigned int address = 0;
std::tie(address, ip) = readAddress(ip);
out << CODE_MOD << setfill(' ') << "LOAD" << address;
break;
}
case Instruction::STORE: {
unsigned int address = 0;
std::tie(address, ip) = readAddress(ip);
out << CODE_MOD << setfill(' ') << "STORE" << address;
break;
}
case Instruction::CALL: {
unsigned int address = 0;
std::tie(address, ip) = readAddress(ip);
out << CODE_MOD << setfill(' ') << "CALL" << address;
break;
}
case Instruction::RET:
out << "RET";
break;
}
return ip;
}
ostream &programToStream(ostream &out, const Program &program)
{
auto ip = program.begin();
while (ip != program.end()) {
const auto i = std::distance(program.begin(), ip);
cout << setw(4) << setfill('0') << right << i << " ";
ip = instructionToStream(out, ip);
out << '\n';
}
return out;
} }
// IO ////////////////////////////////////////////////////////////////////////// // IO //////////////////////////////////////////////////////////////////////////
ostream &Latan::operator<<(ostream &out, const MathInterpreter &program) ostream &Latan::operator<<(ostream &out, const MathInterpreter &program)
{ {
for (unsigned int i = 0; i < program.program_.size(); ++i) return programToStream(out, program.program_);
{
out << *(program.program_[i]) << endl;
}
return out;
} }

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@ -20,6 +20,8 @@
#ifndef Latan_MathInterpreter_hpp_ #ifndef Latan_MathInterpreter_hpp_
#define Latan_MathInterpreter_hpp_ #define Latan_MathInterpreter_hpp_
#include <cstdint>
#include <LatAnalyze/Functional/Function.hpp> #include <LatAnalyze/Functional/Function.hpp>
#include <LatAnalyze/Global.hpp> #include <LatAnalyze/Global.hpp>
#include <LatAnalyze/Core/ParserState.hpp> #include <LatAnalyze/Core/ParserState.hpp>
@ -79,108 +81,26 @@ private:
* Instruction classes * * Instruction classes *
******************************************************************************/ ******************************************************************************/
// Abstract base // Abstract base
class Instruction
{ enum class Instruction : std::uint8_t {
public: ADD,
// destructor SUB,
virtual ~Instruction(void) = default; MUL,
// instruction execution DIV,
virtual void operator()(RunContext &context) const = 0; POW,
friend std::ostream & operator<<(std::ostream &out, const Instruction &ins); NEG,
private: CONST,
virtual void print(std::ostream &out) const = 0; POP,
LOAD,
STORE,
CALL,
RET,
}; };
std::ostream & operator<<(std::ostream &out, const Instruction &ins); std::ostream & operator<<(std::ostream &out, const Instruction &ins);
// Instruction container // Instruction container
typedef std::vector<std::unique_ptr<const Instruction>> Program; typedef std::vector<std::uint8_t> Program;
// Push
class Push: public Instruction
{
private:
enum class ArgType
{
Constant = 0,
Variable = 1
};
public:
//constructors
explicit Push(const double val);
explicit Push(const unsigned int address, const std::string &name);
// instruction execution
virtual void operator()(RunContext &context) const;
private:
virtual void print(std::ostream& out) const;
private:
ArgType type_;
double val_;
unsigned int address_;
std::string name_;
};
// Pop
class Pop: public Instruction
{
public:
//constructor
explicit Pop(const unsigned int address, const std::string &name);
// instruction execution
virtual void operator()(RunContext &context) const;
private:
virtual void print(std::ostream& out) const;
private:
unsigned int address_;
std::string name_;
};
// Store
class Store: public Instruction
{
public:
//constructor
explicit Store(const unsigned int address, const std::string &name);
// instruction execution
virtual void operator()(RunContext &context) const;
private:
virtual void print(std::ostream& out) const;
private:
unsigned int address_;
std::string name_;
};
// Call function
class Call: public Instruction
{
public:
//constructor
explicit Call(const unsigned int address, const std::string &name);
// instruction execution
virtual void operator()(RunContext &context) const;
private:
virtual void print(std::ostream& out) const;
private:
unsigned int address_;
std::string name_;
};
// Floating point operations
#define DECL_OP(name)\
class name: public Instruction\
{\
public:\
virtual void operator()(RunContext &context) const;\
private:\
virtual void print(std::ostream &out) const;\
}
DECL_OP(Neg);
DECL_OP(Add);
DECL_OP(Sub);
DECL_OP(Mul);
DECL_OP(Div);
DECL_OP(Pow);
/****************************************************************************** /******************************************************************************
* Expression node classes * * Expression node classes *