/* * Mesa 3-D graphics library * Version: 5.1 * * Copyright (C) 1999-2003 Brian Paul All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * BRIAN PAUL BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN * AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * Authors: * Gareth Hughes */ #include "glheader.h" #include "context.h" #include "macros.h" #include "imports.h" #include "m_matrix.h" #include "m_xform.h" #include "m_debug.h" #include "m_debug_util.h" #ifdef __UNIXOS2__ /* The linker doesn't like empty files */ static char dummy; #endif #ifdef DEBUG /* This code only used for debugging */ static int m_norm_identity[16] = { ONE, NIL, NIL, NIL, NIL, ONE, NIL, NIL, NIL, NIL, ONE, NIL, NIL, NIL, NIL, NIL }; static int m_norm_general[16] = { VAR, VAR, VAR, NIL, VAR, VAR, VAR, NIL, VAR, VAR, VAR, NIL, NIL, NIL, NIL, NIL }; static int m_norm_no_rot[16] = { VAR, NIL, NIL, NIL, NIL, VAR, NIL, NIL, NIL, NIL, VAR, NIL, NIL, NIL, NIL, NIL }; static int *norm_templates[8] = { m_norm_no_rot, m_norm_no_rot, m_norm_no_rot, m_norm_general, m_norm_general, m_norm_general, m_norm_identity, m_norm_identity }; static int norm_types[8] = { NORM_TRANSFORM_NO_ROT, NORM_TRANSFORM_NO_ROT | NORM_RESCALE, NORM_TRANSFORM_NO_ROT | NORM_NORMALIZE, NORM_TRANSFORM, NORM_TRANSFORM | NORM_RESCALE, NORM_TRANSFORM | NORM_NORMALIZE, NORM_RESCALE, NORM_NORMALIZE }; static int norm_scale_types[8] = { /* rescale factor */ NIL, /* NIL disables rescaling */ VAR, NIL, NIL, VAR, NIL, VAR, NIL }; static int norm_normalize_types[8] = { /* normalizing ?? (no = 0) */ 0, 0, 1, 0, 0, 1, 0, 1 }; static char *norm_strings[8] = { "NORM_TRANSFORM_NO_ROT", "NORM_TRANSFORM_NO_ROT | NORM_RESCALE", "NORM_TRANSFORM_NO_ROT | NORM_NORMALIZE", "NORM_TRANSFORM", "NORM_TRANSFORM | NORM_RESCALE", "NORM_TRANSFORM | NORM_NORMALIZE", "NORM_RESCALE", "NORM_NORMALIZE" }; /* ============================================================= * Reference transformations */ static void ref_norm_transform_rescale( const GLmatrix *mat, GLfloat scale, const GLvector4f *in, const GLfloat *lengths, GLvector4f *dest ) { GLuint i; const GLfloat *s = in->start; const GLfloat *m = mat->inv; GLfloat (*out)[4] = (GLfloat (*)[4]) dest->start; (void) lengths; for ( i = 0 ; i < in->count ; i++ ) { GLfloat t[3]; TRANSFORM_NORMAL( t, s, m ); SCALE_SCALAR_3V( out[i], scale, t ); s = (GLfloat *)((char *)s + in->stride); } } static void ref_norm_transform_normalize( const GLmatrix *mat, GLfloat scale, const GLvector4f *in, const GLfloat *lengths, GLvector4f *dest ) { GLuint i; const GLfloat *s = in->start; const GLfloat *m = mat->inv; GLfloat (*out)[4] = (GLfloat (*)[4]) dest->start; for ( i = 0 ; i < in->count ; i++ ) { GLfloat t[3]; TRANSFORM_NORMAL( t, s, m ); if ( !lengths ) { GLfloat len = LEN_SQUARED_3FV( t ); if ( len > 1e-20 ) { /* Hmmm, don't know how we could test the precalculated * length case... */ scale = 1.0 / sqrt( len ); SCALE_SCALAR_3V( out[i], scale, t ); } else { out[i][0] = out[i][1] = out[i][2] = 0; } } else { scale = lengths[i];; SCALE_SCALAR_3V( out[i], scale, t ); } s = (GLfloat *)((char *)s + in->stride); } } /* ============================================================= * Normal transformation tests */ static void init_matrix( GLfloat *m ) { m[0] = 63.0; m[4] = 43.0; m[ 8] = 29.0; m[12] = 43.0; m[1] = 55.0; m[5] = 17.0; m[ 9] = 31.0; m[13] = 7.0; m[2] = 44.0; m[6] = 9.0; m[10] = 7.0; m[14] = 3.0; m[3] = 11.0; m[7] = 23.0; m[11] = 91.0; m[15] = 9.0; } static int test_norm_function( normal_func func, int mtype, long *cycles ) { GLvector4f source[1], dest[1], dest2[1], ref[1], ref2[1]; GLmatrix mat[1]; GLfloat s[TEST_COUNT][5], d[TEST_COUNT][4], r[TEST_COUNT][4]; GLfloat d2[TEST_COUNT][4], r2[TEST_COUNT][4], length[TEST_COUNT]; GLfloat scale; GLfloat *m; int i, j; #ifdef RUN_DEBUG_BENCHMARK int cycle_i; /* the counter for the benchmarks we run */ #endif (void) cycles; mat->m = (GLfloat *) ALIGN_MALLOC( 16 * sizeof(GLfloat), 16 ); mat->inv = m = mat->m; init_matrix( m ); scale = 1.0F + rnd () * norm_scale_types[mtype]; for ( i = 0 ; i < 4 ; i++ ) { for ( j = 0 ; j < 4 ; j++ ) { switch ( norm_templates[mtype][i * 4 + j] ) { case NIL: m[j * 4 + i] = 0.0; break; case ONE: m[j * 4 + i] = 1.0; break; case NEG: m[j * 4 + i] = -1.0; break; case VAR: break; default: abort(); } } } for ( i = 0 ; i < TEST_COUNT ; i++ ) { ASSIGN_3V( d[i], 0.0, 0.0, 0.0 ); ASSIGN_3V( s[i], 0.0, 0.0, 0.0 ); ASSIGN_3V( d2[i], 0.0, 0.0, 0.0 ); for ( j = 0 ; j < 3 ; j++ ) s[i][j] = rnd(); length[i] = 1 / sqrt( LEN_SQUARED_3FV( s[i] ) ); } source->data = (GLfloat(*)[4]) s; source->start = (GLfloat *) s; source->count = TEST_COUNT; source->stride = sizeof(s[0]); source->flags = 0; dest->data = d; dest->start = (GLfloat *) d; dest->count = TEST_COUNT; dest->stride = sizeof(float[4]); dest->flags = 0; dest2->data = d2; dest2->start = (GLfloat *) d2; dest2->count = TEST_COUNT; dest2->stride = sizeof(float[4]); dest2->flags = 0; ref->data = r; ref->start = (GLfloat *) r; ref->count = TEST_COUNT; ref->stride = sizeof(float[4]); ref->flags = 0; ref2->data = r2; ref2->start = (GLfloat *) r2; ref2->count = TEST_COUNT; ref2->stride = sizeof(float[4]); ref2->flags = 0; if ( norm_normalize_types[mtype] == 0 ) { ref_norm_transform_rescale( mat, scale, source, NULL, ref ); } else { ref_norm_transform_normalize( mat, scale, source, NULL, ref ); ref_norm_transform_normalize( mat, scale, source, length, ref2 ); } if ( mesa_profile ) { BEGIN_RACE( *cycles ); func( mat, scale, source, NULL, dest ); END_RACE( *cycles ); func( mat, scale, source, length, dest2 ); } else { func( mat, scale, source, NULL, dest ); func( mat, scale, source, length, dest2 ); } for ( i = 0 ; i < TEST_COUNT ; i++ ) { for ( j = 0 ; j < 3 ; j++ ) { if ( significand_match( d[i][j], r[i][j] ) < REQUIRED_PRECISION ) { _mesa_printf( "-----------------------------\n" ); _mesa_printf( "(i = %i, j = %i)\n", i, j ); _mesa_printf( "%f \t %f \t [ratio = %e - %i bit missed]\n", d[i][0], r[i][0], r[i][0]/d[i][0], MAX_PRECISION - significand_match( d[i][0], r[i][0] ) ); _mesa_printf( "%f \t %f \t [ratio = %e - %i bit missed]\n", d[i][1], r[i][1], r[i][1]/d[i][1], MAX_PRECISION - significand_match( d[i][1], r[i][1] ) ); _mesa_printf( "%f \t %f \t [ratio = %e - %i bit missed]\n", d[i][2], r[i][2], r[i][2]/d[i][2], MAX_PRECISION - significand_match( d[i][2], r[i][2] ) ); return 0; } if ( norm_normalize_types[mtype] != 0 ) { if ( significand_match( d2[i][j], r2[i][j] ) < REQUIRED_PRECISION ) { _mesa_printf( "------------------- precalculated length case ------\n" ); _mesa_printf( "(i = %i, j = %i)\n", i, j ); _mesa_printf( "%f \t %f \t [ratio = %e - %i bit missed]\n", d2[i][0], r2[i][0], r2[i][0]/d2[i][0], MAX_PRECISION - significand_match( d2[i][0], r2[i][0] ) ); _mesa_printf( "%f \t %f \t [ratio = %e - %i bit missed]\n", d2[i][1], r2[i][1], r2[i][1]/d2[i][1], MAX_PRECISION - significand_match( d2[i][1], r2[i][1] ) ); _mesa_printf( "%f \t %f \t [ratio = %e - %i bit missed]\n", d2[i][2], r2[i][2], r2[i][2]/d2[i][2], MAX_PRECISION - significand_match( d2[i][2], r2[i][2] ) ); return 0; } } } } ALIGN_FREE( mat->m ); return 1; } void _math_test_all_normal_transform_functions( char *description ) { int mtype; long benchmark_tab[0xf]; static int first_time = 1; if ( first_time ) { first_time = 0; mesa_profile = getenv( "MESA_PROFILE" ); } #ifdef RUN_DEBUG_BENCHMARK if ( mesa_profile ) { if ( !counter_overhead ) { INIT_COUNTER(); _mesa_printf( "counter overhead: %ld cycles\n\n", counter_overhead ); } _mesa_printf( "normal transform results after hooking in %s functions:\n", description ); _mesa_printf( "\n-------------------------------------------------------\n" ); } #endif for ( mtype = 0 ; mtype < 8 ; mtype++ ) { normal_func func = _mesa_normal_tab[norm_types[mtype]]; long *cycles = &benchmark_tab[mtype]; if ( test_norm_function( func, mtype, cycles ) == 0 ) { char buf[100]; _mesa_sprintf( buf, "_mesa_normal_tab[0][%s] failed test (%s)", norm_strings[mtype], description ); _mesa_problem( NULL, buf ); } #ifdef RUN_DEBUG_BENCHMARK if ( mesa_profile ) { _mesa_printf( " %li\t", benchmark_tab[mtype] ); _mesa_printf( " | [%s]\n", norm_strings[mtype] ); } #endif } #ifdef RUN_DEBUG_BENCHMARK if ( mesa_profile ) { _mesa_printf( "\n" ); fflush( stdout ); } #endif } #endif /* DEBUG */