////////////////////////////////////////////////////////////////////////////////////////// // // Licensetype: GNU General Public License (GPL) // // 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, version 2.0. // // 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 2.0 for more details. // // A copy of the GPL 2.0 should have been included with the program. // If not, see http://www.gnu.org/licenses/ // // Official SVN repository and contact information can be found at // http://code.google.com/p/dolphin-emu/ // ////////////////////////////////////////////////////////////////////////////////////////// ////////////////////////////////////////////////////////////////////////////////////////// // Includes // ------------- #include // System #include #include // so that we can test std::string == abc #include // for the pow() function #ifdef _WIN32 #include #endif #include "StringUtil.h" // Common #include "../Debugger/Debugger.h" // Local #include "../Debugger/PBView.h" #include "../Debugger/File.h" // Print file #include "../Globals.h" #include "../UCodes/UCodes.h" #include "../UCodes/UCode_AXStructs.h" #include "../UCodes/UCode_AX.h" #include "../UCodes/UCode_AXWii.h" #include "../UCodes/UCode_AX_Voice.h" ////////////////////////// ////////////////////////////////////////////////////////////////////////////////////////// // Declarations and definitions // ------------- // Externals extern CDebugger* m_frame; //int PBSize = 128; // Parameter blocks std::vector mem(NUMBER_OF_PBS); // mem1 or mem2 std::vector gloopPos(NUMBER_OF_PBS); std::vector gsampleEnd(NUMBER_OF_PBS); std::vector gsamplePos(NUMBER_OF_PBS); // main std::vector running(NUMBER_OF_PBS, 0); std::vector gsrc_type(NUMBER_OF_PBS); std::vector gis_stream(NUMBER_OF_PBS); // PBSampleRateConverter src std::vector gratio(NUMBER_OF_PBS); std::vector gratiohi(NUMBER_OF_PBS); std::vector gratiolo(NUMBER_OF_PBS); std::vector gfrac(NUMBER_OF_PBS); std::vector gcoef(NUMBER_OF_PBS); // PBSampleRateConverter mixer std::vector gvolume_left(NUMBER_OF_PBS); std::vector gmix_unknown(NUMBER_OF_PBS); std::vector gvolume_right(NUMBER_OF_PBS); std::vector gmix_unknown2(NUMBER_OF_PBS); std::vector gmixer_control(NUMBER_OF_PBS); std::vector gmixer_control_wii(NUMBER_OF_PBS); std::vector gmixer_vol1(NUMBER_OF_PBS); std::vector gmixer_vol2(NUMBER_OF_PBS); std::vector gmixer_vol3(NUMBER_OF_PBS); std::vector gmixer_vol4(NUMBER_OF_PBS); std::vector gmixer_vol5(NUMBER_OF_PBS); std::vector gmixer_vol6(NUMBER_OF_PBS); std::vector gmixer_vol7(NUMBER_OF_PBS); std::vector gmixer_d1(NUMBER_OF_PBS); std::vector gmixer_d2(NUMBER_OF_PBS); std::vector gmixer_d3(NUMBER_OF_PBS); std::vector gmixer_d4(NUMBER_OF_PBS); std::vector gmixer_d5(NUMBER_OF_PBS); std::vector gmixer_d6(NUMBER_OF_PBS); std::vector gmixer_d7(NUMBER_OF_PBS); // PBVolumeEnvelope vol_env std::vector gcur_volume(NUMBER_OF_PBS); std::vector gcur_volume_delta(NUMBER_OF_PBS); // PBAudioAddr audio_addr (incl looping) std::vector gaudioFormat(NUMBER_OF_PBS); std::vector glooping(NUMBER_OF_PBS); std::vector gloop1(NUMBER_OF_PBS); std::vector gloop2(NUMBER_OF_PBS); std::vector gloop3(NUMBER_OF_PBS); // PBADPCMInfo adpcm std::vector gadloop1(NUMBER_OF_PBS); std::vector gadloop2(NUMBER_OF_PBS); std::vector gadloop3(NUMBER_OF_PBS); // updates std::vector gupdates1(NUMBER_OF_PBS); std::vector gupdates2(NUMBER_OF_PBS); std::vector gupdates3(NUMBER_OF_PBS); std::vector gupdates4(NUMBER_OF_PBS); std::vector gupdates5(NUMBER_OF_PBS); std::vector gupdates_addr(NUMBER_OF_PBS); std::vector gupdates_data(NUMBER_OF_PBS); std::vector gupdates_data1(NUMBER_OF_PBS); std::vector gupdates_data2(NUMBER_OF_PBS); std::vector gupdates_data3(NUMBER_OF_PBS); std::vector gupdates_data4(NUMBER_OF_PBS); // Counters int count1 = 0; int count2 = 0; int iupd = 0; bool iupdonce = false; std::vector viupd(15); // the length of the update frequency bar int vectorLengthGUI = 8; // length of playback history bar for the GUI version int vectorLength = 15; // for console version int vectorLength2 = 100; // for console version, how long to show // More stuff // Should we worry about the additonal memory these lists require? Bool will allocate // very little memory std::vector< std::vector > vector1(NUMBER_OF_PBS, std::vector(vectorLength, false)); std::vector< std::vector > vector2(NUMBER_OF_PBS, std::vector(vectorLength2, false)); std::vector numberRunning(NUMBER_OF_PBS); // Classes extern CDebugger* m_frame; ////////////////////////// // ======================================================================================= // Write title // -------------- std::string writeTitle(int a, bool Wii) { std::string b; if(a == 0) { if(m_frame->bShowBase) // show base 10 { b = " adpcm adpcm_loop\n"; b = b + " Nr m pos / end lpos | voll volr | isl iss | pre yn1 yn2 pre yn1 yn2 | frac ratio[hi lo]\n"; } else { b = " adpcm adpcm_loop\n"; b = b + " Nr pos / end lpos | voll volr | isl iss | pre yn1 yn2 pre yn1 yn2 | frac rati[hi lo ]\n"; } } else if(a == 1) { if(m_frame->bShowBase) // show base 10 { b = " Nr pos / end lpos | voll volr | src form coef | 1 2 3 4 5 addr value\n"; } else { b = " Nr pos / end lpos | voll volr | src form coef | 1 2 3 4 5 addr value\n"; } } else if(a == 2) { if(m_frame->bShowBase) // show base 10 { b = " Nr pos / end lpos | voll volr | isl iss | e-l e-s\n"; } else { b = " Nr pos / end lpos | voll volr | isl iss | e-l e-s\n"; } } else if(a == 3) { if(m_frame->bShowBase) // show base 10 { if(Wii) b = " Nr voll volr dl dr curv delt mixc r | v1 v2 v3 v4 v5 v6 v7 | d1 d2 d3 d4 d5 d6 d7\n"; else b = " Nr voll volr dl dr curv delt mixc r | v1 v2 v3 v4 v5 v6 v7 | d1 d2 d3 d4 d5 d6 d7\n"; } else { if(Wii) b = " Nr voll volr dl dr curv delt mixc r | v1 v2 v3 v4 v5 v6 v7 | d1 d2 d3 d4 d5 d6 d7\n"; else b = " Nr voll volr dl dr curv delt mixc r | v1 v2 v3 v4 v5 v6 v7 | d1 d2 d3 d4 d5 d6 d7\n"; } } return b; } // ======================================================================================= // ======================================================================================= // Write main message (presets) // -------------- std::string writeMessage(int a, int i, bool Wii) { char buf [1000] = ""; std::string sbuf; // ======================================================================================= // PRESETS // --------------------------------------------------------------------------------------- /* PRESET 0 " Nr m pos / end lpos | voll volr | isl iss | pre yn1 yn2 pre yn1 yn2 | frac ratio[hi lo]\n"; "---------------|00 1 12,341,234/134,123,412 12341234 | 00,000 00,000 | 0 0 | 000 00000 00000 000 00000 00000 | 00000 00000[0 00000] " Nr pos / end lpos | voll volr | isl iss | pre yn1 yn2 pre yn1 yn2 | frac rati[hi lo ]\n"; "---------------|00 12,341,234/134,123,412 12341234 | 00,000 00,000 | 0 0 | 000 0000 0000 000 0000 0000 | 0000 0000[0 00000] PRESET 1 (updates) " Nr pos / end lpos | voll volr | src form coef | 1 2 3 4 5 addr value\n"; "---------------|00 12,341,234/12,341,234 12341234 | 00,000 00,000 | 0 0 0 | 0 0 0 0 0 80808080 80808080 PRESET 2 " Nr pos / end lpos | voll volr | isl iss | e-l e-s\n"; "---------------|00 12,341,234/12341234 12,341,234 | 00000 00000 | 0 0 | 00,000,000 00,000,000 */ if(a == 0) { if(m_frame->bShowBase) // base 10 (decimal) { if(Wii) // Wii { sprintf(buf,"%c%02i %i %10s/%10s %10s | %6s %6s | %i %i | %03i %05i %05i %03i %05i %05i | %05i %05i[%i %05i]", 223, i, mem[i], ThS(gsamplePos[i],true).c_str(), ThS(gsampleEnd[i],true).c_str(), ThS(gloopPos[i],true).c_str(), ThS(gvolume_left[i]).c_str(), ThS(gvolume_right[i]).c_str(), glooping[i], gis_stream[i], gadloop1[i], gadloop2[i], gadloop3[i], gloop1[i], gloop2[i], gloop3[i], gfrac[i], gratio[i], gratiohi[i], gratiolo[i] ); } else // GC { sprintf(buf,"%c%02i %10s/%10s %10s | %6s %6s | %i %i | %03i %05i %05i %03i %05i %05i | %05i %05i[%i %05i]", 223, i, ThS(gsamplePos[i],true).c_str(), ThS(gsampleEnd[i],true).c_str(), ThS(gloopPos[i],true).c_str(), ThS(gvolume_left[i]).c_str(), ThS(gvolume_right[i]).c_str(), glooping[i], gis_stream[i], gadloop1[i], gadloop2[i], gadloop3[i], gloop1[i], gloop2[i], gloop3[i], gfrac[i], gratio[i], gratiohi[i], gratiolo[i] ); } } else { sprintf(buf,"%c%02i %08x/%08x %08x | %04x %04x | %i %i | %02x %04x %04x %02x %04x %04x | %04x %04x[%i %04x]", 223, i, gsamplePos[i], gsampleEnd[i], gloopPos[i], gvolume_left[i], gvolume_right[i], glooping[i], gis_stream[i], gadloop1[i], gadloop2[i], gadloop3[i], gloop1[i], gloop2[i], gloop3[i], gfrac[i], gratio[i], gratiohi[i], gratiolo[i] ); } } else if(a == 1) { if(m_frame->bShowBase) // base 10 (decimal) { sprintf(buf,"%c%02i %10s/%10s %10s | %6s %6s | %u %u %u | %u %u %u %u %u %08x %08x %08x %08x %08x %08x", 223, i, ThS(gsamplePos[i]).c_str(), ThS(gsampleEnd[i]).c_str(), ThS(gloopPos[i]).c_str(), ThS(gvolume_left[i]).c_str(), ThS(gvolume_right[i]).c_str(), gsrc_type[i], gaudioFormat[i], gcoef[i], gupdates1[i], gupdates2[i], gupdates3[i], gupdates4[i], gupdates5[i], gupdates_addr[i], gupdates_data[i], gupdates_data1[i], gupdates_data2[i], gupdates_data3[i], gupdates_data4[i] ); } else // base 16 (hexadecimal) { if(Wii) // Wii { sprintf(buf,"%c%02i %08x/%08x %08x | %04x %04x | %u %u %u | %u %u %u %08x %08x %08x %08x %08x %08x", 223, i, gsamplePos[i], gsampleEnd[i], gloopPos[i], gvolume_left[i], gvolume_right[i], gsrc_type[i], gaudioFormat[i], gcoef[i], gupdates1[i], gupdates2[i], gupdates3[i], gupdates_addr[i], gupdates_data[i], gupdates_data1[i], gupdates_data2[i], gupdates_data3[i], gupdates_data4[i] ); } else // GC { sprintf(buf,"%c%02i %08x/%08x %08x | %04x %04x | %u %u %u | %u %u %u %u %u %08x %08x %08x %08x %08x %08x", 223, i, gsamplePos[i], gsampleEnd[i], gloopPos[i], gvolume_left[i], gvolume_right[i], gsrc_type[i], gaudioFormat[i], gcoef[i], gupdates1[i], gupdates2[i], gupdates3[i], gupdates4[i], gupdates5[i], gupdates_addr[i], gupdates_data[i], gupdates_data1[i], gupdates_data2[i], gupdates_data3[i], gupdates_data4[i] ); } } } else if(a == 2) { if(m_frame->bShowBase) { sprintf(buf,"%c%02i %10s/%10s %10s | %05i %05i | %i %i | %10s %10s", 223, i, ThS(gsamplePos[i]).c_str(), ThS(gsampleEnd[i]).c_str(), ThS(gloopPos[i]).c_str(), gvolume_left[i], gvolume_right[i], glooping[i], gis_stream[i], ThS(gsampleEnd[i] - gloopPos[i], false).c_str(), ThS(gsampleEnd[i] - gsamplePos[i], false).c_str() ); } else { sprintf(buf,"%c%02i %08x/%08x %08x | %04x %04x | %i %i | %08x %08x", 223, i, gsamplePos[i], gsampleEnd[i], gloopPos[i], gvolume_left[i], gvolume_right[i], glooping[i], gis_stream[i], gsampleEnd[i] - gloopPos[i], gsampleEnd[i] - gsamplePos[i] ); } } /* PRESET 3 " Nr voll volr dl dr curv delt mixc r | v1 v2 v3 v4 v5 v6 v7 | d1 d2 d3 d4 d5 d6 d7\n"; "---------------|00 00000 00000 00000 00000 00000 00000 00000 0 | 00000 00000 00000 00000 00000 00000 00000 | 00000 00000 00000 00000 00000 00000 00000 */ else if(a == 3) { if(m_frame->bShowBase) { if(Wii) // Wii { sprintf(buf,"%c%02i %05i %05i %05i %05i %05i %05i %05i %i | %05i %05i %05i %05i %05i %05i %05i | %05i %05i %05i %05i %05i %05i %05i", 223, i, gvolume_left[i], gvolume_right[i], gmix_unknown[i], gmix_unknown2[i], gcur_volume[i], gcur_volume_delta[i], gmixer_control_wii[i], (gmixer_control_wii[i] & MIXCONTROL_RAMPING), gmixer_vol1[i], gmixer_vol2[i], gmixer_vol3[i], gmixer_vol4[i], gmixer_vol5[i], gmixer_vol6[i], gmixer_vol7[i], gmixer_d1[i], gmixer_d2[i], gmixer_d3[i], gmixer_d4[i], gmixer_d5[i], gmixer_d6[i], gmixer_d7[i] ); } else // GC { sprintf(buf,"%c%02i %05i %05i %05i %05i %05i %05i %08i %i | %05i %05i %05i %05i %05i %05i %05i | %05i %05i %05i %05i %05i %05i %05i", 223, i, gvolume_left[i], gvolume_right[i], gmix_unknown[i], gmix_unknown2[i], gcur_volume[i], gcur_volume_delta[i], gmixer_control[i], (gmixer_control[i] & MIXCONTROL_RAMPING), gmixer_vol1[i], gmixer_vol2[i], gmixer_vol3[i], gmixer_vol4[i], gmixer_vol5[i], gmixer_vol6[i], gmixer_vol7[i], gmixer_d1[i], gmixer_d2[i], gmixer_d3[i], gmixer_d4[i], gmixer_d5[i], gmixer_d6[i], gmixer_d7[i] ); } } else { if(Wii) { sprintf(buf,"%c%02i %04x %04x %04x %04x %04x %04x %08x %i | %04x %04x %04x %04x %04x %04x %04x | %04x %04x %04x %04x %04x %04x %04x", 223, i, gvolume_left[i], gvolume_right[i], gmix_unknown[i], gmix_unknown2[i], gcur_volume[i], gcur_volume_delta[i], gmixer_control_wii[i], (gmixer_control_wii[i] & MIXCONTROL_RAMPING), gmixer_vol1[i], gmixer_vol2[i], gmixer_vol3[i], gmixer_vol4[i], gmixer_vol5[i], gmixer_vol6[i], gmixer_vol7[i], gmixer_d1[i], gmixer_d2[i], gmixer_d3[i], gmixer_d4[i], gmixer_d5[i], gmixer_d6[i], gmixer_d7[i] ); } else { sprintf(buf,"%c%02i %04x %04x %04x %04x %04x %04x %04x %i | %04x %04x %04x %04x %04x %04x %04x | %04x %04x %04x %04x %04x %04x %04x", 223, i, gvolume_left[i], gvolume_right[i], gmix_unknown[i], gmix_unknown2[i], gcur_volume[i], gcur_volume_delta[i], gmixer_control[i], (gmixer_control[i] & MIXCONTROL_RAMPING), gmixer_vol1[i], gmixer_vol2[i], gmixer_vol3[i], gmixer_vol4[i], gmixer_vol5[i], gmixer_vol6[i], gmixer_vol7[i], gmixer_d1[i], gmixer_d2[i], gmixer_d3[i], gmixer_d4[i], gmixer_d5[i], gmixer_d6[i], gmixer_d7[i] ); } } } sbuf = buf; return sbuf; } // ================ // ======================================================================================= // Collect parameters from Wii or GC // -------------- /* std::string ShowAllPB(int a, int i) { if(a == 0) { } else if(a == 1) { } else if(a == 1) { } else if(a == 1) } */ // ================ // ======================================================================================= // Collect parameters from Wii or GC // -------------- //inline void MixAddVoice(ParamBlockType &pb //void CollectPB(bool Wii, int i, AXParamBlockWii * PBw, ParamBlockType &pb) template void CollectPB(bool Wii, int i, ParamBlockType &PBs) //void CollectPB(bool Wii, int i, AXParamBlockWii * PBw, AXParamBlock * PBs) { // AXPB base gsrc_type[i] = PBs[i].src_type; gcoef[i] = PBs[i].coef_select; if(Wii) gmixer_control_wii[i] = PBs[i].mixer_control; else gmixer_control[i] = PBs[i].mixer_control; //running[i] = PBs[i].running; gis_stream[i] = PBs[i].is_stream; // mixer (some differences) gvolume_left[i] = PBs[i].mixer.volume_left; gvolume_right[i] = PBs[i].mixer.volume_right; gmix_unknown[i] = PBs[i].mixer.unknown; gmix_unknown2[i] = PBs[i].mixer.unknown2; gcur_volume[i] = PBs[i].vol_env.cur_volume; gcur_volume_delta[i] = PBs[i].vol_env.cur_volume_delta; gmixer_vol1[i] = PBs[i].mixer.unknown3[0]; gmixer_vol2[i] = PBs[i].mixer.unknown3[2]; gmixer_vol3[i] = PBs[i].mixer.unknown3[4]; gmixer_vol4[i] = PBs[i].mixer.unknown3[6]; gmixer_vol5[i] = PBs[i].mixer.unknown3[0]; gmixer_vol6[i] = PBs[i].mixer.unknown3[2]; gmixer_vol7[i] = PBs[i].mixer.unknown3[4]; gmixer_d1[i] = PBs[i].mixer.unknown4[1]; gmixer_d2[i] = PBs[i].mixer.unknown4[3]; gmixer_d3[i] = PBs[i].mixer.unknown4[5]; gmixer_d4[i] = PBs[i].mixer.unknown4[7]; gmixer_d5[i] = PBs[i].mixer.unknown4[1]; gmixer_d6[i] = PBs[i].mixer.unknown4[3]; gmixer_d7[i] = PBs[i].mixer.unknown4[5]; // PBAudioAddr audio_addr glooping[i] = PBs[i].audio_addr.looping; gaudioFormat[i] = PBs[i].audio_addr.sample_format; gloopPos[i] = (PBs[i].audio_addr.loop_addr_hi << 16) | PBs[i].audio_addr.loop_addr_lo; gsampleEnd[i] = (PBs[i].audio_addr.end_addr_hi << 16) | PBs[i].audio_addr.end_addr_lo; gsamplePos[i] = (PBs[i].audio_addr.cur_addr_hi << 16) | PBs[i].audio_addr.cur_addr_lo; if(gloopPos[i] > 0x20000000) gloopPos[i] -= 0x20000000; if(gsampleEnd[i] > 0x20000000) gsampleEnd[i] -= 0x20000000; if(gsamplePos[i] > 0x20000000) { gsamplePos[i] -= 0x20000000; mem[i] = 2;} else { mem[i] = 1; } // PBADPCMLoopInfo adpcm_loop_info (same in GC and Wii) gadloop1[i] = PBs[i].adpcm.pred_scale; gadloop2[i] = PBs[i].adpcm.yn1; gadloop3[i] = PBs[i].adpcm.yn2; gloop1[i] = PBs[i].adpcm_loop_info.pred_scale; gloop2[i] = PBs[i].adpcm_loop_info.yn1; gloop3[i] = PBs[i].adpcm_loop_info.yn2; // updates (differences) gupdates1[i] = PBs[i].updates.num_updates[0]; gupdates2[i] = PBs[i].updates.num_updates[1]; gupdates3[i] = PBs[i].updates.num_updates[2]; gupdates4[i] = PBs[i].updates.num_updates[3]; gupdates5[i] = PBs[i].updates.num_updates[4]; gupdates_addr[i] = (PBs[i].updates.data_hi << 16) | PBs[i].updates.data_lo; if(gupdates_addr[i] > 0x80000000 && gupdates_addr[i] < 0x93ffffff) { gupdates_data[i] = Memory_Read_U32(gupdates_addr[i]); gupdates_data1[i] = Memory_Read_U32(gupdates_addr[i] + 4); gupdates_data2[i] = Memory_Read_U32(gupdates_addr[i] + 8); gupdates_data3[i] = Memory_Read_U32(gupdates_addr[i] + 12); gupdates_data3[i] = Memory_Read_U32(gupdates_addr[i] + 16); } // PBSampleRateConverter src gratio[i] = (u32)(((PBs[i].src.ratio_hi << 16) + PBs[i].src.ratio_lo) * ratioFactor); gratiohi[i] = PBs[i].src.ratio_hi; gratiolo[i] = PBs[i].src.ratio_lo; gfrac[i] = PBs[i].src.cur_addr_frac; } // =============== // ======================================================================================= // Prepare the condition that makes us show a certain block // -------------- template bool PrepareConditions(bool Wii, int i, ParamBlockType &PBs) { bool Conditions; if (m_frame->gOnlyLooping) // show only looping blocks { Conditions = PBs[i].audio_addr.looping ? true : false; } else if (m_frame->gShowAll) // show all blocks { Conditions = true; } else if (m_frame->giShowAll > -1) // show all blocks { if (m_frame->giShowAll == 0) Conditions = (i < 31); else if(m_frame->giShowAll == 1) Conditions = (i > 30 && i < 61); else if(m_frame->giShowAll == 2) Conditions = (i > 60 && i < 91); else if(m_frame->giShowAll == 3) Conditions = (i > 90 && i < 121); } else // show only the ones that have recently been running { Conditions = (numberRunning.at(i) > 0 || PBs[i].audio_addr.looping); } return Conditions; } // =============== template void Logging_(short* _pBuffer, int _iSize, int a, bool Wii, ParamBlockType &PBs, int numberOfPBs, u32 m_addressPBs) //void Logging__(short* _pBuffer, int _iSize, int a, bool Wii) { bool Conditions; // Select blocks to show // ======================================================================================= // Update parameter values // -------------- // We could chose to update these only if a block is currently running. Later I'll add options // to see both the current and the latest active value. int irun = 0; for (int i = 0; i < numberOfPBs; i++) { // -------------------------------------------------------------------- // Write a line for the text log if nothing is playing // -------------- if (PBs[i].running) { irun++; } if (i == numberOfPBs - 1 && irun == 0) { for (int j = 0; j < nFiles; j++) { std::string sfbuff; sfbuff = "-----\n"; PrintFile(j, (char *)sfbuff.c_str()); } } // -------------- // -------------------------------------- // Now go through only a subset of the blocks depending on Conditions // ------------------ /* Prepare conditions. We may for example get Conditions = true for blocks that currently have numberRunning.at(i) > 0 */ Conditions = PrepareConditions(Wii, i, PBs); if (Conditions) { // Collect parameters CollectPB(Wii, i, PBs); // --------------------------------------------------------------------------------------- // Write to file // -------------- for (int ii = 0; ii < nFiles; ii++) { std::string sfbuff; if(a == 0) sfbuff = "***"; // note if it's before or after an update (*** = before) else sfbuff = " "; // write running char cbuf[10]; sprintf(cbuf, "%i", PBs[i].running); sfbuff = sfbuff + cbuf; sfbuff = sfbuff + writeMessage(ii, i, Wii); // write _iSize strcpy(cbuf, ""); sprintf(cbuf, "%i", _iSize); sfbuff = sfbuff + " | _iSize: " + cbuf + "\n"; PrintFile(ii, (char *)sfbuff.c_str()); } // -------------- } } // ============== // ======================================================================================= // Control how often the screen is updated, and then update the screen // -------------- if(a == 0) count1++; // a == 0 when Logging is called before the blocks are updated if (m_frame->gUpdFreq > 0 && count1 > (200/m_frame->gUpdFreq)) { // ======================================================================================= /* Save the displayed running history for each block. Vector1 is a vector1[NUMBER_OF_PBS] [100] vector. */ // -------------- /* Move all items back like this: 1 to 0 2 1 3 ... 5 to 4 */ for (int i = 0; i < numberOfPBs; i++) { for (int j = 1; j < vectorLength; j++) { vector1.at(i).at(j-1) = vector1.at(i).at(j); } // save the latest value vector1.at(i).at(vectorLength-1) = PBs[i].running ? true : false; } // ============== // ======================================================================================= /* Have a separate set for which ones to show. Currently show blocks that have been running at least once the last 100 updates. // -------------- Move all items back like this: 1 to 0 2 1 3 ... */ for (int i = 0; i < numberOfPBs; i++) { for (int j = 1; j < vectorLength2; j++) { vector2.at(i).at(j-1) = vector2.at(i).at(j); } // save the latest value vector2.at(i).at(vectorLength2-1) = PBs[i].running ? true : false; } // ============== // ======================================================================================= // Count how many we have running now in a certain block // -------------- int jj = 0; for (int i = 0; i < numberOfPBs; i++) { jj = 0; for (int j = 0; j < vectorLength2-1; j++) // the hundred last updates { if (vector2.at(i).at(j)) // if it was on then { jj++; } numberRunning.at(i) = jj; } } // ============== // ======================================================================================= // Write header // -------------- char buffer [1000] = ""; std::string sbuff; sbuff = writeTitle(m_frame->gPreset, Wii); // ============== // ======================================================================================= // Now go through all blocks // -------------- for (int i = 0; i < numberOfPBs; i++) { // -------------------------------------- // Now go through only a subset of the blocks depending on Conditions // ------------------ // Prepare conditions Conditions = PrepareConditions(Wii, i, PBs); if (Conditions) { // -------------------------------------- // Save playback history text string for the console and GUI debugger // ------------------ if(m_frame) { std::string guipr; // gui progress for (int j = 0; j < vectorLengthGUI; j++) { if(vector1.at(i).at(j) == false) { guipr = guipr + "0"; } else { guipr = guipr + "1"; } } u32 run = atoi( guipr.c_str()); m_frame->m_GPRListView->m_CachedRegs[1][i] = run; guipr.clear(); } // and for the console debugger for (int j = 0; j < vectorLength; j++) { if(vector1.at(i).at(j) == false) { sbuff = sbuff + " "; } else { sprintf(buffer, "%c", 177); sbuff = sbuff + buffer; strcpy(buffer, ""); } } // --------- // Hopefully this is false if we don't have a debugging window and so it doesn't cause a crash if(m_frame) { m_frame->m_GPRListView->m_CachedRegs[2][i] = gsamplePos[i]; m_frame->m_GPRListView->m_CachedRegs[3][i] = gsampleEnd[i]; m_frame->m_GPRListView->m_CachedRegs[4][i] = gloopPos[i]; m_frame->m_GPRListView->m_CachedRegs[5][i] = gvolume_left[i]; m_frame->m_GPRListView->m_CachedRegs[6][i] = gvolume_right[i]; m_frame->m_GPRListView->m_CachedRegs[7][i] = glooping[i]; m_frame->m_GPRListView->m_CachedRegs[8][i] = gloop1[i]; m_frame->m_GPRListView->m_CachedRegs[9][i] = gloop2[i]; m_frame->m_GPRListView->m_CachedRegs[10][i] = gloop3[i]; m_frame->m_GPRListView->m_CachedRegs[11][i] = gis_stream[i]; m_frame->m_GPRListView->m_CachedRegs[12][i] = gaudioFormat[i]; m_frame->m_GPRListView->m_CachedRegs[13][i] = gsrc_type[i]; m_frame->m_GPRListView->m_CachedRegs[14][i] = gcoef[i]; m_frame->m_GPRListView->m_CachedRegs[15][i] = gfrac[i]; m_frame->m_GPRListView->m_CachedRegs[16][i] = gratio[i]; m_frame->m_GPRListView->m_CachedRegs[17][i] = gratiohi[i]; m_frame->m_GPRListView->m_CachedRegs[18][i] = gratiolo[i]; m_frame->m_GPRListView->m_CachedRegs[19][i] = gupdates1[i]; m_frame->m_GPRListView->m_CachedRegs[20][i] = gupdates2[i]; m_frame->m_GPRListView->m_CachedRegs[21][i] = gupdates3[i]; m_frame->m_GPRListView->m_CachedRegs[22][i] = gupdates4[i]; m_frame->m_GPRListView->m_CachedRegs[23][i] = gupdates5[i]; } // add new line sbuff = sbuff + writeMessage(m_frame->gPreset, i, Wii); strcpy(buffer, ""); sbuff = sbuff + "\n"; } // end of if(Conditions) // ============== } // end of for (int i = 0; i < numberOfPBs; i++) // ======================================================================================= // Write global values // --------------- int nOfBlocks; int span = m_frame->gLastBlock - m_addressPBs; if(Wii) nOfBlocks = (m_frame->gLastBlock-m_addressPBs) / 256; else nOfBlocks = (m_frame->gLastBlock-m_addressPBs) / 192; sprintf(buffer, "\nThe parameter blocks span from %08x to %08x (%s bytes) impl. %i blocks | numberOfPBs %i | _iSize %i\n", m_addressPBs, m_frame->gLastBlock, ThS(span).c_str(), nOfBlocks, numberOfPBs, _iSize); sbuff = sbuff + buffer; strcpy(buffer, ""); // =============== // ======================================================================================= // Write settings // --------------- sprintf(buffer, "\nSettings: SSBM fix %i | SSBM rem1 %i | SSBM rem2 %i\nSequenced %i | Volume %i | Reset %i | Only looping %i | Save file %i\n", gSSBM, gSSBMremedy1, gSSBMremedy2, gSequenced, gVolume, gReset, m_frame->gOnlyLooping, m_frame->gSaveFile); sbuff = sbuff + buffer; strcpy(buffer, ""); // =============== // ======================================================================================= // Show update frequency // --------------- sbuff = sbuff + "\n"; if(!iupdonce) { viupd.at(0) = 1; viupd.at(1) = 1; viupd.at(2) = 1; iupdonce = true; } for (u32 i = 0; i < viupd.size(); i++) // 0, 1,..., 9 { if (i < viupd.size()-1) { viupd.at(viupd.size()-i-1) = viupd.at(viupd.size()-i-2); // move all forward } else { viupd.at(0) = viupd.at(viupd.size()-1); } // Correction if (viupd.at(viupd.size()-3) == 1 && viupd.at(viupd.size()-2) == 1 && viupd.at(viupd.size()-1) == 1) { viupd.at(0) = 0; } if(viupd.at(0) == 0 && viupd.at(1) == 1 && viupd.at(2) == 1 && viupd.at(3) == 0) { viupd.at(0) = 1; } } for (u32 i = 0; i < viupd.size(); i++) { if(viupd.at(i) == 0) sbuff = sbuff + " "; else sbuff = sbuff + "."; } // ================ // ======================================================================================= // Print // ---------------- // FIXME: Console::ClearScreen(); INFO_LOG(CONSOLE, "%s", sbuff.c_str()); sbuff.clear(); strcpy(buffer, ""); // ================ // New values are written so update - DISABLED - It flickered a lot, even worse than a // console window. So for now only the console windows is updated. /* if(m_frame) { m_frame->NotifyUpdate(); } */ count2=0; count1=0; } // end of if (j>20) } // end of function // I placed this in CUCode_AX so it can share member values with that class void CUCode_AX::Logging(short* _pBuffer, int _iSize, int a, bool Wii) { /* Doing all this may have a noticable CPU effect, so we can disable it completely this way. But remember that "Save to file" will not write anything then either. */ if (m_frame->gUpdFreq > 0) { int version; // AX version int numberOfPBs; // Declare structures AXParamBlock PBs[NUMBER_OF_PBS]; AXParamBlockWii PBw[NUMBER_OF_PBS]; AXParamBlockWii_ PBw_[NUMBER_OF_PBS]; if(_CRC == 0xfa450138) version = 0; else version = 1; // Read out structs and number of PBs that have data if(Wii) { if(version == 0) { numberOfPBs = ReadOutPBsWii(m_addressPBs, PBw, NUMBER_OF_PBS); Logging_(_pBuffer, _iSize, a, Wii, PBw, numberOfPBs, m_addressPBs); } else { numberOfPBs = ReadOutPBsWii(m_addressPBs, PBw_, NUMBER_OF_PBS); Logging_(_pBuffer, _iSize, a, Wii, PBw_, numberOfPBs, m_addressPBs); } } else { numberOfPBs = ReadOutPBs(m_addressPBs, PBs, NUMBER_OF_PBS); Logging_(_pBuffer, _iSize, a, Wii, PBs, numberOfPBs, m_addressPBs); } } }