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ASTree.cpp
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ASTree.cpp
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#include <cstring>
#include "ASTree.h"
#include "FastStack.h"
#include "pyc_numeric.h"
#include "bytecode.h"
// This must be a triple quote (''' or """), to handle interpolated string literals containing the opposite quote style.
// E.g. f'''{"interpolated "123' literal"}''' -> valid.
// E.g. f"""{"interpolated "123' literal"}""" -> valid.
// E.g. f'{"interpolated "123' literal"}' -> invalid, unescaped quotes in literal.
// E.g. f'{"interpolated \"123\' literal"}' -> invalid, f-string expression does not allow backslash.
// NOTE: Nested f-strings not supported.
#define F_STRING_QUOTE "'''"
static void append_to_chain_store(PycRef<ASTNode> chainStore, PycRef<ASTNode> item,
FastStack& stack, PycRef<ASTBlock> curblock);
/* Use this to determine if an error occurred (and therefore, if we should
* avoid cleaning the output tree) */
static bool cleanBuild;
/* Use this to prevent printing return keywords and newlines in lambdas. */
static bool inLambda = false;
/* Use this to keep track of whether we need to print out any docstring and
* the list of global variables that we are using (such as inside a function). */
static bool printDocstringAndGlobals = false;
/* Use this to keep track of whether we need to print a class or module docstring */
static bool printClassDocstring = true;
// shortcut for all top/pop calls
static PycRef<ASTNode> StackPopTop(FastStack& stack)
{
const auto node{ stack.top() };
stack.pop();
return node;
}
/* compiler generates very, VERY similar byte code for if/else statement block and if-expression
* statement
* if a: b = 1
* else: b = 2
* expression:
* b = 1 if a else 2
* (see for instance https://stackoverflow.com/a/52202007)
* here, try to guess if just finished else statement is part of if-expression (ternary operator)
* if it is, remove statements from the block and put a ternary node on top of stack
*/
static void CheckIfExpr(FastStack& stack, PycRef<ASTBlock> curblock)
{
if (stack.empty())
return;
if (curblock->nodes().size() < 2)
return;
auto rit = curblock->nodes().crbegin();
// the last is "else" block, the one before should be "if" (could be "for", ...)
if ((*rit)->type() != ASTNode::NODE_BLOCK ||
(*rit).cast<ASTBlock>()->blktype() != ASTBlock::BLK_ELSE)
return;
++rit;
if ((*rit)->type() != ASTNode::NODE_BLOCK ||
(*rit).cast<ASTBlock>()->blktype() != ASTBlock::BLK_IF)
return;
auto else_expr = StackPopTop(stack);
curblock->removeLast();
auto if_block = curblock->nodes().back();
auto if_expr = StackPopTop(stack);
curblock->removeLast();
stack.push(new ASTTernary(std::move(if_block), std::move(if_expr), std::move(else_expr)));
}
PycRef<ASTNode> BuildFromCode(PycRef<PycCode> code, PycModule* mod)
{
PycBuffer source(code->code()->value(), code->code()->length());
FastStack stack((mod->majorVer() == 1) ? 20 : code->stackSize());
stackhist_t stack_hist;
std::stack<PycRef<ASTBlock> > blocks;
PycRef<ASTBlock> defblock = new ASTBlock(ASTBlock::BLK_MAIN);
defblock->init();
PycRef<ASTBlock> curblock = defblock;
blocks.push(defblock);
int opcode, operand;
int curpos = 0;
int pos = 0;
int unpack = 0;
bool else_pop = false;
bool need_try = false;
bool variable_annotations = false;
while (!source.atEof()) {
curpos = pos;
bc_next(source, mod, opcode, operand, pos);
#if defined(BLOCK_DEBUG) || defined(STACK_DEBUG)
// DEBUG Positon in source file
fprintf(stderr, "%-7d %-3d %-16s_%-2d", pos, opcode, Pyc::OpcodeName(opcode & 0xFF), operand);
#ifdef STACK_DEBUG
fprintf(stderr, "%-5d", (unsigned int)stack_hist.size() + 1);
#endif
#ifdef BLOCK_DEBUG
// DEBUG Indept
for (unsigned int i = 0; i < blocks.size(); i++)
fprintf(stderr, " ");
// DEBUG Type String & Length
fprintf(stderr, "%s (%d)", curblock->type_str(), curblock->end());
#endif
fprintf(stderr, "\n");
#endif
if (need_try && opcode != Pyc::SETUP_EXCEPT_A) {
need_try = false;
/* Store the current stack for the except/finally statement(s) */
stack_hist.push(stack);
PycRef<ASTBlock> tryblock = new ASTBlock(ASTBlock::BLK_TRY, curblock->end(), true);
blocks.push(tryblock);
curblock = blocks.top();
} else if (else_pop
&& opcode != Pyc::JUMP_FORWARD_A
&& opcode != Pyc::JUMP_IF_FALSE_A
&& opcode != Pyc::JUMP_IF_FALSE_OR_POP_A
&& opcode != Pyc::POP_JUMP_IF_FALSE_A
&& opcode != Pyc::JUMP_IF_TRUE_A
&& opcode != Pyc::JUMP_IF_TRUE_OR_POP_A
&& opcode != Pyc::POP_JUMP_IF_TRUE_A
&& opcode != Pyc::POP_BLOCK) {
else_pop = false;
PycRef<ASTBlock> prev = curblock;
while (prev->end() < pos
&& prev->blktype() != ASTBlock::BLK_MAIN) {
if (prev->blktype() != ASTBlock::BLK_CONTAINER) {
if (prev->end() == 0) {
break;
}
/* We want to keep the stack the same, but we need to pop
* a level off the history. */
//stack = stack_hist.top();
if (!stack_hist.empty())
stack_hist.pop();
}
blocks.pop();
if (blocks.empty())
break;
curblock = blocks.top();
curblock->append(prev.cast<ASTNode>());
prev = curblock;
CheckIfExpr(stack, curblock);
}
}
switch (opcode) {
case Pyc::BINARY_ADD:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_ADD));
}
break;
case Pyc::BINARY_AND:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_AND));
}
break;
case Pyc::BINARY_DIVIDE:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_DIVIDE));
}
break;
case Pyc::BINARY_FLOOR_DIVIDE:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_FLOOR));
}
break;
case Pyc::BINARY_LSHIFT:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_LSHIFT));
}
break;
case Pyc::BINARY_MODULO:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_MODULO));
}
break;
case Pyc::BINARY_MULTIPLY:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_MULTIPLY));
}
break;
case Pyc::BINARY_OR:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_OR));
}
break;
case Pyc::BINARY_POWER:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_POWER));
}
break;
case Pyc::BINARY_RSHIFT:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_RSHIFT));
}
break;
case Pyc::BINARY_SUBSCR:
{
PycRef<ASTNode> subscr = stack.top();
stack.pop();
PycRef<ASTNode> src = stack.top();
stack.pop();
stack.push(new ASTSubscr(src, subscr));
}
break;
case Pyc::BINARY_SUBTRACT:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_SUBTRACT));
}
break;
case Pyc::BINARY_TRUE_DIVIDE:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_DIVIDE));
}
break;
case Pyc::BINARY_XOR:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_XOR));
}
break;
case Pyc::BINARY_MATRIX_MULTIPLY:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTBinary(left, right, ASTBinary::BIN_MAT_MULTIPLY));
}
break;
case Pyc::BREAK_LOOP:
curblock->append(new ASTKeyword(ASTKeyword::KW_BREAK));
break;
case Pyc::BUILD_CLASS:
{
PycRef<ASTNode> class_code = stack.top();
stack.pop();
PycRef<ASTNode> bases = stack.top();
stack.pop();
PycRef<ASTNode> name = stack.top();
stack.pop();
stack.push(new ASTClass(class_code, bases, name));
}
break;
case Pyc::BUILD_FUNCTION:
{
PycRef<ASTNode> fun_code = stack.top();
stack.pop();
stack.push(new ASTFunction(fun_code, {}, {}));
}
break;
case Pyc::BUILD_LIST_A:
{
ASTList::value_t values;
for (int i=0; i<operand; i++) {
values.push_front(stack.top());
stack.pop();
}
stack.push(new ASTList(values));
}
break;
case Pyc::BUILD_MAP_A:
if (mod->verCompare(3, 5) >= 0) {
auto map = new ASTMap;
for (int i=0; i<operand; ++i) {
PycRef<ASTNode> value = stack.top();
stack.pop();
PycRef<ASTNode> key = stack.top();
stack.pop();
map->add(key, value);
}
stack.push(map);
} else {
if (stack.top().type() == ASTNode::NODE_CHAINSTORE) {
stack.pop();
}
stack.push(new ASTMap());
}
break;
case Pyc::BUILD_CONST_KEY_MAP_A:
// Top of stack will be a tuple of keys.
// Values will start at TOS - 1.
{
PycRef<ASTNode> keys = stack.top();
stack.pop();
ASTConstMap::values_t values;
values.reserve(operand);
for (int i = 0; i < operand; ++i) {
PycRef<ASTNode> value = stack.top();
stack.pop();
values.push_back(value);
}
stack.push(new ASTConstMap(keys, values));
}
break;
case Pyc::STORE_MAP:
{
PycRef<ASTNode> key = stack.top();
stack.pop();
PycRef<ASTNode> value = stack.top();
stack.pop();
PycRef<ASTMap> map = stack.top().cast<ASTMap>();
map->add(key, value);
}
break;
case Pyc::BUILD_SLICE_A:
{
if (operand == 2) {
PycRef<ASTNode> end = stack.top();
stack.pop();
PycRef<ASTNode> start = stack.top();
stack.pop();
if (start.type() == ASTNode::NODE_OBJECT
&& start.cast<ASTObject>()->object() == Pyc_None) {
start = NULL;
}
if (end.type() == ASTNode::NODE_OBJECT
&& end.cast<ASTObject>()->object() == Pyc_None) {
end = NULL;
}
if (start == NULL && end == NULL) {
stack.push(new ASTSlice(ASTSlice::SLICE0));
} else if (start == NULL) {
stack.push(new ASTSlice(ASTSlice::SLICE2, start, end));
} else if (end == NULL) {
stack.push(new ASTSlice(ASTSlice::SLICE1, start, end));
} else {
stack.push(new ASTSlice(ASTSlice::SLICE3, start, end));
}
} else if (operand == 3) {
PycRef<ASTNode> step = stack.top();
stack.pop();
PycRef<ASTNode> end = stack.top();
stack.pop();
PycRef<ASTNode> start = stack.top();
stack.pop();
if (start.type() == ASTNode::NODE_OBJECT
&& start.cast<ASTObject>()->object() == Pyc_None) {
start = NULL;
}
if (end.type() == ASTNode::NODE_OBJECT
&& end.cast<ASTObject>()->object() == Pyc_None) {
end = NULL;
}
if (step.type() == ASTNode::NODE_OBJECT
&& step.cast<ASTObject>()->object() == Pyc_None) {
step = NULL;
}
/* We have to do this as a slice where one side is another slice */
/* [[a:b]:c] */
if (start == NULL && end == NULL) {
stack.push(new ASTSlice(ASTSlice::SLICE0));
} else if (start == NULL) {
stack.push(new ASTSlice(ASTSlice::SLICE2, start, end));
} else if (end == NULL) {
stack.push(new ASTSlice(ASTSlice::SLICE1, start, end));
} else {
stack.push(new ASTSlice(ASTSlice::SLICE3, start, end));
}
PycRef<ASTNode> lhs = stack.top();
stack.pop();
if (step == NULL) {
stack.push(new ASTSlice(ASTSlice::SLICE1, lhs, step));
} else {
stack.push(new ASTSlice(ASTSlice::SLICE3, lhs, step));
}
}
}
break;
case Pyc::BUILD_STRING_A:
{
// Nearly identical logic to BUILD_LIST
ASTList::value_t values;
for (int i = 0; i < operand; i++) {
values.push_front(stack.top());
stack.pop();
}
stack.push(new ASTJoinedStr(values));
}
break;
case Pyc::BUILD_TUPLE_A:
{
ASTTuple::value_t values;
values.resize(operand);
for (int i=0; i<operand; i++) {
values[operand-i-1] = stack.top();
stack.pop();
}
stack.push(new ASTTuple(values));
}
break;
case Pyc::CALL_FUNCTION_A:
{
int kwparams = (operand & 0xFF00) >> 8;
int pparams = (operand & 0xFF);
ASTCall::kwparam_t kwparamList;
ASTCall::pparam_t pparamList;
/* Test for the load build class function */
stack_hist.push(stack);
int basecnt = 0;
ASTTuple::value_t bases;
bases.resize(basecnt);
PycRef<ASTNode> TOS = stack.top();
int TOS_type = TOS.type();
// bases are NODE_NAME at TOS
while (TOS_type == ASTNode::NODE_NAME) {
bases.resize(basecnt + 1);
bases[basecnt] = TOS;
basecnt++;
stack.pop();
TOS = stack.top();
TOS_type = TOS.type();
}
// qualified name is PycString at TOS
PycRef<ASTNode> name = stack.top();
stack.pop();
PycRef<ASTNode> function = stack.top();
stack.pop();
PycRef<ASTNode> loadbuild = stack.top();
stack.pop();
int loadbuild_type = loadbuild.type();
if (loadbuild_type == ASTNode::NODE_LOADBUILDCLASS) {
PycRef<ASTNode> call = new ASTCall(function, pparamList, kwparamList);
stack.push(new ASTClass(call, new ASTTuple(bases), name));
stack_hist.pop();
break;
}
else
{
stack = stack_hist.top();
stack_hist.pop();
}
for (int i=0; i<kwparams; i++) {
PycRef<ASTNode> val = stack.top();
stack.pop();
PycRef<ASTNode> key = stack.top();
stack.pop();
kwparamList.push_front(std::make_pair(key, val));
}
for (int i=0; i<pparams; i++) {
PycRef<ASTNode> param = stack.top();
stack.pop();
if (param.type() == ASTNode::NODE_FUNCTION) {
PycRef<ASTNode> fun_code = param.cast<ASTFunction>()->code();
PycRef<PycCode> code_src = fun_code.cast<ASTObject>()->object().cast<PycCode>();
PycRef<PycString> function_name = code_src->name();
if (function_name->isEqual("<lambda>")) {
pparamList.push_front(param);
} else {
// Decorator used
PycRef<ASTNode> decor_name = new ASTName(function_name);
curblock->append(new ASTStore(param, decor_name));
pparamList.push_front(decor_name);
}
} else {
pparamList.push_front(param);
}
}
PycRef<ASTNode> func = stack.top();
stack.pop();
stack.push(new ASTCall(func, pparamList, kwparamList));
}
break;
case Pyc::CALL_FUNCTION_VAR_A:
{
PycRef<ASTNode> var = stack.top();
stack.pop();
int kwparams = (operand & 0xFF00) >> 8;
int pparams = (operand & 0xFF);
ASTCall::kwparam_t kwparamList;
ASTCall::pparam_t pparamList;
for (int i=0; i<kwparams; i++) {
PycRef<ASTNode> val = stack.top();
stack.pop();
PycRef<ASTNode> key = stack.top();
stack.pop();
kwparamList.push_front(std::make_pair(key, val));
}
for (int i=0; i<pparams; i++) {
pparamList.push_front(stack.top());
stack.pop();
}
PycRef<ASTNode> func = stack.top();
stack.pop();
PycRef<ASTNode> call = new ASTCall(func, pparamList, kwparamList);
call.cast<ASTCall>()->setVar(var);
stack.push(call);
}
break;
case Pyc::CALL_FUNCTION_KW_A:
{
PycRef<ASTNode> kw = stack.top();
stack.pop();
int kwparams = (operand & 0xFF00) >> 8;
int pparams = (operand & 0xFF);
ASTCall::kwparam_t kwparamList;
ASTCall::pparam_t pparamList;
for (int i=0; i<kwparams; i++) {
PycRef<ASTNode> val = stack.top();
stack.pop();
PycRef<ASTNode> key = stack.top();
stack.pop();
kwparamList.push_front(std::make_pair(key, val));
}
for (int i=0; i<pparams; i++) {
pparamList.push_front(stack.top());
stack.pop();
}
PycRef<ASTNode> func = stack.top();
stack.pop();
PycRef<ASTNode> call = new ASTCall(func, pparamList, kwparamList);
call.cast<ASTCall>()->setKW(kw);
stack.push(call);
}
break;
case Pyc::CALL_FUNCTION_VAR_KW_A:
{
PycRef<ASTNode> kw = stack.top();
stack.pop();
PycRef<ASTNode> var = stack.top();
stack.pop();
int kwparams = (operand & 0xFF00) >> 8;
int pparams = (operand & 0xFF);
ASTCall::kwparam_t kwparamList;
ASTCall::pparam_t pparamList;
for (int i=0; i<kwparams; i++) {
PycRef<ASTNode> val = stack.top();
stack.pop();
PycRef<ASTNode> key = stack.top();
stack.pop();
kwparamList.push_front(std::make_pair(key, val));
}
for (int i=0; i<pparams; i++) {
pparamList.push_front(stack.top());
stack.pop();
}
PycRef<ASTNode> func = stack.top();
stack.pop();
PycRef<ASTNode> call = new ASTCall(func, pparamList, kwparamList);
call.cast<ASTCall>()->setKW(kw);
call.cast<ASTCall>()->setVar(var);
stack.push(call);
}
break;
case Pyc::CALL_METHOD_A:
{
ASTCall::pparam_t pparamList;
for (int i = 0; i < operand; i++) {
PycRef<ASTNode> param = stack.top();
stack.pop();
if (param.type() == ASTNode::NODE_FUNCTION) {
PycRef<ASTNode> fun_code = param.cast<ASTFunction>()->code();
PycRef<PycCode> code_src = fun_code.cast<ASTObject>()->object().cast<PycCode>();
PycRef<PycString> function_name = code_src->name();
if (function_name->isEqual("<lambda>")) {
pparamList.push_front(param);
} else {
// Decorator used
PycRef<ASTNode> decor_name = new ASTName(function_name);
curblock->append(new ASTStore(param, decor_name));
pparamList.push_front(decor_name);
}
} else {
pparamList.push_front(param);
}
}
PycRef<ASTNode> func = stack.top();
stack.pop();
stack.push(new ASTCall(func, pparamList, ASTCall::kwparam_t()));
}
break;
case Pyc::CONTINUE_LOOP_A:
curblock->append(new ASTKeyword(ASTKeyword::KW_CONTINUE));
break;
case Pyc::COMPARE_OP_A:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
stack.push(new ASTCompare(left, right, operand));
}
break;
case Pyc::CONTAINS_OP_A:
{
PycRef<ASTNode> right = stack.top();
stack.pop();
PycRef<ASTNode> left = stack.top();
stack.pop();
// The operand will be 0 for 'in' and 1 for 'not in'.
stack.push(new ASTCompare(left, right, operand ? ASTCompare::CMP_NOT_IN : ASTCompare::CMP_IN));
}
break;
case Pyc::DELETE_ATTR_A:
{
PycRef<ASTNode> name = stack.top();
stack.pop();
curblock->append(new ASTDelete(new ASTBinary(name, new ASTName(code->getName(operand)), ASTBinary::BIN_ATTR)));
}
break;
case Pyc::DELETE_GLOBAL_A:
code->markGlobal(code->getName(operand));
/* Fall through */
case Pyc::DELETE_NAME_A:
{
PycRef<PycString> varname = code->getName(operand);
if (varname->length() >= 2 && varname->value()[0] == '_'
&& varname->value()[1] == '[') {
/* Don't show deletes that are a result of list comps. */
break;
}
PycRef<ASTNode> name = new ASTName(varname);
curblock->append(new ASTDelete(name));
}
break;
case Pyc::DELETE_FAST_A:
{
PycRef<ASTNode> name;
if (mod->verCompare(1, 3) < 0)
name = new ASTName(code->getName(operand));
else
name = new ASTName(code->getVarName(operand));
if (name.cast<ASTName>()->name()->value()[0] == '_'
&& name.cast<ASTName>()->name()->value()[1] == '[') {
/* Don't show deletes that are a result of list comps. */
break;
}
curblock->append(new ASTDelete(name));
}
break;
case Pyc::DELETE_SLICE_0:
{
PycRef<ASTNode> name = stack.top();
stack.pop();
curblock->append(new ASTDelete(new ASTSubscr(name, new ASTSlice(ASTSlice::SLICE0))));
}
break;
case Pyc::DELETE_SLICE_1:
{
PycRef<ASTNode> upper = stack.top();
stack.pop();
PycRef<ASTNode> name = stack.top();
stack.pop();
curblock->append(new ASTDelete(new ASTSubscr(name, new ASTSlice(ASTSlice::SLICE1, upper))));
}
break;
case Pyc::DELETE_SLICE_2:
{
PycRef<ASTNode> lower = stack.top();
stack.pop();
PycRef<ASTNode> name = stack.top();
stack.pop();
curblock->append(new ASTDelete(new ASTSubscr(name, new ASTSlice(ASTSlice::SLICE2, NULL, lower))));
}
break;
case Pyc::DELETE_SLICE_3:
{
PycRef<ASTNode> lower = stack.top();
stack.pop();
PycRef<ASTNode> upper = stack.top();
stack.pop();
PycRef<ASTNode> name = stack.top();
stack.pop();
curblock->append(new ASTDelete(new ASTSubscr(name, new ASTSlice(ASTSlice::SLICE3, upper, lower))));
}
break;
case Pyc::DELETE_SUBSCR:
{
PycRef<ASTNode> key = stack.top();
stack.pop();
PycRef<ASTNode> name = stack.top();
stack.pop();
curblock->append(new ASTDelete(new ASTSubscr(name, key)));
}
break;
case Pyc::DUP_TOP:
{
if (stack.top().type() == PycObject::TYPE_NULL) {
stack.push(stack.top());
} else if (stack.top().type() == ASTNode::NODE_CHAINSTORE) {
auto chainstore = stack.top();
stack.pop();
stack.push(stack.top());
stack.push(chainstore);
} else {
stack.push(stack.top());
ASTNodeList::list_t targets;
stack.push(new ASTChainStore(targets, stack.top()));
}
}
break;
case Pyc::DUP_TOP_TWO:
{
PycRef<ASTNode> first = stack.top();
stack.pop();
PycRef<ASTNode> second = stack.top();
stack.push(first);
stack.push(second);
stack.push(first);
}
break;
case Pyc::DUP_TOPX_A:
{
std::stack<PycRef<ASTNode> > first;
std::stack<PycRef<ASTNode> > second;
for (int i = 0; i < operand; i++) {
PycRef<ASTNode> node = stack.top();
stack.pop();
first.push(node);
second.push(node);
}
while (first.size()) {
stack.push(first.top());
first.pop();
}
while (second.size()) {
stack.push(second.top());
second.pop();
}
}
break;
case Pyc::END_FINALLY:
{
bool isFinally = false;
if (curblock->blktype() == ASTBlock::BLK_FINALLY) {
PycRef<ASTBlock> final = curblock;
blocks.pop();
stack = stack_hist.top();
stack_hist.pop();
curblock = blocks.top();
curblock->append(final.cast<ASTNode>());
isFinally = true;
} else if (curblock->blktype() == ASTBlock::BLK_EXCEPT) {
blocks.pop();
PycRef<ASTBlock> prev = curblock;
bool isUninitAsyncFor = false;
if (blocks.top()->blktype() == ASTBlock::BLK_CONTAINER) {
auto container = blocks.top();
blocks.pop();
auto asyncForBlock = blocks.top();
isUninitAsyncFor = asyncForBlock->blktype() == ASTBlock::BLK_ASYNCFOR && !asyncForBlock->inited();
if (isUninitAsyncFor) {
auto tryBlock = container->nodes().front().cast<ASTBlock>();
if (!tryBlock->nodes().empty() && tryBlock->blktype() == ASTBlock::BLK_TRY) {
auto store = tryBlock->nodes().front().try_cast<ASTStore>();
if (store) {
asyncForBlock.cast<ASTIterBlock>()->setIndex(store->dest());
}
}
curblock = blocks.top();
stack = stack_hist.top();
stack_hist.pop();
if (!curblock->inited())
fprintf(stderr, "Error when decompiling 'async for'.\n");
} else {
blocks.push(container);
}
}
if (!isUninitAsyncFor) {
if (curblock->size() != 0) {
blocks.top()->append(curblock.cast<ASTNode>());
}
curblock = blocks.top();
/* Turn it into an else statement. */
if (curblock->end() != pos || curblock.cast<ASTContainerBlock>()->hasFinally()) {
PycRef<ASTBlock> elseblk = new ASTBlock(ASTBlock::BLK_ELSE, prev->end());
elseblk->init();
blocks.push(elseblk);
curblock = blocks.top();
}
else {
stack = stack_hist.top();
stack_hist.pop();
}
}
}
if (curblock->blktype() == ASTBlock::BLK_CONTAINER) {
/* This marks the end of the except block(s). */
PycRef<ASTContainerBlock> cont = curblock.cast<ASTContainerBlock>();
if (!cont->hasFinally() || isFinally) {
/* If there's no finally block, pop the container. */
blocks.pop();
curblock = blocks.top();
curblock->append(cont.cast<ASTNode>());
}
}
}
break;
case Pyc::EXEC_STMT:
{
if (stack.top().type() == ASTNode::NODE_CHAINSTORE) {
stack.pop();
}
PycRef<ASTNode> loc = stack.top();
stack.pop();
PycRef<ASTNode> glob = stack.top();
stack.pop();
PycRef<ASTNode> stmt = stack.top();
stack.pop();
curblock->append(new ASTExec(stmt, glob, loc));
}
break;
case Pyc::FOR_ITER_A:
{
PycRef<ASTNode> iter = stack.top(); // Iterable
stack.pop();
/* Pop it? Don't pop it? */
int end;
bool comprehension = false;
// before 3.8, there is a SETUP_LOOP instruction with block start and end position,
// the operand is usually a jump to a POP_BLOCK instruction
// after 3.8, block extent has to be inferred implicitly; the operand is a jump to a position after the for block
if (mod->majorVer() == 3 && mod->minorVer() >= 8) {
end = operand;
if (mod->verCompare(3, 10) >= 0)
end *= sizeof(uint16_t); // // BPO-27129
end += pos;
comprehension = strcmp(code->name()->value(), "<listcomp>") == 0;
} else {
PycRef<ASTBlock> top = blocks.top();
end = top->end(); // block end position from SETUP_LOOP
if (top->blktype() == ASTBlock::BLK_WHILE) {
blocks.pop();
} else {
comprehension = true;
}
}
PycRef<ASTIterBlock> forblk = new ASTIterBlock(ASTBlock::BLK_FOR, curpos, end, iter);
forblk->setComprehension(comprehension);
blocks.push(forblk.cast<ASTBlock>());
curblock = blocks.top();
stack.push(NULL);
}
break;
case Pyc::FOR_LOOP_A:
{
PycRef<ASTNode> curidx = stack.top(); // Current index
stack.pop();
PycRef<ASTNode> iter = stack.top(); // Iterable
stack.pop();
bool comprehension = false;
PycRef<ASTBlock> top = blocks.top();
if (top->blktype() == ASTBlock::BLK_WHILE) {
blocks.pop();
} else {
comprehension = true;
}
PycRef<ASTIterBlock> forblk = new ASTIterBlock(ASTBlock::BLK_FOR, curpos, top->end(), iter);
forblk->setComprehension(comprehension);
blocks.push(forblk.cast<ASTBlock>());
curblock = blocks.top();
/* Python Docs say:
"push the sequence, the incremented counter,
and the current item onto the stack." */
stack.push(iter);
stack.push(curidx);
stack.push(NULL); // We can totally hack this >_>
}
break;
case Pyc::GET_AITER:
{
// Logic similar to FOR_ITER_A
PycRef<ASTNode> iter = stack.top(); // Iterable
stack.pop();
PycRef<ASTBlock> top = blocks.top();
if (top->blktype() == ASTBlock::BLK_WHILE) {
blocks.pop();
PycRef<ASTIterBlock> forblk = new ASTIterBlock(ASTBlock::BLK_ASYNCFOR, curpos, top->end(), iter);
blocks.push(forblk.cast<ASTBlock>());
curblock = blocks.top();
stack.push(nullptr);
} else {
fprintf(stderr, "Unsupported use of GET_AITER outside of SETUP_LOOP\n");
}
}
break;
case Pyc::GET_ANEXT:
break;
case Pyc::FORMAT_VALUE_A:
{
auto conversion_flag = static_cast<ASTFormattedValue::ConversionFlag>(operand);
switch (conversion_flag) {