Add copy constructor for RRChan, RRSwitchBlock etc.
This commit is contained in:
parent
1bea9870fc
commit
5720217cfd
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@ -3,12 +3,10 @@
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/* Member functions for DeviceCoordinator */
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/* Member functions for DeviceCoordinator */
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/* Public constructors */
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/* Public constructors */
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/*
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DeviceCoordinator::DeviceCoordinator(const DeviceCoordinator& coordinator) {
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DeviceCoordinator::DeviceCoordinator(DeviceCoordinator& coordinator) {
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set(coordinator.get_x(), coordinator.get_y());
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set(coordinator.get_x(), coordinator.get_y());
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return;
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return;
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}
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}
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*/
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DeviceCoordinator::DeviceCoordinator(size_t x, size_t y) {
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DeviceCoordinator::DeviceCoordinator(size_t x, size_t y) {
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set(x, y);
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set(x, y);
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@ -11,6 +11,7 @@
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class DeviceCoordinator {
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class DeviceCoordinator {
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public: /* Contructors */
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public: /* Contructors */
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DeviceCoordinator(size_t x, size_t y);
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DeviceCoordinator(size_t x, size_t y);
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DeviceCoordinator(const DeviceCoordinator&); /* copy constructor*/
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DeviceCoordinator();
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DeviceCoordinator();
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public: /* Accessors */
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public: /* Accessors */
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size_t get_x() const;
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size_t get_x() const;
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@ -1048,7 +1048,7 @@ RRSwitchBlock rotate_rr_switch_block_for_mirror(DeviceCoordinator& device_range,
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* nothing to do. This is the base we like
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* nothing to do. This is the base we like
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*/
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*/
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if ( ( 0 == rotated_rr_switch_block.get_x())
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if ( ( 0 == rotated_rr_switch_block.get_x())
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|| ( 0 == rotated_rr_switch_block.get_y()) ) {
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&& ( 0 == rotated_rr_switch_block.get_y()) ) {
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return rotated_rr_switch_block;
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return rotated_rr_switch_block;
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}
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}
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/* 2. TOP-LEFT corner:
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/* 2. TOP-LEFT corner:
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@ -1056,7 +1056,7 @@ RRSwitchBlock rotate_rr_switch_block_for_mirror(DeviceCoordinator& device_range,
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* swap the chan_node between TOP and BOTTOM,
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* swap the chan_node between TOP and BOTTOM,
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*/
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*/
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if ( ( 0 == rotated_rr_switch_block.get_x())
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if ( ( 0 == rotated_rr_switch_block.get_x())
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|| (device_range.get_y() == rotated_rr_switch_block.get_y()) ) {
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&& (device_range.get_y() == rotated_rr_switch_block.get_y()) ) {
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rotated_rr_switch_block.swap_opin_node(TOP, BOTTOM);
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rotated_rr_switch_block.swap_opin_node(TOP, BOTTOM);
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rotated_rr_switch_block.swap_chan_node(TOP, BOTTOM);
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rotated_rr_switch_block.swap_chan_node(TOP, BOTTOM);
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rotated_rr_switch_block.mirror_side_chan_node_direction(TOP);
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rotated_rr_switch_block.mirror_side_chan_node_direction(TOP);
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@ -1070,10 +1070,9 @@ RRSwitchBlock rotate_rr_switch_block_for_mirror(DeviceCoordinator& device_range,
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* swap the chan_node between LEFT and RIGHT,
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* swap the chan_node between LEFT and RIGHT,
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*/
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*/
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if ( (device_range.get_x() == rotated_rr_switch_block.get_x())
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if ( (device_range.get_x() == rotated_rr_switch_block.get_x())
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|| (device_range.get_y() == rotated_rr_switch_block.get_y()) ) {
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&& (device_range.get_y() == rotated_rr_switch_block.get_y()) ) {
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rotated_rr_switch_block.swap_opin_node(TOP, BOTTOM);
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rotated_rr_switch_block.swap_opin_node(TOP, BOTTOM);
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rotated_rr_switch_block.swap_chan_node(TOP, BOTTOM);
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rotated_rr_switch_block.swap_chan_node(TOP, BOTTOM);
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return rotated_rr_switch_block;
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rotated_rr_switch_block.mirror_side_chan_node_direction(TOP);
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rotated_rr_switch_block.mirror_side_chan_node_direction(TOP);
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rotated_rr_switch_block.mirror_side_chan_node_direction(BOTTOM);
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rotated_rr_switch_block.mirror_side_chan_node_direction(BOTTOM);
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rotated_rr_switch_block.swap_opin_node(LEFT, RIGHT);
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rotated_rr_switch_block.swap_opin_node(LEFT, RIGHT);
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@ -1087,7 +1086,7 @@ RRSwitchBlock rotate_rr_switch_block_for_mirror(DeviceCoordinator& device_range,
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* swap the chan_node between LEFT and RIGHT,
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* swap the chan_node between LEFT and RIGHT,
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*/
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*/
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if ( (device_range.get_x() == rotated_rr_switch_block.get_x())
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if ( (device_range.get_x() == rotated_rr_switch_block.get_x())
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|| (0 == rotated_rr_switch_block.get_y()) ) {
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&& (0 == rotated_rr_switch_block.get_y()) ) {
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rotated_rr_switch_block.swap_opin_node(LEFT, RIGHT);
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rotated_rr_switch_block.swap_opin_node(LEFT, RIGHT);
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rotated_rr_switch_block.swap_chan_node(LEFT, RIGHT);
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rotated_rr_switch_block.swap_chan_node(LEFT, RIGHT);
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rotated_rr_switch_block.mirror_side_chan_node_direction(LEFT);
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rotated_rr_switch_block.mirror_side_chan_node_direction(LEFT);
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@ -1167,18 +1166,17 @@ DeviceRRSwitchBlock build_device_rr_switch_blocks(int LL_num_rr_nodes, t_rr_node
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DeviceRRSwitchBlock LL_device_rr_switch_block;
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DeviceRRSwitchBlock LL_device_rr_switch_block;
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/* Initialize */
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/* Initialize */
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DeviceCoordinator device_coordinator((size_t)nx + 1, (size_t)ny + 1);
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DeviceCoordinator sb_range((size_t)nx, (size_t)ny);
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LL_device_rr_switch_block.reserve(device_coordinator);
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LL_device_rr_switch_block.reserve(sb_range);
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/* For each switch block, determine the size of array */
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/* For each switch block, determine the size of array */
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for (size_t ix = 0; ix < device_coordinator.get_x(); ++ix) {
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for (size_t ix = 0; ix <= sb_range.get_x(); ++ix) {
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for (size_t iy = 0; iy < device_coordinator.get_y(); ++iy) {
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for (size_t iy = 0; iy <= sb_range.get_y(); ++iy) {
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DeviceCoordinator sb_range((size_t)nx, (size_t)ny);
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RRSwitchBlock rr_switch_block = build_rr_switch_block(sb_range, ix, iy,
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RRSwitchBlock rr_switch_block = build_rr_switch_block(sb_range, ix, iy,
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LL_num_rr_nodes, LL_rr_node,
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LL_num_rr_nodes, LL_rr_node,
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LL_rr_node_indices,
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LL_rr_node_indices,
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num_segments, LL_rr_indexed_data);
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num_segments, LL_rr_indexed_data);
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RRSwitchBlock rotated_switch_block = rotate_rr_switch_block_for_mirror(sb_range, rr_switch_block);
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RRSwitchBlock rotated_switch_block = rotate_rr_switch_block_for_mirror(sb_range, rotated_switch_block);
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DeviceCoordinator sb_coordinator = rr_switch_block.get_coordinator();
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DeviceCoordinator sb_coordinator = rr_switch_block.get_coordinator();
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LL_device_rr_switch_block.add_rr_switch_block(sb_coordinator, rr_switch_block, rotated_switch_block);
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LL_device_rr_switch_block.add_rr_switch_block(sb_coordinator, rr_switch_block, rotated_switch_block);
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}
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}
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@ -7,6 +7,20 @@
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/* Member Functions of Class RRChan */
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/* Member Functions of Class RRChan */
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/* Constructors */
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/* Constructors */
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/* Copy Constructor */
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RRChan::RRChan(const RRChan& rr_chan) {
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this->type_ = rr_chan.get_type();
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/* Copy node and node_segments */
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this->reserve_node(rr_chan.get_chan_width());
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for (size_t inode = 0; inode < rr_chan.get_chan_width(); ++inode) {
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this->nodes_.push_back(rr_chan.get_node(inode));
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this->node_segments_.push_back(rr_chan.get_node_segment(inode));
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}
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return;
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}
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/* default constructor */
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RRChan::RRChan() {
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RRChan::RRChan() {
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type_ = NUM_RR_TYPES;
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type_ = NUM_RR_TYPES;
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nodes_.resize(0);
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nodes_.resize(0);
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@ -449,6 +463,51 @@ bool DeviceRRChan::valid_module_id(t_rr_type chan_type, size_t module_id) const
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}
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}
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/* Member Functions of Class RRSwitchBlock*/
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/* Member Functions of Class RRSwitchBlock*/
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/* Constructor for an empty object */
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RRSwitchBlock::RRSwitchBlock() {
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return;
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}
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/* Copy constructor */
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RRSwitchBlock::RRSwitchBlock(const RRSwitchBlock& src) {
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/* Copy coordinator */
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this->set_coordinator(src.get_coordinator().get_x(), src.get_coordinator().get_y());
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/* Initialize sides */
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this->init_num_sides(src.get_num_sides());
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/* Copy vectors */
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for (size_t side = 0; side < src.get_num_sides(); ++side) {
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Side side_manager(side);
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/* Copy chan_nodes */
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this->chan_node_[side_manager.get_side()] = src.get_chan(side_manager.get_side());
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/* Copy chan_node_direction_*/
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for (size_t inode = 0; inode < src.get_chan_width(side_manager.get_side()); ++inode) {
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this->chan_node_direction_[side_manager.get_side()].push_back(src.get_chan_node_direction(side_manager.get_side(), inode));
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}
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/* Copy opin_node and opin_node_grid_side_ */
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for (size_t inode = 0; inode < src.get_num_opin_nodes(side_manager.get_side()); ++inode) {
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this->opin_node_[side_manager.get_side()].push_back(src.get_opin_node(side_manager.get_side(), inode));
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this->opin_node_grid_side_[side_manager.get_side()].push_back(src.get_opin_node_grid_side(side_manager.get_side(), inode));
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}
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/* Copy ipin_node and ipin_node_grid_side_ */
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for (size_t inode = 0; inode < src.get_num_ipin_nodes(side_manager.get_side()); ++inode) {
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this->ipin_node_[side_manager.get_side()].push_back(src.get_ipin_node(side_manager.get_side(), inode));
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this->ipin_node_grid_side_[side_manager.get_side()].push_back(src.get_ipin_node_grid_side(side_manager.get_side(), inode));
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}
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}
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/* Copy conf_bits
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* TODO: this will be recovered when num_conf_bits etc will be initialized during FPGA-X2P setup
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this->set_num_reserved_conf_bits(src.get_num_reserved_conf_bits());
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this->set_conf_bits_lsb(src.get_conf_bits_lsb());
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this->set_conf_bits_msb(src.get_conf_bits_msb());
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*/
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return;
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}
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/* Accessors */
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/* Accessors */
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@ -504,6 +563,17 @@ enum PORTS RRSwitchBlock::get_chan_node_direction(enum e_side side, size_t track
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return chan_node_direction_[side_manager.to_size_t()][track_id];
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return chan_node_direction_[side_manager.to_size_t()][track_id];
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}
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}
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/* get a RRChan at a given side and track_id */
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RRChan RRSwitchBlock::get_chan(enum e_side side) const {
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Side side_manager(side);
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assert(side_manager.validate());
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/* Ensure the side is valid in the context of this switch block */
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assert( validate_side(side) );
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return chan_node_[side_manager.to_size_t()];
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}
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/* get a rr_node at a given side and track_id */
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/* get a rr_node at a given side and track_id */
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t_rr_node* RRSwitchBlock::get_chan_node(enum e_side side, size_t track_id) const {
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t_rr_node* RRSwitchBlock::get_chan_node(enum e_side side, size_t track_id) const {
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Side side_manager(side);
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Side side_manager(side);
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@ -540,6 +610,47 @@ size_t RRSwitchBlock::get_num_ipin_nodes(enum e_side side) const {
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return ipin_node_[side_manager.to_size_t()].size();
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return ipin_node_[side_manager.to_size_t()].size();
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}
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}
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/* get a opin_node at a given side and track_id */
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t_rr_node* RRSwitchBlock::get_ipin_node(enum e_side side, size_t node_id) const {
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Side side_manager(side);
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assert(side_manager.validate());
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/* Ensure the side is valid in the context of this switch block */
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assert( validate_side(side) );
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/* Ensure the track is valid in the context of this switch block at a specific side */
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assert( validate_ipin_node_id(side, node_id) );
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return ipin_node_[side_manager.to_size_t()][node_id];
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}
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/* get the grid_side of a opin_node at a given side and track_id */
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enum e_side RRSwitchBlock::get_ipin_node_grid_side(enum e_side side, size_t node_id) const {
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Side side_manager(side);
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assert(side_manager.validate());
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/* Ensure the side is valid in the context of this switch block */
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assert( validate_side(side) );
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/* Ensure the track is valid in the context of this switch block at a specific side */
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assert( validate_ipin_node_id(side, node_id) );
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return ipin_node_grid_side_[side_manager.to_size_t()][node_id];
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}
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/* get the grid side of a opin_rr_node */
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enum e_side RRSwitchBlock::get_ipin_node_grid_side(t_rr_node* ipin_node) const {
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enum e_side side;
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int index;
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/* Find the side and index */
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get_node_side_and_index(ipin_node, OUT_PORT, &side, &index);
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assert(-1 != index);
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assert(validate_side(side));
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return get_ipin_node_grid_side(side, index);
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}
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/* Get the number of OPIN rr_nodes on a side */
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/* Get the number of OPIN rr_nodes on a side */
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size_t RRSwitchBlock::get_num_opin_nodes(enum e_side side) const {
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size_t RRSwitchBlock::get_num_opin_nodes(enum e_side side) const {
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Side side_manager(side);
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Side side_manager(side);
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@ -847,10 +958,12 @@ bool RRSwitchBlock::is_mirror(RRSwitchBlock& cand) const {
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if (get_chan_node_direction(side_manager.get_side(), itrack) != cand.get_chan_node_direction(side_manager.get_side(), itrack)) {
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if (get_chan_node_direction(side_manager.get_side(), itrack) != cand.get_chan_node_direction(side_manager.get_side(), itrack)) {
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return false;
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return false;
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}
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}
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/* Check the track_id of each node */
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/* Check the track_id of each node
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* ptc is not necessary, we care the connectivity!
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if (get_chan_node(side_manager.get_side(), itrack)->ptc_num != cand.get_chan_node(side_manager.get_side(), itrack)->ptc_num) {
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if (get_chan_node(side_manager.get_side(), itrack)->ptc_num != cand.get_chan_node(side_manager.get_side(), itrack)->ptc_num) {
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return false;
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return false;
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}
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}
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*/
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/* For OUT_PORT rr_node, we need to check fan-in */
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/* For OUT_PORT rr_node, we need to check fan-in */
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if (OUT_PORT != get_chan_node_direction(side_manager.get_side(), itrack)) {
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if (OUT_PORT != get_chan_node_direction(side_manager.get_side(), itrack)) {
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continue; /* skip IN_PORT */
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continue; /* skip IN_PORT */
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@ -1445,6 +1558,21 @@ bool RRSwitchBlock::validate_opin_node_id(enum e_side side, size_t node_id) cons
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return false;
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return false;
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}
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}
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/* Check the ipin_node_id is valid for opin_node_ and opin_node_grid_side_ */
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bool RRSwitchBlock::validate_ipin_node_id(enum e_side side, size_t node_id) const {
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Side side_manager(side);
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if (false == validate_side(side)) {
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return false;
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}
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if ( ( node_id < ipin_node_[side_manager.to_size_t()].size())
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&&( node_id < ipin_node_grid_side_[side_manager.to_size_t()].size()) ) {
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return true;
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}
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return false;
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}
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/* Validate the number of configuration bits, MSB should be no less than the LSB !!! */
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/* Validate the number of configuration bits, MSB should be no less than the LSB !!! */
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bool RRSwitchBlock::validate_num_conf_bits() const {
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bool RRSwitchBlock::validate_num_conf_bits() const {
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if (conf_bits_msb_ >= conf_bits_lsb_) {
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if (conf_bits_msb_ >= conf_bits_lsb_) {
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@ -1559,15 +1687,15 @@ void DeviceRRSwitchBlock::reserve(DeviceCoordinator& coordinator) {
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/* Resize rr_switch_block array is needed*/
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/* Resize rr_switch_block array is needed*/
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void DeviceRRSwitchBlock::resize_upon_need(DeviceCoordinator& coordinator) {
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void DeviceRRSwitchBlock::resize_upon_need(DeviceCoordinator& coordinator) {
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if (coordinator.get_x() + 1 > rr_switch_block_.size()) {
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if (coordinator.get_x() + 1 > rr_switch_block_.size()) {
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rr_switch_block_.resize(coordinator.get_x());
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rr_switch_block_.resize(coordinator.get_x() + 1);
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rr_switch_block_mirror_id_.resize(coordinator.get_x());
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rr_switch_block_mirror_id_.resize(coordinator.get_x() + 1);
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rr_switch_block_rotatable_mirror_id_.resize(coordinator.get_x());
|
rr_switch_block_rotatable_mirror_id_.resize(coordinator.get_x() + 1);
|
||||||
}
|
}
|
||||||
|
|
||||||
if (coordinator.get_y() + 1 > rr_switch_block_[coordinator.get_x()].size()) {
|
if (coordinator.get_y() + 1 > rr_switch_block_[coordinator.get_x()].size()) {
|
||||||
rr_switch_block_[coordinator.get_x()].resize(coordinator.get_y());
|
rr_switch_block_[coordinator.get_x()].resize(coordinator.get_y() + 1);
|
||||||
rr_switch_block_mirror_id_[coordinator.get_x()].resize(coordinator.get_y());
|
rr_switch_block_mirror_id_[coordinator.get_x()].resize(coordinator.get_y() + 1);
|
||||||
rr_switch_block_rotatable_mirror_id_[coordinator.get_x()].resize(coordinator.get_y());
|
rr_switch_block_rotatable_mirror_id_[coordinator.get_x()].resize(coordinator.get_y() + 1);
|
||||||
}
|
}
|
||||||
|
|
||||||
return;
|
return;
|
||||||
|
@ -1607,9 +1735,6 @@ void DeviceRRSwitchBlock::add_rr_switch_block(DeviceCoordinator& coordinator,
|
||||||
|
|
||||||
/* add rotatable mirror support */
|
/* add rotatable mirror support */
|
||||||
for (size_t mirror_id = 0; mirror_id < get_num_rotatable_mirror(); ++mirror_id) {
|
for (size_t mirror_id = 0; mirror_id < get_num_rotatable_mirror(); ++mirror_id) {
|
||||||
/* Try to rotate as many times as the maximum channel width in this switch block
|
|
||||||
* This may not fully cover all the rotation possibility but may be enough now
|
|
||||||
*/
|
|
||||||
/* Skip if these may never match as a mirror (violation in basic requirements */
|
/* Skip if these may never match as a mirror (violation in basic requirements */
|
||||||
if (false == get_switch_block(rotatable_mirror_[mirror_id]).is_mirrorable(rotated_rr_switch_block)) {
|
if (false == get_switch_block(rotatable_mirror_[mirror_id]).is_mirrorable(rotated_rr_switch_block)) {
|
||||||
continue;
|
continue;
|
||||||
|
|
|
@ -37,6 +37,7 @@
|
||||||
*/
|
*/
|
||||||
class RRChan {
|
class RRChan {
|
||||||
public: /* Constructors */
|
public: /* Constructors */
|
||||||
|
RRChan(const RRChan&); /* Copy Constructor */
|
||||||
RRChan();
|
RRChan();
|
||||||
public: /* Accessors */
|
public: /* Accessors */
|
||||||
t_rr_type get_type() const;
|
t_rr_type get_type() const;
|
||||||
|
@ -128,6 +129,8 @@ class DeviceRRChan {
|
||||||
*/
|
*/
|
||||||
class RRSwitchBlock {
|
class RRSwitchBlock {
|
||||||
public: /* Contructors */
|
public: /* Contructors */
|
||||||
|
RRSwitchBlock(const RRSwitchBlock&);/* Copy constructor */
|
||||||
|
RRSwitchBlock();/* Default constructor */
|
||||||
public: /* Accessors */
|
public: /* Accessors */
|
||||||
size_t get_x() const; /* get the x coordinator of this switch block */
|
size_t get_x() const; /* get the x coordinator of this switch block */
|
||||||
size_t get_y() const; /* get the y coordinator of this switch block */
|
size_t get_y() const; /* get the y coordinator of this switch block */
|
||||||
|
@ -136,9 +139,13 @@ class RRSwitchBlock {
|
||||||
size_t get_chan_width(enum e_side side) const; /* Get the number of routing tracks on a side */
|
size_t get_chan_width(enum e_side side) const; /* Get the number of routing tracks on a side */
|
||||||
size_t get_max_chan_width() const; /* Get the maximum number of routing tracks on all sides */
|
size_t get_max_chan_width() const; /* Get the maximum number of routing tracks on all sides */
|
||||||
enum PORTS get_chan_node_direction(enum e_side side, size_t track_id) const; /* Get the direction of a rr_node at a given side and track_id */
|
enum PORTS get_chan_node_direction(enum e_side side, size_t track_id) const; /* Get the direction of a rr_node at a given side and track_id */
|
||||||
|
RRChan get_chan(enum e_side side) const; /* get a rr_node at a given side and track_id */
|
||||||
t_rr_node* get_chan_node(enum e_side side, size_t track_id) const; /* get a rr_node at a given side and track_id */
|
t_rr_node* get_chan_node(enum e_side side, size_t track_id) const; /* get a rr_node at a given side and track_id */
|
||||||
size_t get_chan_node_segment(enum e_side side, size_t track_id) const; /* get the segment id of a channel rr_node */
|
size_t get_chan_node_segment(enum e_side side, size_t track_id) const; /* get the segment id of a channel rr_node */
|
||||||
size_t get_num_ipin_nodes(enum e_side side) const; /* Get the number of IPIN rr_nodes on a side */
|
size_t get_num_ipin_nodes(enum e_side side) const; /* Get the number of IPIN rr_nodes on a side */
|
||||||
|
t_rr_node* get_ipin_node(enum e_side side, size_t node_id) const; /* get a rr_node at a given side and track_id */
|
||||||
|
enum e_side get_ipin_node_grid_side(enum e_side side, size_t node_id) const; /* get a rr_node at a given side and track_id */
|
||||||
|
enum e_side get_ipin_node_grid_side(t_rr_node* ipin_node) const; /* get a rr_node at a given side and track_id */
|
||||||
size_t get_num_opin_nodes(enum e_side side) const; /* Get the number of OPIN rr_nodes on a side */
|
size_t get_num_opin_nodes(enum e_side side) const; /* Get the number of OPIN rr_nodes on a side */
|
||||||
t_rr_node* get_opin_node(enum e_side side, size_t node_id) const; /* get a rr_node at a given side and track_id */
|
t_rr_node* get_opin_node(enum e_side side, size_t node_id) const; /* get a rr_node at a given side and track_id */
|
||||||
enum e_side get_opin_node_grid_side(enum e_side side, size_t node_id) const; /* get a rr_node at a given side and track_id */
|
enum e_side get_opin_node_grid_side(enum e_side side, size_t node_id) const; /* get a rr_node at a given side and track_id */
|
||||||
|
@ -195,6 +202,7 @@ class RRSwitchBlock {
|
||||||
bool validate_side(enum e_side side) const;
|
bool validate_side(enum e_side side) const;
|
||||||
bool validate_track_id(enum e_side side, size_t track_id) const;
|
bool validate_track_id(enum e_side side, size_t track_id) const;
|
||||||
bool validate_opin_node_id(enum e_side side, size_t node_id) const;
|
bool validate_opin_node_id(enum e_side side, size_t node_id) const;
|
||||||
|
bool validate_ipin_node_id(enum e_side side, size_t node_id) const;
|
||||||
bool validate_num_reserved_conf_bits() const;
|
bool validate_num_reserved_conf_bits() const;
|
||||||
bool validate_num_conf_bits() const;
|
bool validate_num_conf_bits() const;
|
||||||
private: /* Internal Data */
|
private: /* Internal Data */
|
||||||
|
|
Loading…
Reference in New Issue