void interpreter::get_running_call_stack_frame_info(int frame,
const char * & stackinfo,
const char * & func,
const char * & file,
int & line) const
{
stackinfo = "";
func = "";
file = "";
line = 0;
if (!m_fb)
{
return;
}
m_fk->rn.cur_runinginfo.clear();
int deps = 0;
int ip = m_ip;
int bp = m_bp;
const func_binary * fb = m_fb;
while (!BP_END(bp))
{
if (deps >= frame)
{
func = fb ? FUNC_BINARY_NAME(*fb) : "";
file = fb ? FUNC_BINARY_FILENAME(*fb) : "";
line = fb ? GET_CMD_LINENO(*fb, ip) : 0;
m_fk->rn.cur_runinginfo += "#";
m_fk->rn.cur_runinginfo += fkitoa(deps);
m_fk->rn.cur_runinginfo += " ";
m_fk->rn.cur_runinginfo += func;
m_fk->rn.cur_runinginfo += " at ";
m_fk->rn.cur_runinginfo += file;
m_fk->rn.cur_runinginfo += ":";
m_fk->rn.cur_runinginfo += fkitoa(line);
m_fk->rn.cur_runinginfo += "\n";
stackinfo = m_fk->rn.cur_runinginfo.c_str();
return;
}
BP_GET_FB(bp, fb);
BP_GET_IP(bp, ip);
int callbp = 0;
BP_GET_BP(bp, callbp);
bp = callbp;
if (BP_END(bp))
{
break;
}
deps++;
}
}
void assembler::compile_seterror(const func_binary & fb, command cmd, efkerror err, const char *fmt, ...)
{
char errorstr[512];
va_list ap;
va_start(ap, fmt);
vsnprintf(errorstr, sizeof(errorstr) - 1, fmt, ap);
va_end(ap);
errorstr[sizeof(errorstr) - 1] = 0;
seterror(m_fk, err, FUNC_BINARY_FILENAME(fb), FUNC_BINARY_LINENO(fb, m_pos), FUNC_BINARY_NAME(fb), "assembler %llu, %s", cmd, errorstr);
}
FAKE_API const char * fkgetfuncfile(fake * fk, const char * func)
{
variant funcv;
V_SET_STRING(&funcv, func);
const funcunion * f = fk->fm.get_func(funcv);
if (f && f->havefb)
{
return FUNC_BINARY_FILENAME(f->fb);
}
return "";
}
bool assembler::compile_func(const func_binary & fb)
{
FKLOG("[assembler] compile_func func_binary %p", &fb);
clear();
asmgen asg(m_fk);
asg.start_func();
int stacksize = (fb.m_maxstack + fb.m_const_list_num + MAX_ASSEMBLER_CONTAINER_NUM + 1) * variant_size;
FKLOG("[assembler] compile_func stack size %d", stacksize);
asg.alloc_stack(stacksize);
asg.copy_param(FUNC_BINARY_PARAMNUM(fb));
asg.copy_const(fb.m_const_list, fb.m_const_list_num, fb.m_maxstack);
// loop
m_pos = 0;
while (m_pos < (int)fb.m_size)
{
m_posmap[m_pos] = asg.size();
FKLOG("posmap %d %d", m_pos, asg.size());
if (!compile_next(asg, fb))
{
FKERR("[assembler] compile_func compile_next %d fail", m_pos);
return false;
}
}
// end
m_posmap[m_pos] = asg.size();
// link jmp pos
for (caremap::iterator it = m_caremap.begin(); it != m_caremap.end(); it++)
{
int jumpposoff = it->first;
int bytecodepos = it->second;
if (m_posmap.find(bytecodepos) != m_posmap.end())
{
int pos = m_posmap[bytecodepos];
asg.set_int(jumpposoff, pos - (jumpposoff + sizeof(int)));
FKLOG("loop set %d -> %d %d", jumpposoff, pos - (jumpposoff + sizeof(int)), pos);
}
else
{
assert(0);
}
}
asg.stop_func();
func_native nt;
FUNC_NATIVE_INI(nt);
asg.output(FUNC_BINARY_FILENAME(fb), FUNC_BINARY_PACKAGENAME(fb), FUNC_BINARY_NAME(fb), &nt);
variant fv = m_fk->sh.allocsysstr(FUNC_BINARY_NAME(fb));
m_native->add_func(fv, nt);
String str = asg.source();
FKLOG("[assembler] compile_func binary %p ok\n%s", &fb, str.c_str());
return true;
}
const char * interpreter::get_running_call_stack() const
{
if (!m_fb)
{
return "";
}
m_fk->rn.cur_runinginfo.clear();
int deps = 0;
int ip = m_ip;
int bp = m_bp;
const func_binary * fb = m_fb;
while (!BP_END(bp))
{
m_fk->rn.cur_runinginfo += "#";
m_fk->rn.cur_runinginfo += fkitoa(deps);
m_fk->rn.cur_runinginfo += " ";
m_fk->rn.cur_runinginfo += fb ? FUNC_BINARY_NAME(*fb) : "";
m_fk->rn.cur_runinginfo += " at ";
m_fk->rn.cur_runinginfo += fb ? FUNC_BINARY_FILENAME(*fb) : "";
m_fk->rn.cur_runinginfo += ":";
m_fk->rn.cur_runinginfo += fb ? fkitoa(GET_CMD_LINENO(*fb, ip)) : 0;
m_fk->rn.cur_runinginfo += "\n";
for (int j = 0; fb && j < FUNC_BINARY_MAX_STACK(*fb); j++)
{
m_fk->rn.cur_runinginfo += " ";
String variant_name;
for (int i = 0; i < fb->m_debug_stack_variant_info_num; i++)
{
const stack_variant_info & info = fb->m_debug_stack_variant_info[i];
if (info.pos == j)
{
variant_name += info.name;
variant_name += "(line:";
variant_name += fkitoa(info.line);
variant_name += ") ";
}
}
if (variant_name.empty())
{
variant_name = "(anonymous)";
}
m_fk->rn.cur_runinginfo += variant_name;
m_fk->rn.cur_runinginfo += "\t[";
m_fk->rn.cur_runinginfo += fkitoa(j);
m_fk->rn.cur_runinginfo += "]\t";
variant * v = 0;
GET_STACK(bp, v, j);
m_fk->rn.cur_runinginfo += vartostring(v);
m_fk->rn.cur_runinginfo += "\n";
}
BP_GET_FB(bp, fb);
BP_GET_IP(bp, ip);
int callbp = 0;
BP_GET_BP(bp, callbp);
bp = callbp;
if (BP_END(bp))
{
break;
}
deps++;
}
return m_fk->rn.cur_runinginfo.c_str();
}
