int main( int argc, char *argv[] ) { PLFLT xmin0, xmax0, ymin0, ymax0, zxmin0, zxmax0, zymin0, zymax0; PLFLT xmin, xmax, ymin, ymax, zxmin, zxmax, zymin, zymax; PLFLT xmid, ymid, wx, wy; PLFLT mar0, aspect0, jx0, jy0, ori0; PLFLT mar, aspect, jx, jy, ori; PLINT win, level2, digmax, digits, compression1, compression2; PLFLT xp0, yp0; PLINT xleng0, yleng0, xoff0, yoff0; PLFLT xp1, yp1; PLINT xleng1, yleng1, xoff1, yoff1; PLFLT xp2, yp2; PLINT xleng2, yleng2, xoff2, yoff2; PLINT fam0, num0, bmax0; PLINT fam1, num1, bmax1; PLINT fam2, num2, bmax2; PLINT r0, g0, b0; PLFLT a0; PLINT r, g, b; PLFLT a; PLINT r1[] = { 0, 255 }; PLINT g1[] = { 255, 0 }; PLINT b1[] = { 0, 0 }; PLFLT a1[] = { 1.0, 1.0 }; int status; char fnam[256]; // Parse and process command line arguments status = 0; (void) plparseopts( &argc, argv, PL_PARSE_FULL ); // Test setting / getting familying parameters before plinit // Save values set by plparseopts to be restored later. plgfam( &fam0, &num0, &bmax0 ); fam1 = 0; num1 = 10; bmax1 = 1000; plsfam( fam1, num1, bmax1 ); // Retrieve the same values? plgfam( &fam2, &num2, &bmax2 ); printf( "family parameters: fam, num, bmax = %d %d %d\n", fam2, num2, bmax2 ); if ( fam2 != fam1 || num2 != num1 || bmax2 != bmax1 ) { fputs( "plgfam test failed\n", stderr ); status = 1; } // Restore values set initially by plparseopts. plsfam( fam0, num0, bmax0 ); // Test setting / getting page parameters before plinit // Save values set by plparseopts to be restored later. plgpage( &xp0, &yp0, &xleng0, &yleng0, &xoff0, &yoff0 ); xp1 = 200.; yp1 = 200.; xleng1 = 400; yleng1 = 200; xoff1 = 10; yoff1 = 20; plspage( xp1, yp1, xleng1, yleng1, xoff1, yoff1 ); // Retrieve the same values? plgpage( &xp2, &yp2, &xleng2, &yleng2, &xoff2, &yoff2 ); printf( "page parameters: xp, yp, xleng, yleng, xoff, yoff = %f %f %d %d %d %d\n", xp2, yp2, xleng2, yleng2, xoff2, yoff2 ); if ( xp2 != xp1 || yp2 != yp1 || xleng2 != xleng1 || yleng2 != yleng1 || xoff2 != xoff1 || yoff2 != yoff1 ) { fputs( "plgpage test failed\n", stderr ); status = 1; } // Restore values set initially by plparseopts. plspage( xp0, yp0, xleng0, yleng0, xoff0, yoff0 ); // Test setting / getting compression parameter across plinit. compression1 = 95; plscompression( compression1 ); // Initialize plplot plinit(); // Test if device initialization screwed around with the preset // compression parameter. plgcompression( &compression2 ); printf( "Output various PLplot parameters\n" ); printf( "compression parameter = %d\n", compression2 ); if ( compression2 != compression1 ) { fputs( "plgcompression test failed\n", stderr ); status = 1; } // Exercise plscolor, plscol0, plscmap1, and plscmap1a to make sure // they work without any obvious error messages. plscolor( 1 ); plscol0( 1, 255, 0, 0 ); plscmap1( r1, g1, b1, 2 ); plscmap1a( r1, g1, b1, a1, 2 ); plglevel( &level2 ); printf( "level parameter = %d\n", level2 ); if ( level2 != 1 ) { fputs( "plglevel test failed.\n", stderr ); status = 1; } pladv( 0 ); xmin0 = 0.01; xmax0 = 0.99; ymin0 = 0.02; ymax0 = 0.49; plvpor( xmin0, xmax0, ymin0, ymax0 ); plgvpd( &xmin, &xmax, &ymin, &ymax ); printf( "plvpor: xmin, xmax, ymin, ymax = %f %f %f %f\n", xmin, xmax, ymin, ymax ); if ( xmin != xmin0 || xmax != xmax0 || ymin != ymin0 || ymax != ymax0 ) { fputs( "plgvpd test failed\n", stderr ); status = 1; } xmid = 0.5 * ( xmin + xmax ); ymid = 0.5 * ( ymin + ymax ); xmin0 = 0.2; xmax0 = 0.3; ymin0 = 0.4; ymax0 = 0.5; plwind( xmin0, xmax0, ymin0, ymax0 ); plgvpw( &xmin, &xmax, &ymin, &ymax ); printf( "plwind: xmin, xmax, ymin, ymax = %f %f %f %f\n", xmin, xmax, ymin, ymax ); if ( xmin != xmin0 || xmax != xmax0 || ymin != ymin0 || ymax != ymax0 ) { fputs( "plgvpw test failed\n", stderr ); status = 1; } // Get world coordinates for middle of viewport plcalc_world( xmid, ymid, &wx, &wy, &win ); printf( "world parameters: wx, wy, win = %f %f %d\n", wx, wy, win ); if ( fabs( wx - 0.5 * ( xmin + xmax ) ) > 1.0E-5 || fabs( wy - 0.5 * ( ymin + ymax ) ) > 1.0E-5 ) { fputs( "plcalc_world test failed\n", stderr ); status = 1; } // Retrieve and print the name of the output file (if any). // This goes to stderr not stdout since it will vary between tests and // we want stdout to be identical for compare test. plgfnam( fnam ); if ( fnam[0] == '\0' ) { printf( "No output file name is set\n" ); } else { printf( "Output file name read\n" ); } fprintf( stderr, "Output file name is %s\n", fnam ); // Set and get the number of digits used to display axis labels // Note digits is currently ignored in pls[xyz]ax and // therefore it does not make sense to test the returned // value plsxax( 3, 0 ); plgxax( &digmax, &digits ); printf( "x axis parameters: digmax, digits = %d %d\n", digmax, digits ); if ( digmax != 3 ) { fputs( "plgxax test failed\n", stderr ); status = 1; } plsyax( 4, 0 ); plgyax( &digmax, &digits ); printf( "y axis parameters: digmax, digits = %d %d\n", digmax, digits ); if ( digmax != 4 ) { fputs( "plgyax test failed\n", stderr ); status = 1; } plszax( 5, 0 ); plgzax( &digmax, &digits ); printf( "z axis parameters: digmax, digits = %d %d\n", digmax, digits ); if ( digmax != 5 ) { fputs( "plgzax test failed\n", stderr ); status = 1; } mar0 = 0.05; aspect0 = PL_NOTSET; jx0 = 0.1; jy0 = 0.2; plsdidev( mar0, aspect0, jx0, jy0 ); plgdidev( &mar, &aspect, &jx, &jy ); printf( "device-space window parameters: mar, aspect, jx, jy = %f %f %f %f\n", mar, aspect, jx, jy ); if ( mar != mar0 || jx != jx0 || jy != jy0 ) { fputs( "plgdidev test failed\n", stderr ); status = 1; } ori0 = 1.0; plsdiori( ori0 ); plgdiori( &ori ); printf( "ori parameter = %f\n", ori ); if ( ori != ori0 ) { fputs( "plgdiori test failed\n", stderr ); status = 1; } xmin0 = 0.1; ymin0 = 0.2; xmax0 = 0.9; ymax0 = 0.8; plsdiplt( xmin0, ymin0, xmax0, ymax0 ); plgdiplt( &xmin, &ymin, &xmax, &ymax ); printf( "plot-space window parameters: xmin, ymin, xmax, ymax = %f %f %f %f\n", xmin, ymin, xmax, ymax ); if ( xmin != xmin0 || ymin != ymin0 || xmax != xmax0 || ymax != ymax0 ) { fputs( "plgdiplt test failed\n", stderr ); status = 1; } zxmin0 = 0.1; zymin0 = 0.1; zxmax0 = 0.9; zymax0 = 0.9; plsdiplz( zxmin0, zymin0, zxmax0, zymax0 ); plgdiplt( &zxmin, &zymin, &zxmax, &zymax ); printf( "zoomed plot-space window parameters: xmin, ymin, xmax, ymax = %f %f %f %f\n", zxmin, zymin, zxmax, zymax ); if ( fabs( zxmin - ( xmin + ( xmax - xmin ) * zxmin0 ) ) > 1.0E-5 || fabs( zymin - ( ymin + ( ymax - ymin ) * zymin0 ) ) > 1.0E-5 || fabs( zxmax - ( xmin + ( xmax - xmin ) * zxmax0 ) ) > 1.0E-5 || fabs( zymax - ( ymin + ( ymax - ymin ) * zymax0 ) ) > 1.0E-5 ) { fputs( "plsdiplz test failed\n", stderr ); status = 1; } r0 = 10; g0 = 20; b0 = 30; plscolbg( r0, g0, b0 ); plgcolbg( &r, &g, &b ); printf( "background colour parameters: r, g, b = %d %d %d\n", r, g, b ); if ( r != r0 || g != g0 || b != b0 ) { fputs( "plgcolbg test failed\n", stderr ); status = 1; } r0 = 20; g0 = 30; b0 = 40; a0 = 0.5; plscolbga( r0, g0, b0, a0 ); plgcolbga( &r, &g, &b, &a ); printf( "background/transparency colour parameters: r, g, b, a = %d %d %d %f\n", r, g, b, a ); if ( r != r0 || g != g0 || b != b0 || a != a0 ) { fputs( "plgcolbga test failed\n", stderr ); status = 1; } plend(); exit( status ); }
/* * Plot a histogram showing the number of occurences of each possible * value of 'samples'. */ int plplotHist( const int32_t *samples, uint32_t numSamples, const char *graphName, const char *fileName, const char *xAxisName, /* optional */ const char *yAxisName) /* optional */ { char tmpFile[TEMP_FN_LEN]; makeTempFile(tmpFile, TEMP_FN_LEN); /* First determine the range, i.e. the number of bins */ int32_t minSamp = samples[0]; int32_t maxSamp = samples[0]; for(uint32_t dex=0; dex<numSamples; dex++) { int32_t s = samples[dex]; if(s < minSamp) { minSamp = s; } if(s > maxSamp) { maxSamp = s; } } /* When we specify PL_BIN_CENTRED, the min and max values are half the normal width */ minSamp--; maxSamp++; PLINT numBins = maxSamp - minSamp + 1; /* One array containing the sample values, x */ PLFLT *x = (PLFLT *)malloc(numBins * sizeof(PLFLT)); int32_t binNum = minSamp; for(uint32_t dex=0; dex<(uint32_t)numBins; dex++) { x[dex] = binNum++; } /* Now make and fill the bins proper */ PLFLT *y = (PLFLT *)malloc(numBins * sizeof(PLFLT)); for(uint32_t dex=0; dex<(uint32_t)numBins; dex++) { y[dex] = 0; } PLFLT maxY = 0.0; for(uint32_t dex=0; dex<numSamples; dex++) { int32_t s = samples[dex]; PLFLT *yp = y + s - minSamp; *yp += 1.0; if(*yp > maxY) { maxY = *yp; } } const char *yName = yAxisName ? yAxisName : ""; const char *xName = xAxisName ? xAxisName : ""; #if HIST_COLOR plsdev ("psc"); plscolor(1); plscolbg(255, 255, 255); /* white background */ #else plsdev ("ps"); #endif plsfnam(tmpFile); plsdiori(1.0); // portrait plinit(); plenv(minSamp, maxSamp, 0, maxY, 0, 0); #if HIST_COLOR /* can we alter colors of lines and the spaces inside the histograms? */ plscolbg(255, 0, 0); /* red background */ plscol0(1, 255, 0, 0); /* red foreground - no effect */ #endif pllab(xName, yName, graphName); plbin(numBins, x, y, PL_BIN_CENTRED); plend(); free(x); free(y); int ourRtn = psToPdf(tmpFile, fileName); unlink(tmpFile); return ourRtn; }