def create_subr_write_typedecl_in_type(self, node): stmt = node.kgen_stmt parent = node.kgen_parent.kgen_parent entity_names = [get_entity_name(decl) for decl in stmt.entity_decls] for entity_name, entity_decl in zip(entity_names, stmt.entity_decls): var = stmt.get_variable(entity_name) subrname = get_typedecl_writename(stmt, entity_name) if subrname is None: raise Exception('Can not get subroutinename') if var.is_array(): if is_zero_array(var, stmt): continue if stmt.is_derived(): self.create_write_subr(subrname, entity_name, parent, var, stmt) else: # intrinsic type if var.is_explicit_shape_array(): pass else: # implicit array self.create_write_subr(subrname, entity_name, parent, var, stmt) else: if stmt.is_derived(): if var.is_allocatable() or var.is_pointer(): self.create_write_subr(subrname, entity_name, parent, var, stmt)
def create_subr_write_typedecl_in_type(self, node): stmt = node.kgen_stmt parent = node.kgen_parent.kgen_parent entity_names = [ get_entity_name(decl) for decl in stmt.entity_decls ] for entity_name, entity_decl in zip(entity_names, stmt.entity_decls): var = stmt.get_variable(entity_name) subrname = get_typedecl_writename(stmt, entity_name) if subrname is None: raise Exception('Can not get subroutinename') if var.is_array(): if is_zero_array(var, stmt): continue if stmt.is_derived(): self.create_write_subr(subrname, entity_name, parent, var, stmt) else: # intrinsic type if var.is_explicit_shape_array(): pass else: # implicit array self.create_write_subr(subrname, entity_name, parent, var, stmt) else: if stmt.is_derived(): if var.is_allocatable() or var.is_pointer(): self.create_write_subr(subrname, entity_name, parent, var, stmt)
def create_subr_write_typedecl_in_module(self, node): parent = node.kgen_parent stmt = node.kgen_stmt raw_entity_names = set([ uname.firstpartname() for uname, req in KGGenType.get_state(stmt.geninfo) ]) entity_names = [ e for e in raw_entity_names if not stmt.get_variable(e).is_parameter() ] raw_out_entity_names = set([ uname.firstpartname() for uname, req in KGGenType.get_state_out(stmt.geninfo) ]) out_entity_names = [ e for e in raw_out_entity_names if not stmt.get_variable(e).is_parameter() ] #entity_names = set([ uname.firstpartname() for uname, req in KGGenType.get_state(stmt.geninfo)]) #out_entity_names = set([ uname.firstpartname() for uname, req in KGGenType.get_state_out(stmt.geninfo)]) is_class_derived = check_class_derived(stmt) for entity_name, entity_decl in zip(entity_names, stmt.entity_decls): if node.kgen_parent.name + entity_name in self.state_extern_writes: continue if is_remove_state(entity_name, stmt): continue self.state_extern_writes.append(node.kgen_parent.name + entity_name) var = stmt.get_variable(entity_name) subrname = get_typedecl_writename(stmt, entity_name) if var.is_array(): if is_zero_array(var, stmt): continue if stmt.is_derived() or is_class_derived: self.create_write_call( self.state_externs_subrs[node.kgen_parent][0], subrname, entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_call( self.state_externs_subrs[node.kgen_parent][1], subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, parent, var, stmt) self.state_created_subrs.append(subrname) else: # intrinsic type if var.is_explicit_shape_array(): self.create_write_intrinsic( self.state_externs_subrs[node.kgen_parent][0], entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_intrinsic( self.state_externs_subrs[node.kgen_parent][1], entity_name, stmt, var) else: # implicit array self.create_write_call( self.state_externs_subrs[node.kgen_parent][0], subrname, entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_call( self.state_externs_subrs[node.kgen_parent][1], subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, parent, var, stmt) self.state_created_subrs.append(subrname) else: # scalar if stmt.is_derived() or is_class_derived: if var.is_allocatable() or var.is_pointer(): self.create_write_call( self.state_externs_subrs[node.kgen_parent][0], subrname, entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_call( self.state_externs_subrs[node.kgen_parent][1], subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, parent, var, stmt) self.state_created_subrs.append(subrname) else: subrname = None for uname, req in stmt.unknowns.iteritems(): if (is_class_derived and uname.firstpartname() == stmt.selector[1] ) or uname.firstpartname() == stmt.name: #if uname.firstpartname()==stmt.name: if len(req.res_stmts) > 0: res = req.res_stmts[0] subrname = get_dtype_writename(res) break if subrname is None: print 'WARNING: Can not find Type resolver for %s' % stmt.name namedpart_append_comment(self.state_externs_subrs[node.kgen_parent][0], EXEC_PART, \ 'ERROR: "%s" is not resolved. Call statements to write "%s" is not created here.'%\ (stmt.name, stmt.name)) else: self.create_write_call( self.state_externs_subrs[node.kgen_parent][0], subrname, entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_call( self.state_externs_subrs[node.kgen_parent] [1], subrname, entity_name, stmt, var) else: # intrinsic type self.create_write_intrinsic( self.state_externs_subrs[node.kgen_parent][0], entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_intrinsic( self.state_externs_subrs[node.kgen_parent][1], entity_name, stmt, var)
def create_dtype_write_subr(self, node): assert node.kgen_stmt, 'None kgen statement' subrname = get_dtype_writename(node.kgen_stmt) if subrname is None: return parent = node.kgen_parent checks = lambda n: isinstance(n.kgen_stmt, block_statements.Subroutine ) and n.name == subrname if not part_has_node(parent, SUBP_PART, checks): checks = lambda n: n.kgen_match_class == statements.Contains if not parent in state_gencore_contains and not part_has_node( parent, CONTAINS_PART, checks): part_append_comment(parent, CONTAINS_PART, '') part_append_gensnode(parent, CONTAINS_PART, statements.Contains) part_append_comment(parent, CONTAINS_PART, '') state_gencore_contains.append(parent) part_append_comment(parent, SUBP_PART, 'read state subroutine for %s' % subrname) attrs = { 'prefix': 'RECURSIVE', 'name': subrname, 'args': ['var', 'kgen_unit', 'printname', 'printvar'] } subrobj = part_append_gensnode(parent, SUBP_PART, block_statements.Subroutine, attrs=attrs) part_append_comment(parent, SUBP_PART, '') # variable attrs = { 'type_spec': 'TYPE', 'attrspec': ['INTENT(IN)'], 'selector': (None, node.name), 'entity_decls': ['var'] } part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Type, attrs=attrs) # kgen_unit attrs = { 'type_spec': 'INTEGER', 'attrspec': ['INTENT(IN)'], 'entity_decls': ['kgen_unit'] } part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Integer, attrs=attrs) # printname attrs = { 'type_spec': 'CHARACTER', 'attrspec': ['INTENT(IN)'], 'selector': ('*', None), 'entity_decls': ['printname'] } part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Character, attrs=attrs) # printvar attrs = { 'type_spec': 'LOGICAL', 'attrspec': ['INTENT(IN)', 'OPTIONAL'], 'selector': (None, None), 'entity_decls': ['printvar'] } part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Character, attrs=attrs) # kgen_istrue attrs = {'type_spec': 'LOGICAL', 'entity_decls': ['kgen_istrue']} part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Logical, attrs=attrs) attrs = { 'type_spec': 'REAL', 'entity_decls': ['kgen_array_sum'], 'selector': (None, '8') } part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Real, attrs=attrs) part_append_comment(subrobj, DECL_PART, '') parent_names = [] getinfo('traverse')(node.kgen_stmt.f2003, self.get_extends, parent_names) extends = [] for parent_typename in parent_names: for uname, req in node.kgen_stmt.unknowns.iteritems(): if uname.firstpartname() == parent_typename: if len(req.res_stmts) > 0: extends.extend( get_part(req.res_stmts[0].genspair, TYPE_PART)) break comp_part = get_part(node, TYPE_PART) for item in extends + comp_part: if not hasattr(item, 'kgen_stmt'): continue if not isinstance( item.kgen_stmt, typedecl_statements.TypeDeclarationStatement): continue stmt = item.kgen_stmt entity_names = [ get_entity_name(decl) for decl in stmt.entity_decls ] for entity_name, entity_decl in zip(entity_names, stmt.entity_decls): if is_remove_state(entity_name, stmt): continue node.kgen_stmt.top.used4genstate = True var = stmt.get_variable(entity_name) callname = get_typedecl_writename(stmt, entity_name) if var.is_array(): if stmt.is_derived(): self.create_write_call(subrobj, callname, entity_name, stmt, var) else: # intrinsic type if var.is_explicit_shape_array(): self.create_write_intrinsic( subrobj, entity_name, stmt, var) callname = None else: # implicit array self.create_write_call(subrobj, callname, entity_name, stmt, var) else: # scalar if stmt.is_derived(): if var.is_allocatable() or var.is_pointer(): self.create_write_call(subrobj, callname, entity_name, stmt, var) else: callname = None for uname, req in stmt.unknowns.iteritems(): if uname.firstpartname( ) == stmt.name and len(req.res_stmts) > 0: res = req.res_stmts[0] callname = get_dtype_writename(res) break if callname is None: print 'WARNING: Can not find Type resolver for %s' % stmt.name part_append_comment(subrobj, EXEC_PART, \ 'ERROR: "%s" is not resolved. Call statement to write "%s" is not created here.'%\ (stmt.name, stmt.name)) else: self.create_write_call( subrobj, callname, entity_name, stmt, var) else: # intrinsic type self.create_write_intrinsic( subrobj, entity_name, stmt, var) callname = None if node.kgen_stmt.ancestors( )[0] != item.kgen_stmt.ancestors()[0] and callname: # add use pnode = node.kgen_parent checks = lambda n: n.kgen_match_class==statements.Use and n.kgen_stmt and n.kgen_stmt.isonly and \ callname in n.kgen_stmt.items if ( id(pnode), callname ) not in self.state_created_use_items and not part_has_node( pnode, USE_PART, checks): attrs = { 'name': item.kgen_stmt.ancestors()[0].name, 'isonly': True, 'items': [callname] } part_append_gensnode(pnode, USE_PART, statements.Use, attrs=attrs) self.state_created_use_items.append( (id(pnode), callname)) pnode.kgen_stmt.top.used4genstate = True part_append_comment(subrobj, EXEC_PART, '') # create public stmt if parent.kgen_match_class in [ block_statements.Program, block_statements.Module ]: attrs = {'items': [subrname]} part_append_gensnode(parent, DECL_PART, statements.Public, attrs=attrs)
def create_subr_write_typedecl_in_parentblock(self, node): stmt = node.kgen_stmt argintype = [] localintype = [] localouttype = [] for uname, req in KGGenType.get_state_in(stmt.geninfo): entity_name = uname.firstpartname() var = stmt.get_variable(entity_name) if var.is_parameter(): continue if is_remove_state(entity_name, stmt): continue if self.check_intent(entity_name, stmt): if (entity_name, STATE_PBLOCK_WRITE_IN_ARGS) not in argintype: argintype.append((entity_name, STATE_PBLOCK_WRITE_IN_ARGS)) elif (entity_name, STATE_PBLOCK_WRITE_IN_LOCALS) not in localintype and ( entity_name, STATE_PBLOCK_WRITE_IN_ARGS) not in argintype: localintype.append( (uname.firstpartname(), STATE_PBLOCK_WRITE_IN_LOCALS)) for uname, req in KGGenType.get_state_out(stmt.geninfo): entity_name = uname.firstpartname() var = stmt.get_variable(entity_name) if var.is_parameter(): continue if is_remove_state(entity_name, stmt): continue if (entity_name, STATE_PBLOCK_WRITE_OUT_LOCALS) not in localouttype: localouttype.append( (uname.firstpartname(), STATE_PBLOCK_WRITE_OUT_LOCALS)) if (entity_name, STATE_PBLOCK_WRITE_IN_ARGS) in argintype: continue if (entity_name, STATE_PBLOCK_WRITE_IN_LOCALS) not in localintype: localintype.append( (uname.firstpartname(), STATE_PBLOCK_WRITE_IN_LOCALS)) vartypes = { 'argintype': argintype, 'localintype': localintype, 'localouttype': localouttype } # for state is_class_derived = check_class_derived(stmt) for vartypename, vartype in vartypes.iteritems(): for entity_name, partid in vartype: var = stmt.get_variable(entity_name) subrname = get_typedecl_writename(stmt, entity_name) if var.is_array(): if is_zero_array(var, stmt): continue if stmt.is_derived() or is_class_derived: self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, node.kgen_parent, var, stmt) self.state_created_subrs.append(subrname) else: # intrinsic type if var.is_explicit_shape_array(): if vartypename == 'argintype' or var.is_pointer(): self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, node.kgen_parent, var, stmt) self.state_created_subrs.append(subrname) else: self.create_write_intrinsic( node.kgen_kernel_id, partid, entity_name, stmt, var) else: # implicit array self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, node.kgen_parent, var, stmt) self.state_created_subrs.append(subrname) else: # scalar if stmt.is_derived() or is_class_derived or var.is_pointer( ): if var.is_allocatable() or var.is_pointer( ) or var.is_pointer(): self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, node.kgen_parent, var, stmt) self.state_created_subrs.append(subrname) else: subrname = None for uname, req in stmt.unknowns.iteritems(): if uname.firstpartname() == stmt.name and len( req.res_stmts) > 0: res = req.res_stmts[0] subrname = get_dtype_writename(res) break if subrname is None: print 'WARNING: Can not find Type resolver for %s' % stmt.name namedpart_append_comment(node.kgen_kernel_id, partid, \ 'ERROR: "%s" is not resolved. Call statements to write "%s" is not created here.'%\ (stmt.name, stmt.name)) else: self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) else: # intrinsic type self.create_write_intrinsic(node.kgen_kernel_id, partid, entity_name, stmt, var)
def create_subr_write_typedecl_in_parentblock(self, node): stmt = node.kgen_stmt argintype = [] localintype = [] localouttype = [] for uname, req in KGGenType.get_state_in(stmt.geninfo): entity_name = uname.firstpartname() var = stmt.get_variable(entity_name) if var.is_parameter(): continue if is_remove_state(entity_name, stmt): continue if self.check_intent(entity_name, stmt): if (entity_name,STATE_PBLOCK_WRITE_IN_ARGS) not in argintype: argintype.append((entity_name, STATE_PBLOCK_WRITE_IN_ARGS)) elif (entity_name,STATE_PBLOCK_WRITE_IN_LOCALS) not in localintype and (entity_name,STATE_PBLOCK_WRITE_IN_ARGS) not in argintype: localintype.append((uname.firstpartname(), STATE_PBLOCK_WRITE_IN_LOCALS)) for uname, req in KGGenType.get_state_out(stmt.geninfo): entity_name = uname.firstpartname() var = stmt.get_variable(entity_name) if var.is_parameter(): continue if is_remove_state(entity_name, stmt): continue if (entity_name,STATE_PBLOCK_WRITE_OUT_LOCALS) not in localouttype: localouttype.append((uname.firstpartname(), STATE_PBLOCK_WRITE_OUT_LOCALS)) if (entity_name,STATE_PBLOCK_WRITE_IN_ARGS) in argintype: continue if (entity_name,STATE_PBLOCK_WRITE_IN_LOCALS) not in localintype: localintype.append((uname.firstpartname(), STATE_PBLOCK_WRITE_IN_LOCALS)) vartypes = { 'argintype': argintype, 'localintype': localintype, 'localouttype': localouttype } # for state is_class_derived = check_class_derived(stmt) for vartypename, vartype in vartypes.iteritems(): for entity_name, partid in vartype: var = stmt.get_variable(entity_name) subrname = get_typedecl_writename(stmt, entity_name) if var.is_array(): if is_zero_array(var, stmt): continue if stmt.is_derived() or is_class_derived: self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, node.kgen_parent, var, stmt) self.state_created_subrs.append(subrname) else: # intrinsic type if var.is_explicit_shape_array(): if vartypename=='argintype' or var.is_pointer(): self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, node.kgen_parent, var, stmt) self.state_created_subrs.append(subrname) else: self.create_write_intrinsic(node.kgen_kernel_id, partid, entity_name, stmt, var) else: # implicit array self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, node.kgen_parent, var, stmt) self.state_created_subrs.append(subrname) else: # scalar if stmt.is_derived() or is_class_derived or var.is_pointer(): if var.is_allocatable() or var.is_pointer() or var.is_pointer(): self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, node.kgen_parent, var, stmt) self.state_created_subrs.append(subrname) else: subrname = None for uname, req in stmt.unknowns.iteritems(): if uname.firstpartname()==stmt.name and len(req.res_stmts)>0: res = req.res_stmts[0] subrname = get_dtype_writename(res) break if subrname is None: print 'WARNING: Can not find Type resolver for %s'%stmt.name namedpart_append_comment(node.kgen_kernel_id, partid, \ 'ERROR: "%s" is not resolved. Call statements to write "%s" is not created here.'%\ (stmt.name, stmt.name)) else: self.create_write_call(node.kgen_kernel_id, partid, subrname, entity_name, stmt, var) else: # intrinsic type self.create_write_intrinsic(node.kgen_kernel_id, partid, entity_name, stmt, var)
def create_subr_write_typedecl_in_module(self, node): parent = node.kgen_parent stmt = node.kgen_stmt raw_entity_names = set([ uname.firstpartname() for uname, req in KGGenType.get_state(stmt.geninfo)]) entity_names = [ e for e in raw_entity_names if not stmt.get_variable(e).is_parameter() ] raw_out_entity_names = set([ uname.firstpartname() for uname, req in KGGenType.get_state_out(stmt.geninfo)]) out_entity_names = [ e for e in raw_out_entity_names if not stmt.get_variable(e).is_parameter() ] #entity_names = set([ uname.firstpartname() for uname, req in KGGenType.get_state(stmt.geninfo)]) #out_entity_names = set([ uname.firstpartname() for uname, req in KGGenType.get_state_out(stmt.geninfo)]) is_class_derived = check_class_derived(stmt) for entity_name, entity_decl in zip(entity_names, stmt.entity_decls): if node.kgen_parent.name+entity_name in self.state_extern_writes: continue if is_remove_state(entity_name, stmt): continue self.state_extern_writes.append(node.kgen_parent.name+entity_name) var = stmt.get_variable(entity_name) subrname = get_typedecl_writename(stmt, entity_name) if var.is_array(): if is_zero_array(var, stmt): continue if stmt.is_derived() or is_class_derived: self.create_write_call(self.state_externs_subrs[node.kgen_parent][0], subrname, entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_call(self.state_externs_subrs[node.kgen_parent][1], subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, parent, var, stmt) self.state_created_subrs.append(subrname) else: # intrinsic type if var.is_explicit_shape_array(): self.create_write_intrinsic(self.state_externs_subrs[node.kgen_parent][0], entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_intrinsic(self.state_externs_subrs[node.kgen_parent][1], entity_name, stmt, var) else: # implicit array self.create_write_call(self.state_externs_subrs[node.kgen_parent][0], subrname, entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_call(self.state_externs_subrs[node.kgen_parent][1], subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, parent, var, stmt) self.state_created_subrs.append(subrname) else: # scalar if stmt.is_derived() or is_class_derived: if var.is_allocatable() or var.is_pointer(): self.create_write_call(self.state_externs_subrs[node.kgen_parent][0], subrname, entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_call(self.state_externs_subrs[node.kgen_parent][1], subrname, entity_name, stmt, var) if subrname not in self.state_created_subrs: create_write_subr(subrname, entity_name, parent, var, stmt) self.state_created_subrs.append(subrname) else: subrname = None for uname, req in stmt.unknowns.iteritems(): if ( is_class_derived and uname.firstpartname()==stmt.selector[1]) or uname.firstpartname()==stmt.name: #if uname.firstpartname()==stmt.name: if len(req.res_stmts)>0: res = req.res_stmts[0] subrname = get_dtype_writename(res) break if subrname is None: print 'WARNING: Can not find Type resolver for %s'%stmt.name namedpart_append_comment(self.state_externs_subrs[node.kgen_parent][0], EXEC_PART, \ 'ERROR: "%s" is not resolved. Call statements to write "%s" is not created here.'%\ (stmt.name, stmt.name)) else: self.create_write_call(self.state_externs_subrs[node.kgen_parent][0], subrname, entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_call(self.state_externs_subrs[node.kgen_parent][1], subrname, entity_name, stmt, var) else: # intrinsic type self.create_write_intrinsic(self.state_externs_subrs[node.kgen_parent][0], entity_name, stmt, var) if entity_name in out_entity_names: self.create_write_intrinsic(self.state_externs_subrs[node.kgen_parent][1], entity_name, stmt, var)
def create_dtype_write_subr(self, node): assert node.kgen_stmt, 'None kgen statement' subrname = get_dtype_writename(node.kgen_stmt) if subrname is None: return parent = node.kgen_parent checks = lambda n: isinstance(n.kgen_stmt, block_statements.Subroutine) and n.name==subrname if not part_has_node(parent, SUBP_PART, checks): checks = lambda n: n.kgen_match_class==statements.Contains if not parent in state_gencore_contains and not part_has_node(parent, CONTAINS_PART, checks): part_append_comment(parent, CONTAINS_PART, '') part_append_gensnode(parent, CONTAINS_PART, statements.Contains) part_append_comment(parent, CONTAINS_PART, '') state_gencore_contains.append(parent) part_append_comment(parent, SUBP_PART, 'read state subroutine for %s'%subrname) attrs = {'prefix': 'RECURSIVE', 'name': subrname, 'args': ['var', 'kgen_unit', 'printvar']} subrobj = part_append_gensnode(parent, SUBP_PART, block_statements.Subroutine, attrs=attrs) part_append_comment(parent, SUBP_PART, '') # variable attrs = {'type_spec': 'TYPE', 'attrspec': ['INTENT(IN)'], 'selector':(None, node.name), 'entity_decls': ['var']} part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Type, attrs=attrs) # kgen_unit attrs = {'type_spec': 'INTEGER', 'attrspec': ['INTENT(IN)'], 'entity_decls': ['kgen_unit']} part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Integer, attrs=attrs) # printvar attrs = {'type_spec': 'CHARACTER', 'attrspec': ['INTENT(IN)', 'OPTIONAL'], 'selector':('*', None), 'entity_decls': ['printvar']} part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Character, attrs=attrs) # kgen_istrue attrs = {'type_spec': 'LOGICAL', 'entity_decls': ['kgen_istrue']} part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Logical, attrs=attrs) attrs = {'type_spec': 'REAL', 'entity_decls': ['kgen_array_sum'], 'selector': (None, '8')} part_append_gensnode(subrobj, DECL_PART, typedecl_statements.Real, attrs=attrs) part_append_comment(subrobj, DECL_PART, '') #comp_part = get_part(node, TYPE_COMP_PART) comp_part = get_part(node, TYPE_PART) for item in comp_part: if not hasattr(item, 'kgen_stmt'): continue if not isinstance(item.kgen_stmt, typedecl_statements.TypeDeclarationStatement): continue stmt = item.kgen_stmt entity_names = [ get_entity_name(decl) for decl in stmt.entity_decls ] for entity_name, entity_decl in zip(entity_names, stmt.entity_decls): if is_remove_state(entity_name, stmt): continue node.kgen_stmt.top.used4genstate = True var = stmt.get_variable(entity_name) callname = get_typedecl_writename(stmt, entity_name) if var.is_array(): if stmt.is_derived(): self.create_write_call(subrobj, callname, entity_name, stmt, var) else: # intrinsic type if var.is_explicit_shape_array(): self.create_write_intrinsic(subrobj, entity_name, stmt, var) else: # implicit array self.create_write_call(subrobj, callname, entity_name, stmt, var) else: # scalar if stmt.is_derived(): if var.is_allocatable() or var.is_pointer(): self.create_write_call(subrobj, callname, entity_name, stmt, var) else: callname = None for uname, req in stmt.unknowns.iteritems(): if uname.firstpartname()==stmt.name and len(req.res_stmts)>0: res = req.res_stmts[0] callname = get_dtype_writename(res) break if callname is None: print 'WARNING: Can not find Type resolver for %s'%stmt.name part_append_comment(subrobj, EXEC_PART, \ 'ERROR: "%s" is not resolved. Call statement to write "%s" is not created here.'%\ (stmt.name, stmt.name)) else: self.create_write_call(subrobj, callname, entity_name, stmt, var) else: # intrinsic type self.create_write_intrinsic(subrobj, entity_name, stmt, var) part_append_comment(subrobj, EXEC_PART, '') # create public stmt if parent.kgen_match_class in [ block_statements.Program, block_statements.Module ]: attrs = {'items': [subrname]} part_append_gensnode(parent, DECL_PART, statements.Public, attrs=attrs)