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remove stack<>

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This commit is contained in:
blueloveTH 2024-06-04 23:19:07 +08:00
parent 1c82060daf
commit be3d4ffaf9
14 changed files with 127 additions and 173 deletions
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55
include/pocketpy/common/vector.hpp
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@ -213,6 +213,12 @@ struct vector {
if constexpr(!std::is_trivially_destructible_v<T>) { _data[_size].~T(); } if constexpr(!std::is_trivially_destructible_v<T>) { _data[_size].~T(); }
} }
T popx_back() {
T retval = std::move(back());
pop_back();
return retval;
}
void clear() { void clear() {
std::destroy(begin(), end()); std::destroy(begin(), end());
_size = 0; _size = 0;
@ -240,55 +246,6 @@ struct vector {
} }
}; };
template <typename T, typename Container = vector<T>>
class stack {
Container vec;
public:
void push(const T& t) { vec.push_back(t); }
void push(T&& t) { vec.push_back(std::move(t)); }
template <typename... Args>
void emplace(Args&&... args) {
vec.emplace_back(std::forward<Args>(args)...);
}
void pop() { vec.pop_back(); }
void clear() { vec.clear(); }
bool empty() const { return vec.empty(); }
typename Container::size_type size() const { return vec.size(); }
T& top() { return vec.back(); }
const T& top() const { return vec.back(); }
T popx() {
T t = std::move(vec.back());
vec.pop_back();
return t;
}
void reserve(int n) { vec.reserve(n); }
Container& container() { return vec; }
const Container& container() const { return vec; }
};
template <typename T, typename Container = vector<T>>
class stack_no_copy : public stack<T, Container> {
public:
stack_no_copy() = default;
stack_no_copy(const stack_no_copy& other) = delete;
stack_no_copy& operator= (const stack_no_copy& other) = delete;
stack_no_copy(stack_no_copy&& other) noexcept = default;
stack_no_copy& operator= (stack_no_copy&& other) noexcept = default;
};
} // namespace pkpy } // namespace pkpy
namespace pkpy { namespace pkpy {

4
include/pocketpy/compiler/compiler.hpp
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@ -19,7 +19,7 @@ class Compiler {
static PrattRule rules[kTokenCount]; static PrattRule rules[kTokenCount];
Lexer lexer; Lexer lexer;
stack_no_copy<CodeEmitContext> contexts; vector<CodeEmitContext> contexts;
VM* vm; VM* vm;
bool unknown_global_scope; // for eval/exec() call bool unknown_global_scope; // for eval/exec() call
// for parsing token stream // for parsing token stream
@ -39,7 +39,7 @@ class Compiler {
void advance(int delta = 1) { i += delta; } void advance(int delta = 1) { i += delta; }
CodeEmitContext* ctx() { return &contexts.top(); } CodeEmitContext* ctx() { return &contexts.back(); }
CompileMode mode() const { return lexer.src->mode; } CompileMode mode() const { return lexer.src->mode; }

6
include/pocketpy/compiler/expr.hpp
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@ -110,9 +110,7 @@ struct CodeEmitContext {
VM* vm; VM* vm;
FuncDecl_ func; // optional FuncDecl_ func; // optional
CodeObject_ co; // 1 CodeEmitContext <=> 1 CodeObject_ CodeObject_ co; // 1 CodeEmitContext <=> 1 CodeObject_
// some bugs on MSVC (error C2280) when using Expr_vector vector<Expr_> s_expr;
// so we use stack_no_copy instead
stack_no_copy<Expr_> s_expr;
int level; int level;
vector<Str> global_names; vector<Str> global_names;
@ -441,7 +439,7 @@ struct BinaryExpr : Expr {
BinaryExpr(bool inplace = false) : inplace(inplace) {} BinaryExpr(bool inplace = false) : inplace(inplace) {}
bool is_compare() const override; bool is_compare() const override;
void _emit_compare(CodeEmitContext*, small_vector_2<int, 6>&); void _emit_compare(CodeEmitContext*, small_vector_2<int, 8>&);
void emit_(CodeEmitContext* ctx) override; void emit_(CodeEmitContext* ctx) override;
}; };

2
include/pocketpy/compiler/lexer.hpp
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@ -105,7 +105,7 @@ struct Lexer {
const char* curr_char; const char* curr_char;
int current_line = 1; int current_line = 1;
vector<Token> nexts; vector<Token> nexts;
stack_no_copy<int, small_vector_2<int, 8>> indents; small_vector_2<int, 8> indents;
int brackets_level = 0; int brackets_level = 0;
char peekchar() const { return *curr_char; } char peekchar() const { return *curr_char; }

2
include/pocketpy/interpreter/profiler.hpp
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@ -26,7 +26,7 @@ struct _FrameRecord {
struct LineProfiler { struct LineProfiler {
// filename -> records // filename -> records
std::map<std::string_view, vector<_LineRecord>> records; std::map<std::string_view, vector<_LineRecord>> records;
stack_no_copy<_FrameRecord> frames; vector<_FrameRecord> frames;
vector<FuncDecl*> functions; vector<FuncDecl*> functions;
void begin(); void begin();

2
include/pocketpy/interpreter/vm.hpp
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@ -174,7 +174,7 @@ public:
struct { struct {
PyObject* error; PyObject* error;
stack_no_copy<ArgsView> s_view; vector<ArgsView> s_view;
} __c; } __c;
PyVar StopIteration; // a special Exception class PyVar StopIteration; // a special Exception class

2
include/pocketpy/objects/codeobject.hpp
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@ -120,7 +120,7 @@ struct FuncDecl {
CodeObject_ code; // code object of this function CodeObject_ code; // code object of this function
small_vector_2<int, 6> args; // indices in co->varnames small_vector_2<int, 8> args; // indices in co->varnames
small_vector_2<KwArg, 6> kwargs; // indices in co->varnames small_vector_2<KwArg, 6> kwargs; // indices in co->varnames
int starred_arg = -1; // index in co->varnames, -1 if no *arg int starred_arg = -1; // index in co->varnames, -1 if no *arg

4
include/pocketpy/objects/error.hpp
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@ -44,7 +44,7 @@ struct Exception {
src(src), lineno(lineno), cursor(cursor), name(name) {} src(src), lineno(lineno), cursor(cursor), name(name) {}
}; };
stack<Frame> stacktrace; vector<Frame> stacktrace;
Exception(StrName type) : type(type), is_re(true), _ip_on_error(-1), _code_on_error(nullptr), _self(nullptr) {} Exception(StrName type) : type(type), is_re(true), _ip_on_error(-1), _code_on_error(nullptr), _self(nullptr) {}
@ -56,7 +56,7 @@ struct Exception {
template <typename... Args> template <typename... Args>
void st_push(Args&&... args) { void st_push(Args&&... args) {
if(stacktrace.size() >= 7) return; if(stacktrace.size() >= 7) return;
stacktrace.emplace(std::forward<Args>(args)...); stacktrace.emplace_back(std::forward<Args>(args)...);
} }
Str summary() const; Str summary() const;

168
src/compiler/compiler.cpp
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@ -16,7 +16,7 @@ NameScope Compiler::name_scope() const {
CodeObject_ Compiler::push_global_context() { CodeObject_ Compiler::push_global_context() {
CodeObject_ co = std::make_shared<CodeObject>(lexer.src, lexer.src->filename); CodeObject_ co = std::make_shared<CodeObject>(lexer.src, lexer.src->filename);
co->start_line = i == 0 ? 1 : prev().line; co->start_line = i == 0 ? 1 : prev().line;
contexts.push(CodeEmitContext(vm, co, contexts.size())); contexts.push_back(CodeEmitContext(vm, co, contexts.size()));
return co; return co;
} }
@ -25,8 +25,8 @@ FuncDecl_ Compiler::push_f_context(Str name) {
decl->code = std::make_shared<CodeObject>(lexer.src, name); decl->code = std::make_shared<CodeObject>(lexer.src, name);
decl->code->start_line = i == 0 ? 1 : prev().line; decl->code->start_line = i == 0 ? 1 : prev().line;
decl->nested = name_scope() == NAME_LOCAL; decl->nested = name_scope() == NAME_LOCAL;
contexts.push(CodeEmitContext(vm, decl->code, contexts.size())); contexts.push_back(CodeEmitContext(vm, decl->code, contexts.size()));
contexts.top().func = decl; contexts.back().func = decl;
return decl; return decl;
} }
@ -56,7 +56,7 @@ void Compiler::pop_context() {
} }
} }
// pre-compute func->is_simple // pre-compute func->is_simple
FuncDecl_ func = contexts.top().func; FuncDecl_ func = contexts.back().func;
if(func) { if(func) {
// check generator // check generator
for(Bytecode bc: func->code->codes) { for(Bytecode bc: func->code->codes) {
@ -91,7 +91,7 @@ void Compiler::pop_context() {
assert(func->type != FuncType::UNSET); assert(func->type != FuncType::UNSET);
} }
contexts.pop(); contexts.pop_back();
} }
void Compiler::init_pratt_rules() { void Compiler::init_pratt_rules() {
@ -199,15 +199,15 @@ void Compiler::EXPR_TUPLE(bool allow_slice) {
if(!match(TK(","))) return; if(!match(TK(","))) return;
// tuple expression // tuple expression
Expr_vector items; Expr_vector items;
items.push_back(ctx()->s_expr.popx()); items.push_back(ctx()->s_expr.popx_back());
do { do {
if(curr().brackets_level) match_newlines_repl(); if(curr().brackets_level) match_newlines_repl();
if(!is_expression(allow_slice)) break; if(!is_expression(allow_slice)) break;
parse_expression(PREC_LOWEST + 1, allow_slice); parse_expression(PREC_LOWEST + 1, allow_slice);
items.push_back(ctx()->s_expr.popx()); items.push_back(ctx()->s_expr.popx_back());
if(curr().brackets_level) match_newlines_repl(); if(curr().brackets_level) match_newlines_repl();
} while(match(TK(","))); } while(match(TK(",")));
ctx()->s_expr.push(make_expr<TupleExpr>(std::move(items))); ctx()->s_expr.push_back(make_expr<TupleExpr>(std::move(items)));
} }
// special case for `for loop` and `comp` // special case for `for loop` and `comp`
@ -221,15 +221,15 @@ Expr_ Compiler::EXPR_VARS() {
return make_expr<TupleExpr>(std::move(items)); return make_expr<TupleExpr>(std::move(items));
} }
void Compiler::exprLiteral() { ctx()->s_expr.push(make_expr<LiteralExpr>(prev().value)); } void Compiler::exprLiteral() { ctx()->s_expr.push_back(make_expr<LiteralExpr>(prev().value)); }
void Compiler::exprLong() { ctx()->s_expr.push(make_expr<LongExpr>(prev().str())); } void Compiler::exprLong() { ctx()->s_expr.push_back(make_expr<LongExpr>(prev().str())); }
void Compiler::exprImag() { ctx()->s_expr.push(make_expr<ImagExpr>(std::get<f64>(prev().value))); } void Compiler::exprImag() { ctx()->s_expr.push_back(make_expr<ImagExpr>(std::get<f64>(prev().value))); }
void Compiler::exprBytes() { ctx()->s_expr.push(make_expr<BytesExpr>(std::get<Str>(prev().value))); } void Compiler::exprBytes() { ctx()->s_expr.push_back(make_expr<BytesExpr>(std::get<Str>(prev().value))); }
void Compiler::exprFString() { ctx()->s_expr.push(make_expr<FStringExpr>(std::get<Str>(prev().value))); } void Compiler::exprFString() { ctx()->s_expr.push_back(make_expr<FStringExpr>(std::get<Str>(prev().value))); }
void Compiler::exprLambda() { void Compiler::exprLambda() {
FuncDecl_ decl = push_f_context("<lambda>"); FuncDecl_ decl = push_f_context("<lambda>");
@ -243,60 +243,60 @@ void Compiler::exprLambda() {
ctx()->emit_expr(); ctx()->emit_expr();
ctx()->emit_(OP_RETURN_VALUE, BC_NOARG, BC_KEEPLINE); ctx()->emit_(OP_RETURN_VALUE, BC_NOARG, BC_KEEPLINE);
pop_context(); pop_context();
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
void Compiler::exprOr() { void Compiler::exprOr() {
auto e = make_expr<OrExpr>(); auto e = make_expr<OrExpr>();
e->lhs = ctx()->s_expr.popx(); e->lhs = ctx()->s_expr.popx_back();
parse_expression(PREC_LOGICAL_OR + 1); parse_expression(PREC_LOGICAL_OR + 1);
e->rhs = ctx()->s_expr.popx(); e->rhs = ctx()->s_expr.popx_back();
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
void Compiler::exprAnd() { void Compiler::exprAnd() {
auto e = make_expr<AndExpr>(); auto e = make_expr<AndExpr>();
e->lhs = ctx()->s_expr.popx(); e->lhs = ctx()->s_expr.popx_back();
parse_expression(PREC_LOGICAL_AND + 1); parse_expression(PREC_LOGICAL_AND + 1);
e->rhs = ctx()->s_expr.popx(); e->rhs = ctx()->s_expr.popx_back();
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
void Compiler::exprTernary() { void Compiler::exprTernary() {
auto e = make_expr<TernaryExpr>(); auto e = make_expr<TernaryExpr>();
e->true_expr = ctx()->s_expr.popx(); e->true_expr = ctx()->s_expr.popx_back();
// cond // cond
parse_expression(PREC_TERNARY + 1); parse_expression(PREC_TERNARY + 1);
e->cond = ctx()->s_expr.popx(); e->cond = ctx()->s_expr.popx_back();
consume(TK("else")); consume(TK("else"));
// if false // if false
parse_expression(PREC_TERNARY + 1); parse_expression(PREC_TERNARY + 1);
e->false_expr = ctx()->s_expr.popx(); e->false_expr = ctx()->s_expr.popx_back();
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
void Compiler::exprBinaryOp() { void Compiler::exprBinaryOp() {
auto e = make_expr<BinaryExpr>(); auto e = make_expr<BinaryExpr>();
e->op = prev().type; e->op = prev().type;
e->lhs = ctx()->s_expr.popx(); e->lhs = ctx()->s_expr.popx_back();
parse_expression(rules[e->op].precedence + 1); parse_expression(rules[e->op].precedence + 1);
e->rhs = ctx()->s_expr.popx(); e->rhs = ctx()->s_expr.popx_back();
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
void Compiler::exprNot() { void Compiler::exprNot() {
parse_expression(PREC_LOGICAL_NOT + 1); parse_expression(PREC_LOGICAL_NOT + 1);
ctx()->s_expr.push(make_expr<NotExpr>(ctx()->s_expr.popx())); ctx()->s_expr.push_back(make_expr<NotExpr>(ctx()->s_expr.popx_back()));
} }
void Compiler::exprUnaryOp() { void Compiler::exprUnaryOp() {
TokenIndex op = prev().type; TokenIndex op = prev().type;
parse_expression(PREC_UNARY + 1); parse_expression(PREC_UNARY + 1);
switch(op) { switch(op) {
case TK("-"): ctx()->s_expr.push(make_expr<NegatedExpr>(ctx()->s_expr.popx())); break; case TK("-"): ctx()->s_expr.push_back(make_expr<NegatedExpr>(ctx()->s_expr.popx_back())); break;
case TK("~"): ctx()->s_expr.push(make_expr<InvertExpr>(ctx()->s_expr.popx())); break; case TK("~"): ctx()->s_expr.push_back(make_expr<InvertExpr>(ctx()->s_expr.popx_back())); break;
case TK("*"): ctx()->s_expr.push(make_expr<StarredExpr>(1, ctx()->s_expr.popx())); break; case TK("*"): ctx()->s_expr.push_back(make_expr<StarredExpr>(1, ctx()->s_expr.popx_back())); break;
case TK("**"): ctx()->s_expr.push(make_expr<StarredExpr>(2, ctx()->s_expr.popx())); break; case TK("**"): ctx()->s_expr.push_back(make_expr<StarredExpr>(2, ctx()->s_expr.popx_back())); break;
default: assert(false); default: assert(false);
} }
} }
@ -306,9 +306,9 @@ void Compiler::exprGroup() {
EXPR_TUPLE(); // () is just for change precedence EXPR_TUPLE(); // () is just for change precedence
match_newlines_repl(); match_newlines_repl();
consume(TK(")")); consume(TK(")"));
if(ctx()->s_expr.top()->is_tuple()) return; if(ctx()->s_expr.back()->is_tuple()) return;
Expr_ g = make_expr<GroupedExpr>(ctx()->s_expr.popx()); Expr_ g = make_expr<GroupedExpr>(ctx()->s_expr.popx_back());
ctx()->s_expr.push(std::move(g)); ctx()->s_expr.push_back(std::move(g));
} }
void Compiler::consume_comp(unique_ptr_128<CompExpr> ce, Expr_ expr) { void Compiler::consume_comp(unique_ptr_128<CompExpr> ce, Expr_ expr) {
@ -316,13 +316,13 @@ void Compiler::consume_comp(unique_ptr_128<CompExpr> ce, Expr_ expr) {
ce->vars = EXPR_VARS(); ce->vars = EXPR_VARS();
consume(TK("in")); consume(TK("in"));
parse_expression(PREC_TERNARY + 1); parse_expression(PREC_TERNARY + 1);
ce->iter = ctx()->s_expr.popx(); ce->iter = ctx()->s_expr.popx_back();
match_newlines_repl(); match_newlines_repl();
if(match(TK("if"))) { if(match(TK("if"))) {
parse_expression(PREC_TERNARY + 1); parse_expression(PREC_TERNARY + 1);
ce->cond = ctx()->s_expr.popx(); ce->cond = ctx()->s_expr.popx_back();
} }
ctx()->s_expr.push(std::move(ce)); ctx()->s_expr.push_back(std::move(ce));
match_newlines_repl(); match_newlines_repl();
} }
@ -333,7 +333,7 @@ void Compiler::exprList() {
match_newlines_repl(); match_newlines_repl();
if(curr().type == TK("]")) break; if(curr().type == TK("]")) break;
EXPR(); EXPR();
items.push_back(ctx()->s_expr.popx()); items.push_back(ctx()->s_expr.popx_back());
match_newlines_repl(); match_newlines_repl();
if(items.size() == 1 && match(TK("for"))) { if(items.size() == 1 && match(TK("for"))) {
consume_comp(make_expr<ListCompExpr>(), std::move(items[0])); consume_comp(make_expr<ListCompExpr>(), std::move(items[0]));
@ -345,7 +345,7 @@ void Compiler::exprList() {
consume(TK("]")); consume(TK("]"));
auto e = make_expr<ListExpr>(std::move(items)); auto e = make_expr<ListExpr>(std::move(items));
e->line = line; // override line e->line = line; // override line
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
void Compiler::exprMap() { void Compiler::exprMap() {
@ -355,22 +355,22 @@ void Compiler::exprMap() {
match_newlines_repl(); match_newlines_repl();
if(curr().type == TK("}")) break; if(curr().type == TK("}")) break;
EXPR(); EXPR();
int star_level = ctx()->s_expr.top()->star_level(); int star_level = ctx()->s_expr.back()->star_level();
if(star_level == 2 || curr().type == TK(":")) { parsing_dict = true; } if(star_level == 2 || curr().type == TK(":")) { parsing_dict = true; }
if(parsing_dict) { if(parsing_dict) {
auto dict_item = make_expr<DictItemExpr>(); auto dict_item = make_expr<DictItemExpr>();
if(star_level == 2) { if(star_level == 2) {
dict_item->key = nullptr; dict_item->key = nullptr;
dict_item->value = ctx()->s_expr.popx(); dict_item->value = ctx()->s_expr.popx_back();
} else { } else {
consume(TK(":")); consume(TK(":"));
EXPR(); EXPR();
dict_item->key = ctx()->s_expr.popx(); dict_item->key = ctx()->s_expr.popx_back();
dict_item->value = ctx()->s_expr.popx(); dict_item->value = ctx()->s_expr.popx_back();
} }
items.push_back(std::move(dict_item)); items.push_back(std::move(dict_item));
} else { } else {
items.push_back(ctx()->s_expr.popx()); items.push_back(ctx()->s_expr.popx_back());
} }
match_newlines_repl(); match_newlines_repl();
if(items.size() == 1 && match(TK("for"))) { if(items.size() == 1 && match(TK("for"))) {
@ -386,16 +386,16 @@ void Compiler::exprMap() {
consume(TK("}")); consume(TK("}"));
if(items.size() == 0 || parsing_dict) { if(items.size() == 0 || parsing_dict) {
auto e = make_expr<DictExpr>(std::move(items)); auto e = make_expr<DictExpr>(std::move(items));
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} else { } else {
auto e = make_expr<SetExpr>(std::move(items)); auto e = make_expr<SetExpr>(std::move(items));
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
} }
void Compiler::exprCall() { void Compiler::exprCall() {
auto e = make_expr<CallExpr>(); auto e = make_expr<CallExpr>();
e->callable = ctx()->s_expr.popx(); e->callable = ctx()->s_expr.popx_back();
do { do {
match_newlines_repl(); match_newlines_repl();
if(curr().type == TK(")")) break; if(curr().type == TK(")")) break;
@ -404,16 +404,16 @@ void Compiler::exprCall() {
Str key = prev().str(); Str key = prev().str();
consume(TK("=")); consume(TK("="));
EXPR(); EXPR();
e->kwargs.push_back({key, ctx()->s_expr.popx()}); e->kwargs.push_back({key, ctx()->s_expr.popx_back()});
} else { } else {
EXPR(); EXPR();
if(ctx()->s_expr.top()->star_level() == 2) { if(ctx()->s_expr.back()->star_level() == 2) {
// **kwargs // **kwargs
e->kwargs.push_back({"**", ctx()->s_expr.popx()}); e->kwargs.push_back({"**", ctx()->s_expr.popx_back()});
} else { } else {
// positional argument // positional argument
if(!e->kwargs.empty()) SyntaxError("positional argument follows keyword argument"); if(!e->kwargs.empty()) SyntaxError("positional argument follows keyword argument");
e->args.push_back(ctx()->s_expr.popx()); e->args.push_back(ctx()->s_expr.popx_back());
} }
} }
match_newlines_repl(); match_newlines_repl();
@ -421,70 +421,70 @@ void Compiler::exprCall() {
consume(TK(")")); consume(TK(")"));
if(e->args.size() > 32767) SyntaxError("too many positional arguments"); if(e->args.size() > 32767) SyntaxError("too many positional arguments");
if(e->kwargs.size() > 32767) SyntaxError("too many keyword arguments"); if(e->kwargs.size() > 32767) SyntaxError("too many keyword arguments");
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
void Compiler::exprName() { void Compiler::exprName() {
Str name = prev().str(); Str name = prev().str();
NameScope scope = name_scope(); NameScope scope = name_scope();
if(ctx()->global_names.contains(name)) { scope = NAME_GLOBAL; } if(ctx()->global_names.contains(name)) { scope = NAME_GLOBAL; }
ctx()->s_expr.push(make_expr<NameExpr>(name, scope)); ctx()->s_expr.push_back(make_expr<NameExpr>(name, scope));
} }
void Compiler::exprAttrib() { void Compiler::exprAttrib() {
consume(TK("@id")); consume(TK("@id"));
ctx()->s_expr.push(make_expr<AttribExpr>(ctx()->s_expr.popx(), StrName::get(prev().sv()))); ctx()->s_expr.push_back(make_expr<AttribExpr>(ctx()->s_expr.popx_back(), StrName::get(prev().sv())));
} }
void Compiler::exprSlice0() { void Compiler::exprSlice0() {
auto slice = make_expr<SliceExpr>(); auto slice = make_expr<SliceExpr>();
if(is_expression()) { // :<stop> if(is_expression()) { // :<stop>
EXPR(); EXPR();
slice->stop = ctx()->s_expr.popx(); slice->stop = ctx()->s_expr.popx_back();
// try optional step // try optional step
if(match(TK(":"))) { // :<stop>:<step> if(match(TK(":"))) { // :<stop>:<step>
EXPR(); EXPR();
slice->step = ctx()->s_expr.popx(); slice->step = ctx()->s_expr.popx_back();
} }
} else if(match(TK(":"))) { } else if(match(TK(":"))) {
if(is_expression()) { // ::<step> if(is_expression()) { // ::<step>
EXPR(); EXPR();
slice->step = ctx()->s_expr.popx(); slice->step = ctx()->s_expr.popx_back();
} // else :: } // else ::
} // else : } // else :
ctx()->s_expr.push(std::move(slice)); ctx()->s_expr.push_back(std::move(slice));
} }
void Compiler::exprSlice1() { void Compiler::exprSlice1() {
auto slice = make_expr<SliceExpr>(); auto slice = make_expr<SliceExpr>();
slice->start = ctx()->s_expr.popx(); slice->start = ctx()->s_expr.popx_back();
if(is_expression()) { // <start>:<stop> if(is_expression()) { // <start>:<stop>
EXPR(); EXPR();
slice->stop = ctx()->s_expr.popx(); slice->stop = ctx()->s_expr.popx_back();
// try optional step // try optional step
if(match(TK(":"))) { // <start>:<stop>:<step> if(match(TK(":"))) { // <start>:<stop>:<step>
EXPR(); EXPR();
slice->step = ctx()->s_expr.popx(); slice->step = ctx()->s_expr.popx_back();
} }
} else if(match(TK(":"))) { // <start>::<step> } else if(match(TK(":"))) { // <start>::<step>
EXPR(); EXPR();
slice->step = ctx()->s_expr.popx(); slice->step = ctx()->s_expr.popx_back();
} // else <start>: } // else <start>:
ctx()->s_expr.push(std::move(slice)); ctx()->s_expr.push_back(std::move(slice));
} }
void Compiler::exprSubscr() { void Compiler::exprSubscr() {
auto e = make_expr<SubscrExpr>(); auto e = make_expr<SubscrExpr>();
match_newlines_repl(); match_newlines_repl();
e->a = ctx()->s_expr.popx(); // a e->a = ctx()->s_expr.popx_back(); // a
EXPR_TUPLE(true); EXPR_TUPLE(true);
e->b = ctx()->s_expr.popx(); // a[<expr>] e->b = ctx()->s_expr.popx_back(); // a[<expr>]
match_newlines_repl(); match_newlines_repl();
consume(TK("]")); consume(TK("]"));
ctx()->s_expr.push(std::move(e)); ctx()->s_expr.push_back(std::move(e));
} }
void Compiler::exprLiteral0() { ctx()->s_expr.push(make_expr<Literal0Expr>(prev().type)); } void Compiler::exprLiteral0() { ctx()->s_expr.push_back(make_expr<Literal0Expr>(prev().type)); }
void Compiler::compile_block_body(void (Compiler::*callback)()) { void Compiler::compile_block_body(void (Compiler::*callback)()) {
if(callback == nullptr) callback = &Compiler::compile_stmt; if(callback == nullptr) callback = &Compiler::compile_stmt;
@ -674,7 +674,7 @@ void Compiler::compile_try_except() {
ctx()->enter_block(CodeBlockType::TRY_EXCEPT); ctx()->enter_block(CodeBlockType::TRY_EXCEPT);
ctx()->emit_(OP_TRY_ENTER, BC_NOARG, prev().line); ctx()->emit_(OP_TRY_ENTER, BC_NOARG, prev().line);
compile_block_body(); compile_block_body();
small_vector_2<int, 6> patches; small_vector_2<int, 8> patches;
patches.push_back(ctx()->emit_(OP_JUMP_FORWARD, BC_NOARG, BC_KEEPLINE)); patches.push_back(ctx()->emit_(OP_JUMP_FORWARD, BC_NOARG, BC_KEEPLINE));
ctx()->exit_block(); ctx()->exit_block();
@ -739,7 +739,7 @@ void Compiler::compile_decorated() {
Expr_vector decorators; Expr_vector decorators;
do { do {
EXPR(); EXPR();
decorators.push_back(ctx()->s_expr.popx()); decorators.push_back(ctx()->s_expr.popx_back());
if(!match_newlines_repl()) SyntaxError(); if(!match_newlines_repl()) SyntaxError();
} while(match(TK("@"))); } while(match(TK("@")));
@ -764,7 +764,7 @@ bool Compiler::try_compile_assignment() {
case TK("&="): case TK("&="):
case TK("|="): case TK("|="):
case TK("^="): { case TK("^="): {
Expr* lhs_p = ctx()->s_expr.top().get(); Expr* lhs_p = ctx()->s_expr.back().get();
if(lhs_p->is_starred()) SyntaxError(); if(lhs_p->is_starred()) SyntaxError();
if(ctx()->is_compiling_class) SyntaxError("can't use inplace operator in class definition"); if(ctx()->is_compiling_class) SyntaxError("can't use inplace operator in class definition");
advance(); advance();
@ -772,9 +772,9 @@ bool Compiler::try_compile_assignment() {
// a.x += 1; a should be evaluated only once // a.x += 1; a should be evaluated only once
auto e = make_expr<BinaryExpr>(true); // inplace=true auto e = make_expr<BinaryExpr>(true); // inplace=true
e->op = prev().type - 1; // -1 to remove = e->op = prev().type - 1; // -1 to remove =
e->lhs = ctx()->s_expr.popx(); e->lhs = ctx()->s_expr.popx_back();
EXPR_TUPLE(); EXPR_TUPLE();
e->rhs = ctx()->s_expr.popx(); e->rhs = ctx()->s_expr.popx_back();
if(e->rhs->is_starred()) SyntaxError(); if(e->rhs->is_starred()) SyntaxError();
e->emit_(ctx()); e->emit_(ctx());
bool ok = lhs_p->emit_store_inplace(ctx()); bool ok = lhs_p->emit_store_inplace(ctx());
@ -788,12 +788,12 @@ bool Compiler::try_compile_assignment() {
n += 1; n += 1;
} }
// stack size is n+1 // stack size is n+1
Expr_ val = ctx()->s_expr.popx(); Expr_ val = ctx()->s_expr.popx_back();
val->emit_(ctx()); val->emit_(ctx());
for(int j = 1; j < n; j++) for(int j = 1; j < n; j++)
ctx()->emit_(OP_DUP_TOP, BC_NOARG, BC_KEEPLINE); ctx()->emit_(OP_DUP_TOP, BC_NOARG, BC_KEEPLINE);
for(int j = 0; j < n; j++) { for(int j = 0; j < n; j++) {
auto e = ctx()->s_expr.popx(); auto e = ctx()->s_expr.popx_back();
if(e->is_starred()) SyntaxError(); if(e->is_starred()) SyntaxError();
bool ok = e->emit_store(ctx()); bool ok = e->emit_store(ctx());
if(!ok) SyntaxError(); if(!ok) SyntaxError();
@ -919,7 +919,7 @@ void Compiler::compile_stmt() {
} break; } break;
case TK("del"): { case TK("del"): {
EXPR_TUPLE(); EXPR_TUPLE();
Expr_ e = ctx()->s_expr.popx(); Expr_ e = ctx()->s_expr.popx_back();
bool ok = e->emit_del(ctx()); bool ok = e->emit_del(ctx());
if(!ok) SyntaxError(); if(!ok) SyntaxError();
consume_end_stmt(); consume_end_stmt();
@ -968,19 +968,19 @@ void Compiler::compile_stmt() {
bool is_typed_name = false; // e.g. x: int bool is_typed_name = false; // e.g. x: int
// eat variable's type hint if it is a single name // eat variable's type hint if it is a single name
if(ctx()->s_expr.top()->is_name()) { if(ctx()->s_expr.back()->is_name()) {
if(match(TK(":"))) { if(match(TK(":"))) {
consume_type_hints(); consume_type_hints();
is_typed_name = true; is_typed_name = true;
if(ctx()->is_compiling_class) { if(ctx()->is_compiling_class) {
NameExpr* ne = static_cast<NameExpr*>(ctx()->s_expr.top().get()); NameExpr* ne = static_cast<NameExpr*>(ctx()->s_expr.back().get());
ctx()->emit_(OP_ADD_CLASS_ANNOTATION, ne->name.index, BC_KEEPLINE); ctx()->emit_(OP_ADD_CLASS_ANNOTATION, ne->name.index, BC_KEEPLINE);
} }
} }
} }
if(!try_compile_assignment()) { if(!try_compile_assignment()) {
if(!ctx()->s_expr.empty() && ctx()->s_expr.top()->is_starred()) { SyntaxError(); } if(!ctx()->s_expr.empty() && ctx()->s_expr.back()->is_starred()) { SyntaxError(); }
if(!is_typed_name) { if(!is_typed_name) {
ctx()->emit_expr(); ctx()->emit_expr();
if((mode() == CELL_MODE || mode() == REPL_MODE) && name_scope() == NAME_GLOBAL) { if((mode() == CELL_MODE || mode() == REPL_MODE) && name_scope() == NAME_GLOBAL) {
@ -990,7 +990,7 @@ void Compiler::compile_stmt() {
} }
} else { } else {
assert(ctx()->s_expr.size() == 1); assert(ctx()->s_expr.size() == 1);
ctx()->s_expr.pop(); ctx()->s_expr.pop_back();
} }
} }
consume_end_stmt(); consume_end_stmt();
@ -1000,7 +1000,7 @@ void Compiler::compile_stmt() {
void Compiler::consume_type_hints() { void Compiler::consume_type_hints() {
EXPR(); EXPR();
ctx()->s_expr.pop(); ctx()->s_expr.pop_back();
} }
void Compiler::_add_decorators(const Expr_vector& decorators) { void Compiler::_add_decorators(const Expr_vector& decorators) {
@ -1021,7 +1021,7 @@ void Compiler::compile_class(const Expr_vector& decorators) {
if(match(TK("("))) { if(match(TK("("))) {
if(is_expression()) { if(is_expression()) {
EXPR(); EXPR();
base = ctx()->s_expr.popx(); base = ctx()->s_expr.popx_back();
} }
consume(TK(")")); consume(TK(")"));
} }
@ -1032,7 +1032,7 @@ void Compiler::compile_class(const Expr_vector& decorators) {
} }
ctx()->emit_(OP_BEGIN_CLASS, namei, BC_KEEPLINE); ctx()->emit_(OP_BEGIN_CLASS, namei, BC_KEEPLINE);
for(auto& c: this->contexts.container()) { for(auto& c: this->contexts) {
if(c.is_compiling_class) { SyntaxError("nested class is not allowed"); } if(c.is_compiling_class) { SyntaxError("nested class is not allowed"); }
} }
ctx()->is_compiling_class = true; ctx()->is_compiling_class = true;
@ -1319,7 +1319,7 @@ CodeObject_ Compiler::compile() {
return code; return code;
} else if(mode() == JSON_MODE) { } else if(mode() == JSON_MODE) {
EXPR(); EXPR();
Expr_ e = ctx()->s_expr.popx(); Expr_ e = ctx()->s_expr.popx_back();
if(!e->is_json_object()) SyntaxError("expect a JSON object, literal or array"); if(!e->is_json_object()) SyntaxError("expect a JSON object, literal or array");
consume(TK("@eof")); consume(TK("@eof"));
e->emit_(ctx()); e->emit_(ctx());

8
src/compiler/expr.cpp
View File

@ -43,8 +43,8 @@ void CodeEmitContext::exit_block() {
// clear the expression stack and generate bytecode // clear the expression stack and generate bytecode
void CodeEmitContext::emit_expr() { void CodeEmitContext::emit_expr() {
assert(s_expr.size() == 1); assert(s_expr.size() == 1);
Expr_ expr = s_expr.popx(); s_expr.back()->emit_(this);
expr->emit_(this); s_expr.pop_back();
} }
int CodeEmitContext::emit_(Opcode opcode, uint16_t arg, int line, bool is_virtual) { int CodeEmitContext::emit_(Opcode opcode, uint16_t arg, int line, bool is_virtual) {
@ -690,7 +690,7 @@ bool BinaryExpr::is_compare() const {
} }
} }
void BinaryExpr::_emit_compare(CodeEmitContext* ctx, small_vector_2<int, 6>& jmps) { void BinaryExpr::_emit_compare(CodeEmitContext* ctx, small_vector_2<int, 8>& jmps) {
if(lhs->is_compare()) { if(lhs->is_compare()) {
static_cast<BinaryExpr*>(lhs.get())->_emit_compare(ctx, jmps); static_cast<BinaryExpr*>(lhs.get())->_emit_compare(ctx, jmps);
} else { } else {
@ -714,7 +714,7 @@ void BinaryExpr::_emit_compare(CodeEmitContext* ctx, small_vector_2<int, 6>& jmp
} }
void BinaryExpr::emit_(CodeEmitContext* ctx) { void BinaryExpr::emit_(CodeEmitContext* ctx) {
small_vector_2<int, 6> jmps; small_vector_2<int, 8> jmps;
if(is_compare() && lhs->is_compare()) { if(is_compare() && lhs->is_compare()) {
// (a < b) < c // (a < b) < c
static_cast<BinaryExpr*>(lhs.get())->_emit_compare(ctx, jmps); static_cast<BinaryExpr*>(lhs.get())->_emit_compare(ctx, jmps);

16
src/compiler/lexer.cpp
View File

@ -69,15 +69,15 @@ bool Lexer::eat_indentation() {
if(peekchar() == '#') skip_line_comment(); if(peekchar() == '#') skip_line_comment();
if(peekchar() == '\0' || peekchar() == '\n') return true; if(peekchar() == '\0' || peekchar() == '\n') return true;
// https://docs.python.org/3/reference/lexical_analysis.html#indentation // https://docs.python.org/3/reference/lexical_analysis.html#indentation
if(spaces > indents.top()) { if(spaces > indents.back()) {
indents.push(spaces); indents.push_back(spaces);
nexts.push_back(Token{TK("@indent"), token_start, 0, current_line, brackets_level, {}}); nexts.push_back(Token{TK("@indent"), token_start, 0, current_line, brackets_level, {}});
} else if(spaces < indents.top()) { } else if(spaces < indents.back()) {
while(spaces < indents.top()) { while(spaces < indents.back()) {
indents.pop(); indents.pop_back();
nexts.push_back(Token{TK("@dedent"), token_start, 0, current_line, brackets_level, {}}); nexts.push_back(Token{TK("@dedent"), token_start, 0, current_line, brackets_level, {}});
} }
if(spaces != indents.top()) { return false; } if(spaces != indents.back()) { return false; }
} }
return true; return true;
} }
@ -496,7 +496,7 @@ bool Lexer::lex_one_token() {
token_start = curr_char; token_start = curr_char;
while(indents.size() > 1) { while(indents.size() > 1) {
indents.pop(); indents.pop_back();
add_token(TK("@dedent")); add_token(TK("@dedent"));
return true; return true;
} }
@ -518,7 +518,7 @@ Lexer::Lexer(VM* vm, std::shared_ptr<SourceData> src) : vm(vm), src(src) {
this->token_start = src->source.c_str(); this->token_start = src->source.c_str();
this->curr_char = src->source.c_str(); this->curr_char = src->source.c_str();
this->nexts.push_back(Token{TK("@sof"), token_start, 0, current_line, brackets_level, {}}); this->nexts.push_back(Token{TK("@sof"), token_start, 0, current_line, brackets_level, {}});
this->indents.push(0); this->indents.push_back(0);
} }
vector<Token> Lexer::run() { vector<Token> Lexer::run() {

14
src/interpreter/profiler.cpp
View File

@ -23,7 +23,7 @@ void LineProfiler::_step(int callstack_size, Frame* frame) {
int line = line_info.lineno; int line = line_info.lineno;
if(frames.empty()) { if(frames.empty()) {
frames.push({callstack_size, frame, clock(), nullptr}); frames.push_back({callstack_size, frame, clock(), nullptr});
} else { } else {
_step_end(callstack_size, frame, line); _step_end(callstack_size, frame, line);
} }
@ -38,12 +38,12 @@ void LineProfiler::_step(int callstack_size, Frame* frame) {
} }
} }
frames.top().prev_record = &file_records[line]; frames.back().prev_record = &file_records[line];
} }
void LineProfiler::_step_end(int callstack_size, Frame* frame, int line) { void LineProfiler::_step_end(int callstack_size, Frame* frame, int line) {
clock_t now = clock(); clock_t now = clock();
_FrameRecord& top_frame_record = frames.top(); _FrameRecord& top_frame_record = frames.back();
_LineRecord* prev_record = top_frame_record.prev_record; _LineRecord* prev_record = top_frame_record.prev_record;
int id_delta = callstack_size - top_frame_record.callstack_size; int id_delta = callstack_size - top_frame_record.callstack_size;
@ -58,15 +58,15 @@ void LineProfiler::_step_end(int callstack_size, Frame* frame, int line) {
} }
if(id_delta == 1) { if(id_delta == 1) {
frames.push({callstack_size, frame, now, nullptr}); frames.push_back({callstack_size, frame, now, nullptr});
} else { } else {
if(id_delta == -1) frames.pop(); if(id_delta == -1) frames.pop_back();
} }
} }
void LineProfiler::end() { void LineProfiler::end() {
clock_t now = clock(); clock_t now = clock();
_FrameRecord& top_frame_record = frames.top(); _FrameRecord& top_frame_record = frames.back();
_LineRecord* prev_record = top_frame_record.prev_record; _LineRecord* prev_record = top_frame_record.prev_record;
clock_t delta = now - top_frame_record.prev_time; clock_t delta = now - top_frame_record.prev_time;
@ -74,7 +74,7 @@ void LineProfiler::end() {
prev_record->hits++; prev_record->hits++;
prev_record->time += delta; prev_record->time += delta;
frames.pop(); frames.pop_back();
assert(frames.empty()); assert(frames.empty());
} }

5
src/objects/error.cpp
View File

@ -8,9 +8,8 @@ Str Exception::summary() const {
// ss << st.top().snapshot() << '\n'; // ss << st.top().snapshot() << '\n';
// st.pop(); // st.pop();
// } // }
const auto& container = stacktrace.container(); for(int i = stacktrace.size() - 1; i >= 0; i--) {
for(int i = container.size() - 1; i >= 0; i--) { ss << stacktrace[i].snapshot() << '\n';
ss << container[i].snapshot() << '\n';
} }
if(!msg.empty()) if(!msg.empty())
ss << type.sv() << ": " << msg; ss << type.sv() << ": " << msg;

12
src/pocketpy_c.cpp
View File

@ -21,7 +21,7 @@ using namespace pkpy;
static int count_extra_elements(VM* vm, int n) { static int count_extra_elements(VM* vm, int n) {
if(vm->callstack.empty()) { return vm->s_data.size(); } if(vm->callstack.empty()) { return vm->s_data.size(); }
assert(!vm->__c.s_view.empty()); assert(!vm->__c.s_view.empty());
return vm->s_data._sp - vm->__c.s_view.top().end(); return vm->s_data._sp - vm->__c.s_view.back().end();
} }
static PyVar stack_item(VM* vm, int index) { static PyVar stack_item(VM* vm, int index) {
@ -31,7 +31,7 @@ static PyVar stack_item(VM* vm, int index) {
begin = vm->s_data.begin(); begin = vm->s_data.begin();
} else { } else {
assert(!vm->__c.s_view.empty()); assert(!vm->__c.s_view.empty());
begin = vm->__c.s_view.top().begin(); begin = vm->__c.s_view.back().begin();
} }
int size = end - begin; int size = end - begin;
if(index < 0) index += size; if(index < 0) index += size;
@ -134,7 +134,7 @@ int pkpy_stack_size(pkpy_vm* vm_handle) {
PK_ASSERT_NO_ERROR() PK_ASSERT_NO_ERROR()
if(vm->callstack.empty()) { return vm->s_data.size(); } if(vm->callstack.empty()) { return vm->s_data.size(); }
if(vm->__c.s_view.empty()) exit(127); if(vm->__c.s_view.empty()) exit(127);
return vm->s_data._sp - vm->__c.s_view.top().begin(); return vm->s_data._sp - vm->__c.s_view.back().begin();
} }
// int // int
@ -314,7 +314,7 @@ struct TempViewPopper {
void restore() noexcept { void restore() noexcept {
if(used) return; if(used) return;
vm->__c.s_view.pop(); vm->__c.s_view.pop_back();
used = true; used = true;
} }
@ -326,7 +326,7 @@ static PyVar c_function_wrapper(VM* vm, ArgsView args) {
pkpy_CFunction f = lambda_get_userdata<pkpy_CFunction>(args.begin()); pkpy_CFunction f = lambda_get_userdata<pkpy_CFunction>(args.begin());
PyVar* curr_sp = vm->s_data._sp; PyVar* curr_sp = vm->s_data._sp;
vm->__c.s_view.push(args); vm->__c.s_view.push_back(args);
TempViewPopper _tvp(vm); TempViewPopper _tvp(vm);
int retc = f((pkpy_vm*)vm); // may raise, _tvp will handle this via RAII int retc = f((pkpy_vm*)vm); // may raise, _tvp will handle this via RAII
_tvp.restore(); _tvp.restore();
@ -526,7 +526,7 @@ bool pkpy_clear_error(pkpy_vm* vm_handle, char** message) {
vm->s_data.clear(); vm->s_data.clear();
} else { } else {
if(vm->__c.s_view.empty()) exit(127); if(vm->__c.s_view.empty()) exit(127);
vm->s_data.reset(vm->__c.s_view.top().end()); vm->s_data.reset(vm->__c.s_view.back().end());
} }
return true; return true;
} }