351 lines
9.7 KiB
C
351 lines
9.7 KiB
C
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/*===================================================================*/
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//
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// place_base.c
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//
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// Aaron P. Hurst, 2003-2007
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// ahurst@eecs.berkeley.edu
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//
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/*===================================================================*/
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#include <stdlib.h>
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#include <limits.h>
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#include <assert.h>
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#include <string.h>
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#include "place_base.h"
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#include "place_gordian.h"
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ABC_NAMESPACE_IMPL_START
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// --------------------------------------------------------------------
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// Global variables
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//
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// --------------------------------------------------------------------
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int g_place_numCells = 0;
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int g_place_numNets = 0;
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float g_place_rowHeight = 1.0;
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Rect g_place_coreBounds;
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Rect g_place_padBounds;
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ConcreteCell **g_place_concreteCells = NULL;
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int g_place_concreteCellsSize = 0;
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ConcreteNet **g_place_concreteNets = NULL;
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int g_place_concreteNetsSize = 0;
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// --------------------------------------------------------------------
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// getNetBBox()
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//
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/// \brief Returns the bounding box of a net.
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//
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// --------------------------------------------------------------------
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Rect getNetBBox(const ConcreteNet *net) {
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int t;
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Rect r;
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assert(net);
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r.x = r.y = INT_MAX;
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r.w = r.h = -INT_MAX;
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for(t=0; t<net->m_numTerms; t++) {
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r.x = net->m_terms[t]->m_x < r.x ? net->m_terms[t]->m_x : r.x;
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r.y = net->m_terms[t]->m_y < r.y ? net->m_terms[t]->m_y : r.y;
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r.w = net->m_terms[t]->m_x > r.w ? net->m_terms[t]->m_x : r.w;
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r.h = net->m_terms[t]->m_y > r.h ? net->m_terms[t]->m_y : r.h;
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}
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r.w -= r.x; r.h -= r.y;
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return r;
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}
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// --------------------------------------------------------------------
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// getNetWirelength()
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//
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/// \brief Returns the half-perimeter wirelength of a net.
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//
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// --------------------------------------------------------------------
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float getNetWirelength(const ConcreteNet *net) {
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Rect r;
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assert(net);
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r = getNetBBox(net);
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return r.w+r.h;
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}
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// --------------------------------------------------------------------
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// getTotalWirelength()
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//
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/// \brief Returns the total HPWL of all nets.
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//
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// --------------------------------------------------------------------
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float getTotalWirelength() {
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float r = 0;
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int n;
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for(n=0; n<g_place_numNets; n++) if (g_place_concreteNets[n])
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r += getNetWirelength(g_place_concreteNets[n]);
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return r;
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}
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// --------------------------------------------------------------------
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// getCellArea()
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//
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// --------------------------------------------------------------------
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float getCellArea(const ConcreteCell *cell) {
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assert(cell);
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return cell->m_parent->m_width*cell->m_parent->m_height;
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}
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// --------------------------------------------------------------------
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// addConcreteNet()
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//
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/// \brief Adds a net to the placement database.
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///
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/// The net object must already be allocated and the ID must be set
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/// appropriately.
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//
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// --------------------------------------------------------------------
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void addConcreteNet(ConcreteNet *net) {
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assert(net);
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assert(net->m_id >= 0);
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if (net->m_id >= g_place_concreteNetsSize) {
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g_place_concreteNetsSize = (net->m_id > g_place_concreteNetsSize ?
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net->m_id : g_place_concreteNetsSize);
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g_place_concreteNetsSize *= 1.5;
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g_place_concreteNetsSize += 20;
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g_place_concreteNets = (ConcreteNet**)realloc(g_place_concreteNets,
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sizeof(ConcreteNet*)*g_place_concreteNetsSize);
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assert(g_place_concreteNets);
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}
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if (net->m_id >= g_place_numNets) {
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memset(&(g_place_concreteNets[g_place_numNets]), 0,
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sizeof(ConcreteNet*)*(net->m_id+1-g_place_numNets));
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g_place_numNets = net->m_id+1;
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assert(g_place_numNets <= g_place_concreteNetsSize);
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}
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g_place_concreteNets[net->m_id] = net;
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}
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// --------------------------------------------------------------------
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// delConcreteNet()
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//
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/// Does not deallocate memory.
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// --------------------------------------------------------------------
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void delConcreteNet(ConcreteNet *net) {
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assert(net);
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g_place_concreteNets[net->m_id] = 0;
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while(!g_place_concreteNets[g_place_numNets-1]) g_place_numNets--;
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}
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// --------------------------------------------------------------------
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// addConcreteCell()
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//
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/// The cell object must already be allocated and the ID must be set
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/// appropriately.
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//
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// --------------------------------------------------------------------
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void addConcreteCell(ConcreteCell *cell) {
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assert(cell);
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assert(cell->m_id >= 0);
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if (cell->m_id >= g_place_concreteCellsSize) {
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g_place_concreteCellsSize = (cell->m_id > g_place_concreteCellsSize ?
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cell->m_id : g_place_concreteCellsSize);
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g_place_concreteCellsSize *= 1.5;
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g_place_concreteCellsSize += 20;
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g_place_concreteCells = (ConcreteCell**)realloc(g_place_concreteCells,
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sizeof(ConcreteCell*)*g_place_concreteCellsSize);
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assert(g_place_concreteCells);
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}
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if (cell->m_id >= g_place_numCells) {
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memset(&(g_place_concreteCells[g_place_numCells]), 0,
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sizeof(ConcreteCell*)*(cell->m_id+1-g_place_numCells));
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g_place_numCells = cell->m_id+1;
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}
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g_place_concreteCells[cell->m_id] = cell;
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}
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// --------------------------------------------------------------------
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// delCellFromPartition()
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//
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// --------------------------------------------------------------------
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void delCellFromPartition(ConcreteCell *cell, Partition *p) {
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int c;
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bool found = false;
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assert(cell);
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assert(p);
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for(c=0; c<p->m_numMembers; c++)
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if (p->m_members[c] == cell) {
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p->m_members[c] = 0;
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p->m_area -= getCellArea(cell);
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found = true;
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break;
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}
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if (!found) return;
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if (!p->m_leaf) {
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delCellFromPartition(cell, p->m_sub1);
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delCellFromPartition(cell, p->m_sub2);
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}
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}
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// --------------------------------------------------------------------
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// delConcreteCell()
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//
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/// \brief Removes a cell from the placement database.
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///
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/// Does not deallocate memory.
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///
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/// Important: does not modify nets that may point to this
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/// cell. If these are connections are not removed, segmentation faults
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/// and other nasty errors will occur.
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//
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// --------------------------------------------------------------------
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void delConcreteCell(ConcreteCell *cell) {
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assert(cell);
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g_place_concreteCells[cell->m_id] = 0;
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while(!g_place_concreteCells[g_place_numCells-1]) g_place_numCells--;
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if (g_place_rootPartition) delCellFromPartition(cell, g_place_rootPartition);
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}
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// --------------------------------------------------------------------
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// netSortByX...
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//
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/// \brief Sorts nets by position of one of its corners.
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//
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/// These are for use with qsort().
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///
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/// Can tolerate pointers to NULL objects.
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///
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// --------------------------------------------------------------------
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int netSortByL(const void *a, const void *b) {
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const ConcreteNet *pa = *(const ConcreteNet **)a;
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const ConcreteNet *pb = *(const ConcreteNet **)b;
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Rect ba, bb;
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if (!pa && !pb) return 0;
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else if (!pa) return -1;
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else if (!pb) return 1;
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ba = getNetBBox(pa), bb = getNetBBox(pb);
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if (ba.x < bb.x) return -1;
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if (ba.x > bb.x) return 1;
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return 0;
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}
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int netSortByR(const void *a, const void *b) {
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const ConcreteNet *pa = *(const ConcreteNet **)a;
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const ConcreteNet *pb = *(const ConcreteNet **)b;
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Rect ba, bb;
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if (!pa && !pb) return 0;
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else if (!pa) return -1;
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else if (!pb) return 1;
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ba = getNetBBox(pa), bb = getNetBBox(pb);
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if (ba.x + ba.w < bb.x + bb.w) return -1;
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if (ba.x + ba.w > bb.x + bb.w) return 1;
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return 0;
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}
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int netSortByB(const void *a, const void *b) {
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const ConcreteNet *pa = *(const ConcreteNet **)a;
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const ConcreteNet *pb = *(const ConcreteNet **)b;
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Rect ba, bb;
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if (!pa && !pb) return 0;
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else if (!pa) return -1;
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else if (!pb) return 1;
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ba = getNetBBox(pa), bb = getNetBBox(pb);
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if (ba.y + ba.h < bb.y + bb.h) return -1;
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if (ba.y + ba.h > bb.y + bb.h) return 1;
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return 0;
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}
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int netSortByT(const void *a, const void *b) {
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const ConcreteNet *pa = *(const ConcreteNet **)a;
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const ConcreteNet *pb = *(const ConcreteNet **)b;
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Rect ba, bb;
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if (!pa && !pb) return 0;
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else if (!pa) return -1;
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else if (!pb) return 1;
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ba = getNetBBox(pa), bb = getNetBBox(pb);
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if (ba.y < bb.y) return -1;
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if (ba.y > bb.y) return 1;
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return 0;
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}
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int netSortByID(const void *a, const void *b) {
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const ConcreteNet *pa = *(const ConcreteNet **)a;
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const ConcreteNet *pb = *(const ConcreteNet **)b;
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if (!pa && !pb) return 0;
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else if (!pa) return -1;
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else if (!pb) return 1;
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if (pa->m_id < pb->m_id) return -1;
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if (pa->m_id > pb->m_id) return 1;
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return 0;
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}
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// --------------------------------------------------------------------
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// cellSortByX...
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//
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/// \brief Sorts cells by either position coordinate.
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//
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/// These are for use with qsort().
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///
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/// Can tolerate pointers to NULL objects.
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//
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// --------------------------------------------------------------------
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int cellSortByX(const void *a, const void *b) {
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const ConcreteCell *pa = *(const ConcreteCell **)a;
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const ConcreteCell *pb = *(const ConcreteCell **)b;
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if (!pa && !pb) return 0;
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else if (!pa) return -1;
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else if (!pb) return 1;
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if (pa->m_x < pb->m_x) return -1;
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if (pa->m_x > pb->m_x) return 1;
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return 0;
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}
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int cellSortByY(const void *a, const void *b) {
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const ConcreteCell *pa = *(const ConcreteCell **)a;
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const ConcreteCell *pb = *(const ConcreteCell **)b;
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if (!pa && !pb) return 0;
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else if (!pa) return -1;
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else if (!pb) return 1;
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if (pa->m_y < pb->m_y) return -1;
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if (pa->m_y > pb->m_y) return 1;
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return 0;
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}
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int cellSortByID(const void *a, const void *b) {
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const ConcreteCell *pa = *(const ConcreteCell **)a;
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const ConcreteCell *pb = *(const ConcreteCell **)b;
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if (!pa && !pb) return 0;
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else if (!pa) return -1;
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else if (!pb) return 1;
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if (pa->m_id < pb->m_id) return -1;
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if (pa->m_id > pb->m_id) return 1;
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return 0;
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}
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ABC_NAMESPACE_IMPL_END
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