//-------------------------------------------------------------------------- // Print //-------------------------------------------------------------------------- void DecOp::print( Stream &stream ) { Var *var = dynamic_cast<Var*>( mInput[0] ); WRITESTR( (char*)var->type ); WRITESTR( " " ); mInput[0]->print( stream ); }
void PixelParamsDefHLSL::print( Stream &stream, bool isVerterShader ) { assignConstantNumbers(); const char * opener = "Fragout main( ConnectData IN"; stream.write( dStrlen(opener), opener ); // find all the sampler & uniform variables and print them out for( U32 i=0; i<LangElement::elementList.size(); i++) { Var *var = dynamic_cast<Var*>(LangElement::elementList[i]); if( var ) { if( var->uniform ) { WRITESTR( ",\r\n " ); U8 varNum[32]; if( var->sampler ) { dSprintf( (char*)varNum, sizeof(varNum), ": register(S%d)", var->constNum ); } else if (var->texture) { dSprintf((char*)varNum, sizeof(varNum), ": register(T%d)", var->constNum); } else { dSprintf( (char*)varNum, sizeof(varNum), ": register(C%d)", var->constNum ); } U8 output[256]; if (var->arraySize <= 1) dSprintf( (char*)output, sizeof(output), "uniform %-9s %-15s %s", var->type, var->name, varNum ); else dSprintf( (char*)output, sizeof(output), "uniform %-9s %s[%d] %s", var->type, var->name, var->arraySize, varNum ); WRITESTR( (char*) output ); } } } const char *closer = "\r\n)\r\n{\r\n Fragout OUT;\r\n\r\n"; stream.write( dStrlen(closer), closer ); }
static BOOL write_all_strings(DSNINFO * di) { char odbcini[FILENAME_MAX]; char tmp[100]; const char *section = tds_dstr_cstr(&di->dsn); strcpy(odbcini, "odbc.ini"); WRITESTR("Server", FIELD_STRING(server_name)); WRITESTR("Language", FIELD_STRING(language)); WRITESTR("Database", FIELD_STRING(database)); sprintf(tmp, "%u", di->login->port); WRITESTR("Port", tmp); sprintf(tmp, "%d.%d", TDS_MAJOR(di->login), TDS_MINOR(di->login)); WRITESTR("TDS_Version", tmp); sprintf(tmp, "%u", di->login->text_size); WRITESTR("TextSize", tmp); sprintf(tmp, "%u", di->login->block_size); WRITESTR("PacketSize", tmp); return TRUE; }
void ShaderGenPrinterGLSL::printPixelShaderOutputStruct( Stream& stream, const MaterialFeatureData &featureData ) { // Determine the number of output targets we need U32 numMRTs = 0; for (U32 i = 0; i < FEATUREMGR->getFeatureCount(); i++) { const FeatureInfo &info = FEATUREMGR->getAt(i); if (featureData.features.hasFeature(*info.type)) numMRTs |= info.feature->getOutputTargets(featureData); } WRITESTR(avar("//Fragment shader OUT\r\n")); WRITESTR(avar("out vec4 OUT_col;\r\n")); for( U32 i = 1; i < 4; i++ ) { if( numMRTs & 1 << i ) WRITESTR(avar("out vec4 OUT_col%d;\r\n", i)); } WRITESTR("\r\n"); WRITESTR("\r\n"); }
void ShaderGenPrinterHLSL::printPixelShaderCloser(Stream& stream) { WRITESTR( "\r\n return OUT;\r\n}\r\n" ); }
int netcfg_save_to(const char * fn, const netcfg_t * cfg) { FILE * f; char buf[64]; assert(cfg); dbgp("Saving: %s\n", fn); // Open the output file if(fn[0] == '/' && fn[1] == 'v' && fn[2] == 'm' && fn[3] == 'u') { dbgp("Saving to VMU\n"); f = fopen("/ram/netcfg.tmp", "wb"); } else { f = fopen(fn, "wb"); } if(!f) return -1; // Write out each line... sprintf(buf, "# KOS Network Config written by netcfg_save_to\n"); if(fwrite(buf, strlen(buf), 1, f) != 1) goto error; #define WRITESTR(fmt, data) \ sprintf(buf, fmt, data); \ if (fwrite(buf, strlen(buf), 1, f) != 1) \ goto error; WRITESTR("driver=%s\n", cfg->driver); WRITESTR("ip=%08lx\n", cfg->ip); WRITESTR("gateway=%08lx\n", cfg->gateway); WRITESTR("netmask=%08lx\n", cfg->netmask); WRITESTR("broadcast=%08lx\n", cfg->broadcast); WRITESTR("dns1=%08lx\n", cfg->dns[0]); WRITESTR("dns2=%08lx\n", cfg->dns[1]); WRITESTR("hostname=%s\n", cfg->hostname); WRITESTR("email=%s\n", cfg->email); WRITESTR("smtp=%s\n", cfg->smtp); WRITESTR("pop3=%s\n", cfg->pop3); WRITESTR("pop3_login=%s\n", cfg->pop3_login); WRITESTR("pop3_passwd=%s\n", cfg->pop3_passwd); WRITESTR("proxy_host=%s\n", cfg->proxy_host); WRITESTR("proxy_port=%d\n", cfg->proxy_port); WRITESTR("ppp_login=%s\n", cfg->ppp_login); WRITESTR("ppp_passwd=%s\n", cfg->ppp_passwd); switch(cfg->method) { case 0: WRITESTR("method=%s\n", "dhcp"); break; case 1: WRITESTR("method=%s\n", "static"); break; case 4: WRITESTR("method=%s\n", "pppoe"); break; } #undef WRITESTR fclose(f); //If we're saving to a VMU, tack on the header and send it out if(fn[0] == '/' && fn[1] == 'v' && fn[2] == 'm' && fn[3] == 'u') { netcfg_vmuify("/ram/netcfg.tmp", fn); unlink("/ram/netcfg.tmp"); } return 0; error: fclose(f); return -1; }
//-------------------------------------------------------------------------- // Print //-------------------------------------------------------------------------- void EchoOp::print( Stream &stream ) { WRITESTR( mStatement ); }