llvm::Type *
BackendLLVM::llvm_type_groupdata ()
{
// If already computed, return it
if (m_llvm_type_groupdata)
return m_llvm_type_groupdata;
std::vector<llvm::Type*> fields;
// First, add the array that tells if each layer has run. But only make
// slots for the layers that may be called/used.
int sz = (m_num_used_layers + 3) & (~3); // Round up to 32 bit boundary
fields.push_back (ll.type_array (ll.type_bool(), sz));
size_t offset = sz * sizeof(bool);
// For each layer in the group, add entries for all params that are
// connected or interpolated, and output params. Also mark those
// symbols with their offset within the group struct.
if (llvm_debug() >= 2)
std::cout << "Group param struct:\n";
m_param_order_map.clear ();
int order = 1;
for (int layer = 0; layer < group().nlayers(); ++layer) {
ShaderInstance *inst = group()[layer];
if (inst->unused())
continue;
FOREACH_PARAM (Symbol &sym, inst) {
TypeSpec ts = sym.typespec();
if (ts.is_structure()) // skip the struct symbol itself
continue;
int arraylen = std::max (1, sym.typespec().arraylength());
int deriv_mult = sym.has_derivs() ? 3 : 1;
int n = arraylen * deriv_mult;
ts.make_array (n);
fields.push_back (llvm_type (ts));
// Alignment
size_t align = sym.typespec().is_closure_based() ? sizeof(void*) :
sym.typespec().simpletype().basesize();
if (offset & (align-1))
offset += align - (offset & (align-1));
if (llvm_debug() >= 2)
std::cout << " " << inst->layername()
<< " (" << inst->id() << ") " << sym.mangled()
<< " " << ts.c_str() << ", field " << order
<< ", offset " << offset << std::endl;
sym.dataoffset ((int)offset);
offset += int(sym.size()) * deriv_mult;
m_param_order_map[&sym] = order;
++order;
}
}
llvm::Type *
BackendLLVM::llvm_type_groupdata ()
{
// If already computed, return it
if (m_llvm_type_groupdata)
return m_llvm_type_groupdata;
std::vector<llvm::Type*> fields;
int offset = 0;
int order = 0;
if (llvm_debug() >= 2)
std::cout << "Group param struct:\n";
// First, add the array that tells if each layer has run. But only make
// slots for the layers that may be called/used.
if (llvm_debug() >= 2)
std::cout << " layers run flags: " << m_num_used_layers
<< " at offset " << offset << "\n";
int sz = (m_num_used_layers + 3) & (~3); // Round up to 32 bit boundary
fields.push_back (ll.type_array (ll.type_bool(), sz));
offset += sz * sizeof(bool);
++order;
// Now add the array that tells which userdata have been initialized,
// and the space for the userdata values.
int nuserdata = (int) group().m_userdata_names.size();
if (nuserdata) {
if (llvm_debug() >= 2)
std::cout << " userdata initialized flags: " << nuserdata
<< " at offset " << offset << ", field " << order << "\n";
ustring *names = & group().m_userdata_names[0];
TypeDesc *types = & group().m_userdata_types[0];
int *offsets = & group().m_userdata_offsets[0];
int sz = (nuserdata + 3) & (~3);
fields.push_back (ll.type_array (ll.type_bool(), sz));
offset += nuserdata * sizeof(bool);
++order;
for (int i = 0; i < nuserdata; ++i) {
TypeDesc type = types[i];
int n = type.numelements() * 3; // always make deriv room
type.arraylen = n;
fields.push_back (llvm_type (type));
// Alignment
int align = type.basesize();
offset = OIIO::round_to_multiple_of_pow2 (offset, align);
if (llvm_debug() >= 2)
std::cout << " userdata " << names[i] << ' ' << type
<< ", field " << order << ", offset " << offset << "\n";
offsets[i] = offset;
offset += int(type.size());
++order;
}
}
// For each layer in the group, add entries for all params that are
// connected or interpolated, and output params. Also mark those
// symbols with their offset within the group struct.
m_param_order_map.clear ();
for (int layer = 0; layer < group().nlayers(); ++layer) {
ShaderInstance *inst = group()[layer];
if (inst->unused())
continue;
FOREACH_PARAM (Symbol &sym, inst) {
TypeSpec ts = sym.typespec();
if (ts.is_structure()) // skip the struct symbol itself
continue;
const int arraylen = std::max (1, sym.typespec().arraylength());
const int derivSize = (sym.has_derivs() ? 3 : 1);
ts.make_array (arraylen * derivSize);
fields.push_back (llvm_type (ts));
// Alignment
size_t align = sym.typespec().is_closure_based() ? sizeof(void*) :
sym.typespec().simpletype().basesize();
if (offset & (align-1))
offset += align - (offset & (align-1));
if (llvm_debug() >= 2)
std::cout << " " << inst->layername()
<< " (" << inst->id() << ") " << sym.mangled()
<< " " << ts.c_str() << ", field " << order
<< ", size " << derivSize * int(sym.size())
<< ", offset " << offset << std::endl;
sym.dataoffset ((int)offset);
offset += derivSize* int(sym.size());
m_param_order_map[&sym] = order;
++order;
}
}