/* * Notes: * 1. These functions plug into the gl_renderbuffer structure. * 2. The 'values' parameter always points to GLuint values, regardless of * the actual Z buffer depth. */ #include "spantmp_common.h" #ifndef DBG #define DBG 0 #endif #ifndef HAVE_HW_DEPTH_SPANS #define HAVE_HW_DEPTH_SPANS 0 #endif #ifndef HAVE_HW_DEPTH_PIXELS #define HAVE_HW_DEPTH_PIXELS 0 #endif static void TAG(WriteDepthSpan)( struct gl_context *ctx, struct gl_renderbuffer *rb, GLuint n, GLint x, GLint y, const void *values, const GLubyte mask[] ) { HW_WRITE_LOCK() { const VALUE_TYPE *depth = (const VALUE_TYPE *) values; GLint x1; GLint n1; LOCAL_DEPTH_VARS; y = Y_FLIP( y ); #if HAVE_HW_DEPTH_SPANS (void) x1; (void) n1; if ( DBG ) fprintf( stderr, "WriteDepthSpan 0..%d (x1 %d)\n", (int)n, (int)x ); WRITE_DEPTH_SPAN(); #else HW_CLIPLOOP() { GLint i = 0; CLIPSPAN( x, y, n, x1, n1, i ); if ( DBG ) fprintf( stderr, "WriteDepthSpan %d..%d (x1 %d) (mask %p)\n", (int)i, (int)n1, (int)x1, mask ); if ( mask ) { for ( ; n1>0 ; i++, x1++, n1-- ) { if ( mask[i] ) WRITE_DEPTH( x1, y, depth[i] ); } } else { for ( ; n1>0 ; i++, x1++, n1-- ) { WRITE_DEPTH( x1, y, depth[i] ); } } } HW_ENDCLIPLOOP(); #endif } HW_WRITE_UNLOCK(); (void) ctx; } static void TAG(WriteDepthPixels)( struct gl_context *ctx, struct gl_renderbuffer *rb, GLuint n, const GLint x[], const GLint y[], const void *values, const GLubyte mask[] ) { HW_WRITE_LOCK() { const VALUE_TYPE *depth = (const VALUE_TYPE *) values; GLuint i; LOCAL_DEPTH_VARS; if ( DBG ) fprintf( stderr, "WriteDepthPixels\n" ); #if HAVE_HW_DEPTH_PIXELS (void) i; WRITE_DEPTH_PIXELS(); #else HW_CLIPLOOP() { if ( mask ) { for ( i = 0 ; i < n ; i++ ) { if ( mask[i] ) { const int fy = Y_FLIP( y[i] ); if ( CLIPPIXEL( x[i], fy ) ) WRITE_DEPTH( x[i], fy, depth[i] ); } } } else { for ( i = 0 ; i < n ; i++ ) { const int fy = Y_FLIP( y[i] ); if ( CLIPPIXEL( x[i], fy ) ) WRITE_DEPTH( x[i], fy, depth[i] ); } } } HW_ENDCLIPLOOP(); #endif } HW_WRITE_UNLOCK(); (void) ctx; } /* Read depth spans and pixels */ static void TAG(ReadDepthSpan)( struct gl_context *ctx, struct gl_renderbuffer *rb, GLuint n, GLint x, GLint y, void *values ) { HW_READ_LOCK() { VALUE_TYPE *depth = (VALUE_TYPE *) values; GLint x1, n1; LOCAL_DEPTH_VARS; y = Y_FLIP( y ); if ( DBG ) fprintf( stderr, "ReadDepthSpan\n" ); #if HAVE_HW_DEPTH_SPANS (void) x1; (void) n1; READ_DEPTH_SPAN(); #else HW_CLIPLOOP() { GLint i = 0; CLIPSPAN( x, y, n, x1, n1, i ); for ( ; n1>0 ; i++, n1-- ) { READ_DEPTH( depth[i], x+i, y ); } } HW_ENDCLIPLOOP(); #endif } HW_READ_UNLOCK(); } static void TAG(ReadDepthPixels)( struct gl_context *ctx, struct gl_renderbuffer *rb, GLuint n, const GLint x[], const GLint y[], void *values ) { HW_READ_LOCK() { VALUE_TYPE *depth = (VALUE_TYPE *) values; GLuint i; LOCAL_DEPTH_VARS; if ( DBG ) fprintf( stderr, "ReadDepthPixels\n" ); #if HAVE_HW_DEPTH_PIXELS (void) i; READ_DEPTH_PIXELS(); #else HW_CLIPLOOP() { for ( i = 0 ; i < n ;i++ ) { int fy = Y_FLIP( y[i] ); if ( CLIPPIXEL( x[i], fy ) ) READ_DEPTH( depth[i], x[i], fy ); } } HW_ENDCLIPLOOP(); #endif } HW_READ_UNLOCK(); (void) ctx; } /** * Initialize the given renderbuffer's span routines to point to * the depth/z functions we generated above. */ static void TAG(InitDepthPointers)(struct gl_renderbuffer *rb) { rb->GetRow = TAG(ReadDepthSpan); rb->GetValues = TAG(ReadDepthPixels); rb->PutRow = TAG(WriteDepthSpan); rb->PutRowRGB = NULL; rb->PutValues = TAG(WriteDepthPixels); } #if HAVE_HW_DEPTH_SPANS #undef WRITE_DEPTH_SPAN #undef WRITE_DEPTH_PIXELS #undef READ_DEPTH_SPAN #undef READ_DEPTH_PIXELS #else #undef WRITE_DEPTH #undef READ_DEPTH #endif #undef TAG #undef VALUE_TYPE