/* * $Header: /home/dmarkle/xtrkcad-fork-cvs/xtrkcad/app/bin/dbench.c,v 1.3 2008-03-06 19:35:07 m_fischer Exp $ */ /* XTrkCad - Model Railroad CAD * Copyright (C) 2005 Dave Bullis * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "param.h" #include "track.h" #include "common.h" /***************************************************************************** * * BENCH WORK * */ #define B_RECT (0) #define B_LGRIDER (1) #define B_TGRIDER (2) static char *benchTypeS[] = { "", N_(" L-Girder"), N_(" T-Girder") }; #include "bitmaps/bo_edge.xpm" #include "bitmaps/bo_flat.xpm" #include "bitmaps/bo_ll.xpm" #include "bitmaps/bo_lr.xpm" #include "bitmaps/bo_lld.xpm" #include "bitmaps/bo_lrd.xpm" #include "bitmaps/bo_llu.xpm" #include "bitmaps/bo_lru.xpm" #include "bitmaps/bo_lli.xpm" #include "bitmaps/bo_lri.xpm" #include "bitmaps/bo_t.xpm" #include "bitmaps/bo_tr.xpm" #include "bitmaps/bo_tl.xpm" #include "bitmaps/bo_ti.xpm" typedef struct { char * name; char ** xpm; wIcon_p icon; } orientData_t; static orientData_t rectOrientD[] = { { N_("On Edge"), bo_edge_xpm }, { N_("Flat"), bo_flat_xpm } }; static orientData_t lgirderOrientD[] = { { N_("Left"), bo_ll_xpm }, { N_("Right"), bo_lr_xpm }, { N_("Left-Down"), bo_lld_xpm }, { N_("Right-Down"), bo_lrd_xpm }, { N_("Left-Up"), bo_llu_xpm }, { N_("Right-Up"), bo_lru_xpm }, { N_("Left-Inverted"), bo_lli_xpm }, { N_("Right-Inverted"), bo_lri_xpm } }; static orientData_t tgirderOrientD[] = { { N_("Normal"), bo_t_xpm }, { N_("Right"), bo_tr_xpm }, { N_("Left"), bo_tl_xpm }, { N_("Inverted"), bo_ti_xpm } }; static struct { int cnt; orientData_t *data; } orientD[] = { {2, rectOrientD}, {8, lgirderOrientD}, {4, tgirderOrientD} }; /* L-N R-N L-D R-D L-U R-U L-I R-I */ static BOOL_T lgirderFlangeLeft[] = { 1, 0, 0, 1, 1, 0, 0, 1 }; static BOOL_T lgirderFlangeDashed[] = { 1, 1, 1, 1, 0, 0, 0, 0 }; static BOOL_T lgirderNarrow[] = { 1, 1, 0, 0, 0, 0, 1, 1 }; EXPORT void BenchUpdateOrientationList( long benchData, wList_p list ) { long type; orientData_t *op; int cnt; type = (benchData>>24)&0xff; wListClear( list ); op = orientD[type].data; for (cnt=orientD[type].cnt-1; cnt>=0; cnt--,op++) { #ifdef WINDOWS if (op->icon == NULL) { op->icon = wIconCreatePixMap( op->xpm ); } wListAddValue( list, NULL, op->icon, op ); #else /* gtk_combo_find is upset if we try to put anything other that a label on a list */ wListAddValue( list, _(op->name), NULL, op ); #endif } wListSetIndex( list, 0 ); } typedef struct { long type; long width; long height0, height1; } benchType_t, *benchType_p; static dynArr_t benchType_da; #define benchType(N) DYNARR_N( benchType_t, benchType_da, N ) static void AddBenchTypes( long type, const char * key, const char * defvalue ) { benchType_p bt; const char *value, *cp; char *cq; value = wPrefGetString( "misc", key ); if ( value == NULL ) { value = defvalue; wPrefSetString( "misc", key, value ); } cp = value; while ( *cp ) { DYNARR_APPEND( benchType_t, benchType_da, 10 ); bt = &benchType(benchType_da.cnt-1); bt->type = type; bt->width = strtol( cp, &cq, 10 ); bt->height0 = strtol( cp=cq, &cq, 10 ); bt->height1 = strtol( cp=cq, &cq, 10 ); if ( cp == cq ) { NoticeMessage( _("Bad BenchType for %s:\n%s"), _("Continue"), NULL, key, value ); benchType_da.cnt--; return; } cp = cq; } } EXPORT void BenchLoadLists( wList_p choiceL, wList_p orientL ) { int inx; long height; long benchData; benchType_p bt; char * cp; wListClear( choiceL ); wListClear( orientL ); if ( benchType_da.cnt <= 0 ) { Reset(); return; } for ( inx=0; inxheight0; height<=bt->height1; height++ ) { benchData = bt->type<<24 | bt->width<<17 | height<<9; sprintf( message, "%s", (bt->type==B_LGRIDER?"L-":bt->type==B_TGRIDER ?"T-":"") ); cp = message+strlen(message); if ( units==UNITS_ENGLISH ) { sprintf( cp, "%ld\"x%ld\"", bt->width, height ); } else { sprintf( cp, "%ldmm x %ldmm", height*25, bt->width*25 ); } wListAddValue( choiceL, message, NULL, I2VP(benchData) ); } } BenchUpdateOrientationList( benchType(0).type<<24, orientL ); wListSetIndex( choiceL, 0 ); } EXPORT long GetBenchData( long benchData, long orient ) { return (benchData&0xFFFFFF00)|(orient&0xFF); } EXPORT wIndex_t GetBenchListIndex( long benchData ) { wIndex_t inx, cnt; benchType_p bt; long type; long iwidth, iheight; iheight = (benchData>>9)&0xff; iwidth = (benchData>>17)&0x7f; type = (benchData>>24)&0xff; for ( inx=cnt=0; inxtype == type && bt->width == iwidth ) { if ( iheight < bt->height0 ) { bt->height0 = iheight; } else if ( iheight > bt->height1 ) { bt->height1 = iheight; } cnt += (wIndex_t)(iheight - bt->height0); return cnt; } cnt += (wIndex_t)(bt->height1 - bt->height0 + 1); } DYNARR_APPEND( benchType_t, benchType_da, 10 ); bt = &benchType(benchType_da.cnt-1); bt->type = type; bt->width = iwidth; bt->height0 = bt->height1 = iheight; return cnt; } EXPORT void DrawBench( drawCmd_p d, coOrd p0, coOrd p1, wDrawColor color1, wDrawColor color2, long option, long benchData ) { long orient; coOrd pp[4]; ANGLE_T a; DIST_T width, thickness=0.75; long type; long oldOptions; long lwidth; orient = benchData&0xFF; type = (benchData>>24)&0xff; width = BenchGetWidth(benchData); lwidth = (long)floor( width*d->dpi/d->scale+0.5 ); if ( lwidth <= 3 ) { DrawLine( d, p0, p1, (wDrawWidth)lwidth, color1 ); } else { width /= 2.0; a = FindAngle( p0, p1 ); Translate( &pp[0], p0, a+90, width ); Translate( &pp[1], p0, a-90, width ); Translate( &pp[2], p1, a-90, width ); Translate( &pp[3], p1, a+90, width ); DrawPoly( d, 4, pp, NULL, color1, 0, DRAW_FILL ); /* Draw Outline */ if ( /*color1 != color2 &&*/ DrawTwoRails(d,1) || d->funcs == &tempSegDrawFuncs ) { DrawPoly( d, 4, pp, NULL, color2, 0, DRAW_CLOSED ); if ( color1 != color2 && type != B_RECT ) { oldOptions = d->options; if ( type == B_LGRIDER || orient == 1 || orient == 2 ) { if ( type == B_LGRIDER && lgirderFlangeDashed[orient] ) { d->options |= DC_DASH; } if ( (type == B_LGRIDER && lgirderFlangeLeft[orient]) || (type == B_TGRIDER && orient == 1) ) { Translate( &pp[0], pp[1], a+90, thickness ); Translate( &pp[3], pp[2], a+90, thickness ); } else { Translate( &pp[0], pp[0], a-90, thickness ); Translate( &pp[3], pp[3], a-90, thickness ); } DrawLine( d, pp[0], pp[3], 0, color2 ); } else { Translate( &pp[0], p0, a+90, thickness/2.0 ); Translate( &pp[1], p0, a-90, thickness/2.0 ); Translate( &pp[2], p1, a-90, thickness/2.0 ); Translate( &pp[3], p1, a+90, thickness/2.0 ); if ( orient == 0 ) { d->options |= DC_DASH; } DrawLine( d, pp[0], pp[3], 0, color2 ); DrawLine( d, pp[1], pp[2], 0, color2 ); } d->options = oldOptions; } } } } EXPORT addButtonCallBack_t InitBenchDialog( void ) { AddBenchTypes( B_RECT, "benchtype-rect", "1 1 6 2 2 4 2 6 6 2 8 8 4 4 4" ); AddBenchTypes( B_LGRIDER, "benchtype-lgrider", "2 4 5 3 4 6 4 5 8" ); AddBenchTypes( B_TGRIDER, "benchtype-tgrider", "2 4 4 3 4 7 4 5 8" ); return NULL; } EXPORT void BenchGetDesc( long benchData, char * desc ) { long orient; long type; long iwidth, iheight; char name[40]; orient = benchData&0xFF; iheight = (benchData>>9)&0xff; iwidth = (benchData>>17)&0x7f; type = (benchData>>24)&0xff; if ( units==UNITS_ENGLISH ) { sprintf( name, "%ld\"x%ld\"", iwidth, iheight ); } else { sprintf( name, "%ldmm x %ldmm", iheight*25, iwidth*25 ); } sprintf( desc, "%s%s %s", (type==B_LGRIDER?"L - ":type==B_TGRIDER?"T - ":""), name, _(orientD[type].data[(int)orient].name) ); } typedef struct { long type; long width; long height; DIST_T length; } benchEnum_t, *benchEnum_p; static dynArr_t benchEnum_da; #define benchEnum(N) DYNARR_N( benchEnum_t, benchEnum_da, N ) static void PrintBenchLine( char * line, benchEnum_p bp ) { char name[40]; if ( units==UNITS_ENGLISH ) { sprintf( name, "%ld\"x%ld\"", bp->width, bp->height ); } else { sprintf( name, "%ldmm x %ldmm", bp->height*25, bp->width*25 ); } sprintf( line, "%s - %s%s", FormatDistance(bp->length), name, benchTypeS[bp->type] ); } EXPORT void CountBench( long benchData, DIST_T length ) { int inx; // long orient; long type; long iwidth, iheight; benchEnum_p bp; // orient = benchData&0xFF; iheight = (benchData>>9)&0xff; iwidth = (benchData>>17)&0x7f; type = (benchData>>24)&0xff; for ( inx=0; inxtype == type && bp->width == iwidth && bp->height == iheight ) { bp->length += length; goto foundBenchEnum; } } DYNARR_APPEND( benchEnum_t, benchEnum_da, 10 ); bp = &benchEnum(benchEnum_da.cnt-1); bp->type = type; bp->width = iwidth; bp->height = iheight; bp->length = length; foundBenchEnum: PrintBenchLine( message, bp ); size_t width = strlen(message); if ( width > enumerateMaxDescLen) { enumerateMaxDescLen = (int)width; } } static int Cmp_benchEnum( const void *p1, const void *p2 ) { benchEnum_p bp1 = (benchEnum_p)p1; benchEnum_p bp2 = (benchEnum_p)p2; long diff; if ( ( diff = bp1->type-bp2->type ) != 0 ) { return (int)diff; } if ( ( diff = bp1->width-bp2->width ) != 0 ) { return (int)diff; } if ( ( diff = bp1->height-bp2->height ) != 0 ) { return (int)diff; } return 0; } EXPORT void TotalBench( void ) { int inx; char title[STR_SIZE]; benchEnum_p bp; qsort( &benchEnum(0), benchEnum_da.cnt, sizeof *bp, Cmp_benchEnum ); for ( inx=0; inxlength > 0 ) { PrintBenchLine( title, bp ); EnumerateList( 1, 0, title, NULL ); bp->length = 0; } } } EXPORT long BenchInputOption( long option ) { return option; } EXPORT long BenchOutputOption( long benchData ) { return benchData; } EXPORT DIST_T BenchGetWidth( long benchData ) { long orient; long type; long iwidth, iheight; DIST_T width; orient = benchData&0xFF; iheight = (benchData>>9)&0xff; iwidth = (benchData>>17)&0x7f; type = (benchData>>24)&0xff; switch (type) { case B_LGRIDER: width = lgirderNarrow[orient]?iwidth-0.25:iheight-0.5; break; case B_TGRIDER: width = (orient==0||orient==3)?iwidth-0.25:iheight-0.5; break; case B_RECT: width = (orient==0)?iwidth-0.25:iheight-0.25; break; default: width = 1.0; } return width; }