/** * @file work.cpp * @brief Automatic routing routines */ #include "fctsys.h" #include "common.h" #include "pcbnew.h" #include "cell.h" #include "ar_protos.h" struct CWORK /* a unit of work is a hole-pair to connect */ { struct CWORK* Next; int FromRow; /* source row */ int FromCol; /* source column */ int net_code; /* net_code */ int ToRow; /* target row */ int ToCol; /* target column */ RATSNEST_ITEM* pt_rats; /* Corresponding ratsnest */ int ApxDist; /* approximate distance */ int Cost; /* cost for sort by length */ int Priority; /* route priority */ }; /* pointers to the first and last item of work to do */ static CWORK* Head = NULL; static CWORK* Tail = NULL; static CWORK* Current = NULL; void InitWork(); void ReInitWork(); int SetWork( int, int, int, int, int, RATSNEST_ITEM*, int ); void GetWork( int*, int*, int*, int*, int*, RATSNEST_ITEM** ); void SortWork(); /* initialize the work list */ void InitWork() { CWORK* ptr; while( ( ptr = Head ) != NULL ) { Head = ptr->Next; MyFree( ptr ); } Tail = Current = NULL; } /* initialize the work list */ void ReInitWork() { Current = Head; } /* add a unit of work to the work list * Return: * 1 if OK * 0 if memory allocation failed */ static int GetCost( int r1, int c1, int r2, int c2 ); int SetWork( int r1, int c1, int n_c, int r2, int c2, RATSNEST_ITEM* pt_ch, int pri ) { CWORK* p; if( ( p = (CWORK*) MyMalloc( sizeof(CWORK) ) ) != NULL ) { p->FromRow = r1; p->FromCol = c1; p->net_code = n_c; p->ToRow = r2; p->ToCol = c2; p->pt_rats = pt_ch; p->ApxDist = GetApxDist( r1, c1, r2, c2 ); p->Cost = GetCost( r1, c1, r2, c2 ); p->Priority = pri; p->Next = NULL; if( Head ) /* attach at end */ Tail->Next = p; else /* first in list */ Head = Current = p; Tail = p; return 1; } else /* can't get any more memory */ { return 0; } } /* fetch a unit of work from the work list */ void GetWork( int* r1, int* c1, int* n_c, int* r2, int* c2, RATSNEST_ITEM** pt_ch ) { if( Current ) { *r1 = Current->FromRow; *c1 = Current->FromCol; *n_c = Current->net_code; *r2 = Current->ToRow; *c2 = Current->ToCol; *pt_ch = Current->pt_rats; Current = Current->Next; } else /* none left */ { *r1 = *c1 = *r2 = *c2 = ILLEGAL; *n_c = 0; *pt_ch = NULL; } } /* order the work items; shortest (low cost) first */ void SortWork() { CWORK* p; CWORK* q0; /* put PRIORITY PAD_CONNECTs in q0 */ CWORK* q1; /* sort other PAD_CONNECTs in q1 */ CWORK* r; q0 = q1 = NULL; while( (p = Head) != NULL ) /* prioritize each work item */ { Head = Head->Next; if( p->Priority ) /* put at end of priority list */ { p->Next = NULL; if( (r = q0) == NULL ) /* empty list? */ q0 = p; else /* attach at end */ { while( r->Next ) /* search for end */ r = r->Next; r->Next = p; /* attach */ } } else if( ( ( r = q1 ) == NULL ) || ( p->Cost < q1->Cost ) ) { p->Next = q1; q1 = p; } else /* find proper position in list */ { while( r->Next && p->Cost >= r->Next->Cost ) r = r->Next; p->Next = r->Next; r->Next = p; } } if( (p = q0) != NULL ) /* any priority PAD_CONNECTs? */ { while( q0->Next ) q0 = q0->Next; q0->Next = q1; } else p = q1; /* reposition Head and Tail */ for( Head = Current = Tail = p; Tail && Tail->Next; Tail = Tail->Next ) ; } /* Calculate the cost of a net: * cost = (| dx | + | dy |) * disability * disability = 1 if dx or dy = 0, max if | dx | # | dy | */ static int GetCost( int r1, int c1, int r2, int c2 ) { int dx, dy, mx, my; float incl; dx = abs( c2 - c1 ); dy = abs( r2 - r1 ); incl = 1.0; mx = dx; my = dy; if( mx < my ) { mx = dy; my = dx; } if( mx ) incl += (2 * (float) my / mx); return (int) ( ( dx + dy ) * incl ); }