/****************************************************************************** * This files includes data structures for module management. * It keeps a list of modules that have been generated, the port map of the modules, * parents and children of each modules. This will ease instanciation of modules * with explicit port map and outputting a hierarchy of modules * * Module includes the basic information: * 1. unique identifier * 2. module name: which should be unique * 3. port list: basic information of all the ports belonging to the module * 4. port types: types of each port, which will matter how we output the ports * 5. parent modules: ids of parent modules * 6. children modules: ids of child modules ******************************************************************************/ #ifndef MODULE_MANAGER_H #define MODULE_MANAGER_H #include #include #include "vtr_vector.h" #include "module_manager_fwd.h" #include "device_port.h" class ModuleManager { public: /* Private data structures */ enum e_module_port_type { MODULE_GLOBAL_PORT, /* Global inputs */ MODULE_GPIO_PORT, /* General-purpose IOs, which are data IOs of the fabric */ MODULE_INOUT_PORT, /* Normal (non-global) inout ports */ MODULE_INPUT_PORT, /* Normal (non-global) input ports */ MODULE_OUTPUT_PORT, /* Normal (non-global) output ports */ MODULE_CLOCK_PORT, /* Nromal (non-global) clock ports*/ NUM_MODULE_PORT_TYPES }; public: /* Public Constructors */ public: /* Types and ranges */ typedef vtr::vector::const_iterator module_iterator; typedef vtr::vector::const_iterator module_port_iterator; typedef vtr::vector::const_iterator module_net_iterator; typedef vtr::vector::const_iterator module_net_src_iterator; typedef vtr::vector::const_iterator module_net_sink_iterator; typedef vtr::Range module_range; typedef vtr::Range module_port_range; typedef vtr::Range module_net_range; typedef vtr::Range module_net_src_range; typedef vtr::Range module_net_sink_range; public: /* Public aggregators */ /* Find all the modules */ module_range modules() const; /* Find all the ports belonging to a module */ module_port_range module_ports(const ModuleId& module) const; /* Find all the nets belonging to a module */ module_net_range module_nets(const ModuleId& module) const; /* Find all the child modules under a parent module */ std::vector child_modules(const ModuleId& parent_module) const; /* Find all the instances under a parent module */ std::vector child_module_instances(const ModuleId& parent_module, const ModuleId& child_module) const; /* Find all the configurable child modules under a parent module */ std::vector configurable_children(const ModuleId& parent_module) const; /* Find all the instances of configurable child modules under a parent module */ std::vector configurable_child_instances(const ModuleId& parent_module) const; /* Find the source ids of modules */ module_net_src_range module_net_sources(const ModuleId& module, const ModuleNetId& net) const; /* Find the sink ids of modules */ module_net_sink_range module_net_sinks(const ModuleId& module, const ModuleNetId& net) const; public: /* Public accessors */ size_t num_modules() const; size_t num_nets(const ModuleId& module) const; std::string module_name(const ModuleId& module_id) const; std::string module_port_type_str(const enum e_module_port_type& port_type) const; std::vector module_ports_by_type(const ModuleId& module_id, const enum e_module_port_type& port_type) const; std::vector module_port_ids_by_type(const ModuleId& module_id, const enum e_module_port_type& port_type) const; /* Find a port of a module by a given name */ ModulePortId find_module_port(const ModuleId& module_id, const std::string& port_name) const; /* Find the Port information with a given port id */ BasicPort module_port(const ModuleId& module_id, const ModulePortId& port_id) const; /* Find a module by a given name */ ModuleId find_module(const std::string& name) const; /* Find the number of instances of a child module in the parent module */ size_t num_instance(const ModuleId& parent_module, const ModuleId& child_module) const; /* Find the instance name of a child module */ std::string instance_name(const ModuleId& parent_module, const ModuleId& child_module, const size_t& instance_id) const; /* Find the instance id of a given instance name */ size_t instance_id(const ModuleId& parent_module, const ModuleId& child_module, const std::string& instance_name) const; /* Find if a port is a wire connection */ bool port_is_wire(const ModuleId& module, const ModulePortId& port) const; /* Find if a port is register */ bool port_is_register(const ModuleId& module, const ModulePortId& port) const; /* Return the pre-processing flag of a port */ std::string port_preproc_flag(const ModuleId& module, const ModulePortId& port) const; /* Find a net from an instance of a module */ ModuleNetId module_instance_port_net(const ModuleId& parent_module, const ModuleId& child_module, const size_t& child_instance, const ModulePortId& child_port, const size_t& child_pin) const; /* Find the name of net */ std::string net_name(const ModuleId& module, const ModuleNetId& net) const; /* Find the source modules of a net */ vtr::vector net_source_modules(const ModuleId& module, const ModuleNetId& net) const; /* Find the ids of source instances of a net */ vtr::vector net_source_instances(const ModuleId& module, const ModuleNetId& net) const; /* Find the source ports of a net */ vtr::vector net_source_ports(const ModuleId& module, const ModuleNetId& net) const; /* Find the source pin indices of a net */ vtr::vector net_source_pins(const ModuleId& module, const ModuleNetId& net) const; /* Find the sink modules of a net */ vtr::vector net_sink_modules(const ModuleId& module, const ModuleNetId& net) const; /* Find the ids of sink instances of a net */ vtr::vector net_sink_instances(const ModuleId& module, const ModuleNetId& net) const; /* Find the sink ports of a net */ vtr::vector net_sink_ports(const ModuleId& module, const ModuleNetId& net) const; /* Find the sink pin indices of a net */ vtr::vector net_sink_pins(const ModuleId& module, const ModuleNetId& net) const; private: /* Private accessors */ size_t find_child_module_index_in_parent_module(const ModuleId& parent_module, const ModuleId& child_module) const; public: /* Public mutators */ /* Add a module */ ModuleId add_module(const std::string& name); /* Add a port to a module */ ModulePortId add_port(const ModuleId& module, const BasicPort& port_info, const enum e_module_port_type& port_type); /* Set a name for a module */ void set_module_name(const ModuleId& module, const std::string& name); /* Set a port to be a wire */ void set_port_is_wire(const ModuleId& module, const std::string& port_name, const bool& is_wire); /* Set a port to be a register */ void set_port_is_register(const ModuleId& module, const std::string& port_name, const bool& is_register); /* Set the preprocessing flag for a port */ void set_port_preproc_flag(const ModuleId& module, const ModulePortId& port, const std::string& preproc_flag); /* Add a child module to a parent module */ void add_child_module(const ModuleId& parent_module, const ModuleId& child_module); /* Set the instance name of a child module */ void set_child_instance_name(const ModuleId& parent_module, const ModuleId& child_module, const size_t& instance_id, const std::string& instance_name); /* Add a configurable child module to module */ void add_configurable_child(const ModuleId& module, const ModuleId& child_module, const size_t& child_instance); /* Add a net to the connection graph of the module */ ModuleNetId create_module_net(const ModuleId& module); /* Set the name of net */ void set_net_name(const ModuleId& module, const ModuleNetId& net, const std::string& name); /* Add a source to a net in the connection graph */ ModuleNetSrcId add_module_net_source(const ModuleId& module, const ModuleNetId& net, const ModuleId& src_module, const size_t& instance_id, const ModulePortId& src_port, const size_t& src_pin); /* Add a sink to a net in the connection graph */ ModuleNetSinkId add_module_net_sink(const ModuleId& module, const ModuleNetId& net, const ModuleId& sink_module, const size_t& instance_id, const ModulePortId& sink_port, const size_t& sink_pin); public: /* Public validators/invalidators */ bool valid_module_id(const ModuleId& module) const; bool valid_module_port_id(const ModuleId& module, const ModulePortId& port) const; bool valid_module_net_id(const ModuleId& module, const ModuleNetId& net) const; private: /* Private validators/invalidators */ void invalidate_name2id_map(); void invalidate_port_lookup(); void invalidate_net_lookup(); private: /* Internal data */ /* Module-level data */ vtr::vector ids_; /* Unique identifier for each Module */ vtr::vector names_; /* Unique identifier for each Module */ vtr::vector> parents_; /* Parent modules that include the module */ vtr::vector> children_; /* Child modules that this module contain */ vtr::vector> num_child_instances_; /* Number of children instance in each child module */ vtr::vector>> child_instance_names_; /* Number of children instance in each child module */ /* Configurable child modules are used to record the position of configurable modules in bitstream * The sequence of children in the list denotes which one is configured first, etc. * Note that the sequence can be totally different from the children_ list * This is really dependent how the configuration protocol is organized * which should be made by users/designers */ vtr::vector> configurable_children_; /* Child modules with configurable memory bits that this module contain */ vtr::vector> configurable_child_instances_; /* Instances of child modules with configurable memory bits that this module contain */ /* Port-level data */ vtr::vector> port_ids_; /* List of ports for each Module */ vtr::vector> ports_; /* List of ports for each Module */ vtr::vector> port_types_; /* Type of ports */ vtr::vector> port_is_wire_; /* If the port is a wire, use for Verilog port definition. If enabled: reg */ vtr::vector> port_is_register_; /* If the port is a register, use for Verilog port definition. If enabled: reg */ vtr::vector> port_preproc_flags_; /* If a port is available only when a pre-processing flag is enabled. This is to record the pre-processing flags */ /* Graph-level data: * We use nets to model the connection between pins of modules and instances. * To avoid large memory footprint, we do NOT create pins, * To enable fast look-up on pins, we create a fast look-up */ vtr::vector> net_ids_; /* List of nets for each Module */ vtr::vector> net_names_; /* Name of net */ vtr::vector>> net_src_ids_; /* Unique id of the source that drive the net */ vtr::vector>> net_src_module_ids_; /* Pin ids that drive the net */ vtr::vector>> net_src_instance_ids_; /* Pin ids that drive the net */ vtr::vector>> net_src_port_ids_; /* Pin ids that drive the net */ vtr::vector>> net_src_pin_ids_; /* Pin ids that drive the net */ vtr::vector>> net_sink_ids_; /* Unique ids of the sink that the net drives */ vtr::vector>> net_sink_module_ids_; /* Pin ids that the net drives */ vtr::vector>> net_sink_instance_ids_; /* Pin ids that drive the net */ vtr::vector>> net_sink_port_ids_; /* Pin ids that drive the net */ vtr::vector>> net_sink_pin_ids_; /* Pin ids that drive the net */ /* fast look-up for module */ std::map name_id_map_; /* fast look-up for ports */ typedef vtr::vector>> PortLookup; mutable PortLookup port_lookup_; /* [module_ids][port_types][port_ids] */ /* fast look-up for nets */ typedef vtr::vector>>>> NetLookup; mutable NetLookup net_lookup_; /* [module_ids][module_ids][instance_ids][port_ids][pin_ids] */ }; #endif