update

2 månader sedan · a9d7869644
--- a/.gitignore
+++ b/.gitignore
@@ -1,2 +1,3 @@
 /build
 /.vs
 HidCerberus.Lib.log
--- a/HidCerberus.Lib.log
+++ b/HidCerberus.Lib.log
@@ -1,6 +0,0 @@
 2024-07-08 21:41:59.339 HidCerberus.Lib:HidGuardianOpen [Information]: Sending add request: http://localhost:26762/api/v1/hidguardian/whitelist/add/7440
 2024-07-09 18:33:47.443 HidCerberus.Lib:HidGuardianOpen [Information]: Sending add request: http://localhost:26762/api/v1/hidguardian/whitelist/add/7156
 2024-07-09 18:33:47.854 HidCerberus.Lib:HidGuardianClose [Information]: Sending remove request: http://localhost:26762/api/v1/hidguardian/whitelist/remove/7156
 2024-07-09 18:34:16.211 HidCerberus.Lib:HidGuardianOpen [Information]: Sending add request: http://localhost:26762/api/v1/hidguardian/whitelist/add/4240
 2024-07-09 18:34:16.316 HidCerberus.Lib:HidGuardianClose [Information]: Sending remove request: http://localhost:26762/api/v1/hidguardian/whitelist/remove/4240
 2024-07-09 18:34:23.477 HidCerberus.Lib:HidGuardianOpen [Information]: Sending add request: http://localhost:26762/api/v1/hidguardian/whitelist/add/7712
--- a/misc/build.bat
+++ b/misc/build.bat
@@ -1,8 +1,21 @@
@echo off
 if NOT EXIST .\build mkdir .\build
 pushd .\build
 pwd
 cl -FC -Zi -Fe:handmade.exe ..\src\win32_handmade.cpp user32.lib Gdi32.lib 
 cl ^
    -MT                                                             %= Make sure the C runtime library is statically linked =%^
    -Fmwin32_handmade.map                                           %= Create a map file =%^
    -Gm-                                                            %= Turns off incremently building =%^
    -nologo                                                         %= No one cares you made the compiler Microsoft =%^
    -Oi                                                             %= Always use intrinsics  =%^
    -EHa-                                                           %= Disable exception handling =%^
    -GR-                                                            %= Never use runtime type info from C++ =%^
    -WX -W4 -wd4201 -wd4100 -wd4189                                 %= Compiler warnings, -WX warnings as errors, -W4 warning level 4, -wdXXXX disable warning XXXX =%^
    -DHANDMADE_INTERNAL=1 -DHANDMADE_SLOW=1 -DHANDMADE_WIN32=1      %= Custom #defines =%^
    -FC                                                             %= Full path of source code file in diagnostics =%^
    -Zi                                                             %= Generate debugger info =%^
    -Fe:handmade.exe ..\src\win32_handmade.cpp                      %= Output filename, input filename =%^
    user32.lib Gdi32.lib                                            %= Linked libraries =%^
    /link -subsystem:windows,5.1                                    %= Linker stuff =%
 popd
 exit /b

--- a/misc/shell.bat
+++ b/misc/shell.bat
@@ -2,4 +2,5 @@
 start "ProconXInput" "C:\Program Files\ProconXInput\ProconXInput.exe"
 call "C:\Program Files\Microsoft Visual Studio\2022\Community\VC\Auxiliary\Build\vcvars64.bat"
 set path=C:\source\repos\handmade\misc;%path%
 cd C:\source\repos\handmade\
 cd C:\source\repos\handmade\
 cmd /k
--- a/src/handmade.cpp
+++ b/src/handmade.cpp
@@ -3,7 +3,7 @@
 #define PI32 3.141592653589f

 void debug_printf(wchar_t* format, ...) { 
    int bufsize = wcslen(format)*10;
    size_t bufsize = wcslen(format)*10;
    wchar_t *output = (wchar_t*)malloc(bufsize);
    va_list list;
    va_start(list, format);
@@ -12,17 +12,16 @@ void debug_printf(wchar_t* format, ...) {
    free(output);
 }

 internal void outputSound(GameSoundOutputBuffer *soundBuffer, int toneHz) {
    local_persist real32 tSine;
 internal void outputSineSound(GameSoundOutputBuffer *soundBuffer, GameState *state) {
    int16 toneVolume = 3000;
    int wavePeriod = soundBuffer->samplesPerSecond/toneHz;
    int wavePeriod = soundBuffer->samplesPerSecond/state->toneHz;

    int16 *sampleOut = soundBuffer->samples;
    for (int sampleIndex = 0; sampleIndex < soundBuffer->sampleCount; sampleIndex++) {
        int16 sampleValue = (int16)(sin(tSine) * (real32)toneVolume);
        int16 sampleValue = (int16)(sin(state->tSine) * (real32)toneVolume);
        *sampleOut++ = sampleValue;
        *sampleOut++ = sampleValue;
        tSine += 2.0f * PI32 / (real32)wavePeriod;
        state->tSine += 2.0f * PI32 / (real32)wavePeriod;
    }
 }

@@ -33,18 +32,51 @@ internal void renderWeirdGradient(GameOffscreenBuffer *buffer, int xOffset, int
    for (int y = 0; y < buffer->height; y++) {
        uint32 *pixel = (uint32*)row;
        for (int x = 0; x < buffer->width; x++) {
            uint8 blue = x + xOffset;
            uint8 green = y + yOffset;
            uint8 blue = (uint8)(x + xOffset);
            uint8 green = (uint8)(y + yOffset);
            *pixel++ = (green << 8) | blue;
        }
        row += pitch;
    }
 }

 internal void gameUpdateAndRender(GameOffscreenBuffer *videoBuf, GameInput *input, GameSoundOutputBuffer *soundBuf) {
    local_persist int greenOffset = 0;
    local_persist int blueOffset = 0;
    local_persist int toneHz = 440;
    outputSound(soundBuf, toneHz);
    renderWeirdGradient(videoBuf, input->xOffset, input->yOffset);
 internal void gameUpdateAndRender(GameMemory *memory, GameOffscreenBuffer *videoBuf, GameInput *input, GameSoundOutputBuffer *soundBuf) {
    Assert(sizeof(GameState) <= memory->permanentStorageSize);

    GameState *state = (GameState*)memory->permanentStorage;

    if (!memory->isInitialised) {
        //DebugReadFileResult bmpMem = DEBUG_platformReadEntireFile(__FILE__);
        //if (bmpMem.contents) {
        //    DEBUG_platformWriteEntireFile("c:/source/repos/handmade/src/test.cpp", bmpMem.contentsSize, bmpMem.contents);
        //    DEBUG_platformFreeFileMemory(bmpMem.contents);
        //}

        state->toneHz = 440;
        state->tSine = 0;
        memory->isInitialised = true;
    }

    for (int controllerIndex = 0; controllerIndex < ArrayCount(input->controllers); controllerIndex++) {
        GameControllerInput *controllerInput = &input->controllers[controllerIndex];
        if (controllerInput->isAnalog) {
            state->toneHz = 440 + (int)(128.0f*controllerInput->stickAvgX);
            state->greenOffset -= (int)(4.0f*controllerInput->stickAvgX);
            state->blueOffset += (int)(4.0f*controllerInput->stickAvgY);
        } else {
            if (controllerInput->stickRight.endedDown) {
                state->greenOffset -= 4;
            } else if (controllerInput->stickLeft.endedDown) {
                state->greenOffset += 4;
            } 
            if (controllerInput->stickUp.endedDown) {
                state->blueOffset += 4;
            } else if (controllerInput->stickDown.endedDown) {
                state->blueOffset -= 4;
            }
        }
    }

    outputSineSound(soundBuf, state);
    renderWeirdGradient(videoBuf, state->greenOffset, state->blueOffset);
 }
--- a/src/handmade.h
+++ b/src/handmade.h
@@ -6,6 +6,38 @@

 #pragma once

 /* 
 * ---------------
 *  Global flags: 
 * ---------------
 *
 * HANDMADE_SLOW
 * 0 - No slow code allowed
 * 1 - Slow code welcome
 *
 * HANDMADE_INTERNAL
 * 0 - Build for public release
 * 1 - Build for developer only
 *
 * HANDMADE_WIN32
 * 0 - Not a windows build
 * 1 - This is a windows build
 *
 */

 #if HANDMADE_SLOW
 #define Assert(Expression) if (!(Expression)) {*(int *)0 = 0;}
 #else
 #define Assert(Expression) 
 #endif

 #define Kilobytes(Value) (Value*1024)
 #define Megabytes(Value) (Kilobytes(Value)*1024)
 #define Gigabytes(Value) (Megabytes(Value)*1024)
 #define Terabytes(Value) (Gigabytes(Value)*1024)

 #define ArrayCount(Array) (sizeof(Array) / sizeof((Array)[0]))

 #define internal static // for functions
 #define local_persist static // for static variables in a scope
 #define global static // for global variables
@@ -25,14 +57,14 @@ typedef double real64;

 typedef int32_t bool32;

 void debug_printf(wchar_t* format, ...);
 #define MAX_SAFE_UINT32 0xFFFFFFFF

 // Game to platform layer services
 struct GameInput {
    int xOffset;
    int yOffset;
 };
 inline uint32 safeTruncateUInt64(uint64 val) {
    Assert(val <= MAX_SAFE_UINT32);
    return (uint32)val;
 }

 // Game to platform layer services
 struct GameSoundOutputBuffer {
    int samplesPerSecond;
    int sampleCount;
@@ -45,6 +77,69 @@ struct GameOffscreenBuffer {
    int height;
 };

 void gameUpdateAndRender(GameOffscreenBuffer *videoBuf, GameInput *input, GameSoundOutputBuffer *soundBuf);
 struct GameButtonState {
    int halfTransitionCount;
    bool32 endedDown;
 };

 struct GameControllerInput {
    bool32 isAnalog;

    real32 stickAvgY;
    real32 stickAvgX;

    union {
        GameButtonState buttons[6];
        struct {
            GameButtonState stickUp;
            GameButtonState stickDown;
            GameButtonState stickLeft;
            GameButtonState stickRight;
            GameButtonState btnUp;
            GameButtonState btnDown;
            GameButtonState btnLeft;
            GameButtonState btnRight;
            GameButtonState leftShoulder;
            GameButtonState rightShoulder;
        };
    };
 }; 

 struct GameInput {
    GameControllerInput controllers[5];
 };

 struct GameMemory {
    bool32 isInitialised;
    uint64 permanentStorageSize;
    void *permanentStorage; // required to be initialised to zero at startup 
    uint64 transientStorageSize;
    void *transientStorage; // required to be initialised to zero at startup 
 };

 struct GameState {
    int toneHz;
    int greenOffset;
    int blueOffset;
    real32 tSine;
 };

 // === Game to platform services ===
 void gameUpdateAndRender(GameMemory *memory, GameInput *input, GameOffscreenBuffer *videoBuf, GameSoundOutputBuffer *soundBuf);

 // === Platform to game services ===
 #if HANDMADE_INTERNAL

 struct DebugReadFileResult {
    uint32 contentsSize;
    void *contents;
 };

 DebugReadFileResult DEBUG_platformReadEntireFile(char *filename);
 void DEBUG_platformFreeFileMemory(void *memory);
 bool32 DEBUG_platformWriteEntireFile(char *filename, uint32 memorySize, void *memory);
 void debug_printf(wchar_t* format, ...);

 #endif


 // Platform to game services
--- a/src/test.cpp
+++ b/src/test.cpp
@@ -0,0 +1,86 @@
 #include "handmade.h"

 #define PI32 3.141592653589f

 void debug_printf(wchar_t* format, ...) { 
    size_t bufsize = wcslen(format)*10;
    wchar_t *output = (wchar_t*)malloc(bufsize);
    va_list list;
    va_start(list, format);
    vswprintf(output, bufsize, format, list);
    OutputDebugStringW(output);
    free(output);
 }

 internal void outputSineSound(GameSoundOutputBuffer *soundBuffer, GameState *state) {
    int16 toneVolume = 3000;
    int wavePeriod = soundBuffer->samplesPerSecond/state->toneHz;

    int16 *sampleOut = soundBuffer->samples;
    for (int sampleIndex = 0; sampleIndex < soundBuffer->sampleCount; sampleIndex++) {
        int16 sampleValue = (int16)(sin(state->tSine) * (real32)toneVolume);
        *sampleOut++ = sampleValue;
        *sampleOut++ = sampleValue;
        state->tSine += 2.0f * PI32 / (real32)wavePeriod;
    }
 }

 internal void renderWeirdGradient(GameOffscreenBuffer *buffer, int xOffset, int yOffset) {
    int bytesPerPixel = 4;
    int pitch = buffer->width*bytesPerPixel;
    uint8 *row = (uint8 *)buffer->memory;
    for (int y = 0; y < buffer->height; y++) {
        uint32 *pixel = (uint32*)row;
        for (int x = 0; x < buffer->width; x++) {
            uint8 blue = (uint8)(x + xOffset);
            uint8 green = (uint8)(y + yOffset);
            *pixel++ = (green << 8) | blue;
        }
        row += pitch;
    }
 }

 internal void gameUpdateAndRender(GameMemory *memory, GameOffscreenBuffer *videoBuf, GameInput *input, GameSoundOutputBuffer *soundBuf) {
    Assert(sizeof(GameState) <= memory->permanentStorageSize);

    GameState *state = (GameState*)memory->permanentStorage;

    if (!memory->isInitialised) {
        DebugReadFileResult bmpMem = DEBUG_platformReadEntireFile(__FILE__);
        if (bmpMem.contents) {
            DEBUG_platformWriteEntireFile("c:/source/repos/handmade/src/test.cpp", bmpMem.contentsSize, bmpMem.contents);
            DEBUG_platformFreeFileMemory(bmpMem.contents);
        }

        state->toneHz = 440;
        state->tSine = 0;
        memory->isInitialised = true;
    }

    for (int controllerIndex = 0; controllerIndex < ArrayCount(input->controllers); controllerIndex++) {
        GameControllerInput *controllerInput = &input->controllers[controllerIndex];
        if (controllerInput->isAnalog) {
            //state->toneHz = 440 + (int)(128.0f*controllerInput->stickAvgX);
            //state->greenOffset -= (int)(4.0f*controllerInput->stickAvgX);
            //state->blueOffset += (int)(4.0f*controllerInput->stickAvgY);
        } else {
            if (controllerInput->stickRight.endedDown) {
                state->toneHz = 440 + 128;            
                state->greenOffset -= 4;
            } else if (controllerInput->stickLeft.endedDown) {
                state->toneHz = 440 - 128;            
                state->greenOffset += 4;
            } else {
                state->toneHz = 440;            
            }
            if (controllerInput->stickUp.endedDown) {
                state->blueOffset += 4;
            } else if (controllerInput->stickDown.endedDown) {
                state->blueOffset -= 4;
            }
        }
    }

    outputSineSound(soundBuf, state);
    renderWeirdGradient(videoBuf, state->greenOffset, state->blueOffset);
 }
--- a/src/win32_handmade.cpp
+++ b/src/win32_handmade.cpp
@@ -7,7 +7,7 @@
 #include "handmade.cpp"

 global ATOM HH_CTRLW;
 global bool running;
 global bool globalRunning;
 global Win32OffscreenBuffer globalBackBuffer;
 global LPDIRECTSOUNDBUFFER globalSecondaryBuffer;

@@ -29,6 +29,61 @@ typedef HRESULT WINAPI DirectSoundCreateFn(LPCGUID pcGuidDevice, LPDIRECTSOUND *

 #define stackAlloc(size, type) (type*)_alloca(size*sizeof(type))

 void DEBUG_platformFreeFileMemory(void *fileMemory) {
    if (fileMemory) {
        VirtualFree(fileMemory, NULL, MEM_RELEASE);
    }
 }

 DebugReadFileResult DEBUG_platformReadEntireFile(char *filename) {
    DebugReadFileResult result = {};
    HANDLE fileHandle = CreateFileA(filename, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, NULL, NULL);
    if (fileHandle != INVALID_HANDLE_VALUE) {
        LARGE_INTEGER fileSize;
        if (GetFileSizeEx(fileHandle, &fileSize)) {
            uint32 fileSize32 = safeTruncateUInt64(fileSize.QuadPart);
            result.contents = VirtualAlloc(NULL, fileSize.QuadPart, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE);
            if (result.contents) {
                DWORD bytesRead;
                if (ReadFile(fileHandle, result.contents, (DWORD)fileSize.QuadPart, &bytesRead, NULL) && (fileSize32 == (uint32)bytesRead)) {
                    result.contentsSize = fileSize32;
                } else {
                    DEBUG_platformFreeFileMemory(result.contents);
                    result.contents = NULL;
                    // logging
                }
            } else {
                result.contents = NULL;
                // logging
            }
        } else {
            // logging
        }
        CloseHandle(fileHandle);
    } else {
        // logging
    }
    return result;
 }

 bool32 DEBUG_platformWriteEntireFile(char *filename, uint32 memorySize, void *memory) {
    bool32 result = false;
    HANDLE fileHandle = CreateFileA(filename, GENERIC_WRITE, FILE_SHARE_READ, NULL, CREATE_ALWAYS, NULL, NULL);
    if (fileHandle != INVALID_HANDLE_VALUE) {
        DWORD bytesWritten;
        if (WriteFile(fileHandle, memory, memorySize, &bytesWritten, NULL)) {
            // file written successfully
            result = bytesWritten == memorySize;
        } else {
            // logging
        }
        CloseHandle(fileHandle);
    } else {
        // logging
    }
    return result;
 }

 internal void resizeDIBSection(Win32OffscreenBuffer *buffer, int width, int height) {
    if (buffer->memory) {
        VirtualFree(buffer->memory, NULL, MEM_RELEASE);
@@ -82,6 +137,16 @@ internal void win32LoadXInput() {
    }
 }

 internal void win32ProcessKeyboardKeypress(GameButtonState *newState, bool32 isDown) {
    newState->endedDown = isDown;
    newState->halfTransitionCount++;
 }

 internal void win32ProcessXInputDigitalButton(DWORD xInputButtonState, GameButtonState *oldState, GameButtonState *newState, DWORD buttonBit) {
    newState->endedDown = (xInputButtonState & buttonBit) == buttonBit;
    newState->halfTransitionCount = (oldState->endedDown != newState->endedDown) ? 1 : 0;
 }

 internal void win32InitSound(HWND window, int32 samplesPerSec, int bufferSize) {
    HMODULE dSoundLibrary = LoadLibraryA("dsound.dll");
    if (dSoundLibrary) {
@@ -145,7 +210,7 @@ LRESULT mainWindowCallback(
        } break;

        case WM_CLOSE: {
            running = false;
            globalRunning = false;
        } break;

        case WM_PAINT: {
@@ -164,7 +229,7 @@ LRESULT mainWindowCallback(

        case WM_HOTKEY: {
            if (wParam == HH_CTRLW) {
                running = false;
                globalRunning = false;
            }
        } break;

@@ -172,29 +237,7 @@ LRESULT mainWindowCallback(
        case WM_SYSKEYUP:
        case WM_KEYUP:
        case WM_KEYDOWN: {
            uint32 VKCode = wParam;
            bool wasDown = (lParam & (1 << 30)) != 0;
            bool isDown = (lParam & (1 << 31)) == 0;
            if (wasDown != isDown) {
                if (VKCode == 'W') {
                } else if (VKCode == 'A') {
                } else if (VKCode == 'S') {
                } else if (VKCode == 'D') {
                } else if (VKCode == 'Q') {
                } else if (VKCode == 'E') {
                } else if (VKCode == VK_ESCAPE) {
                } else if (VKCode == VK_UP) {
                } else if (VKCode == VK_LEFT) {
                } else if (VKCode == VK_DOWN) {
                } else if (VKCode == VK_RIGHT) {
                } else if (VKCode == VK_SPACE) {
                }
            }

            bool32 altKeyWasDown = lParam & (1 << 29);
            if (altKeyWasDown && VKCode == VK_F4) {
                running = false;
            }
            Assert(!"Keyboard input came in through a non-dispatch message.");
        } break;

        default: {
@@ -253,6 +296,61 @@ internal void win32FillSoundBuffer(Win32SoundOutput *soundOutput, DWORD byteToLo
    }
 }

 internal void win32ProcessPendingMessages(GameControllerInput *keyboardController) {
    MSG message;
    while (PeekMessageA(&message, NULL, NULL, NULL, PM_REMOVE)) {
        if (message.message == WM_QUIT) {
            globalRunning = false;
        }

        switch (message.message) {
            case WM_SYSKEYDOWN:
            case WM_SYSKEYUP:
            case WM_KEYUP:
            case WM_KEYDOWN: {
                uint32 VKCode = (uint32)message.wParam;
                bool wasDown = (message.lParam & (1 << 30)) != 0;
                bool isDown = (message.lParam & (1 << 31)) == 0;
                if (wasDown != isDown) {
                    if (VKCode == 'W') {
                        win32ProcessKeyboardKeypress(&keyboardController->stickUp, isDown);
                    } else if (VKCode == 'A') {
                        win32ProcessKeyboardKeypress(&keyboardController->stickLeft, isDown);
                    } else if (VKCode == 'S') {
                        win32ProcessKeyboardKeypress(&keyboardController->stickDown, isDown);
                    } else if (VKCode == 'D') {
                        win32ProcessKeyboardKeypress(&keyboardController->stickRight, isDown);
                    } else if (VKCode == 'Q') {
                        win32ProcessKeyboardKeypress(&keyboardController->leftShoulder, isDown);
                    } else if (VKCode == 'E') {
                        win32ProcessKeyboardKeypress(&keyboardController->rightShoulder, isDown);
                    } else if (VKCode == VK_ESCAPE) {
                    } else if (VKCode == VK_UP) {
                        win32ProcessKeyboardKeypress(&keyboardController->btnUp, isDown);
                    } else if (VKCode == VK_LEFT) {
                        win32ProcessKeyboardKeypress(&keyboardController->btnLeft, isDown);
                    } else if (VKCode == VK_DOWN) {
                        win32ProcessKeyboardKeypress(&keyboardController->btnDown, isDown);
                    } else if (VKCode == VK_RIGHT) {
                        win32ProcessKeyboardKeypress(&keyboardController->btnRight, isDown);
                    } else if (VKCode == VK_SPACE) {
                    }
                }

                bool32 altKeyWasDown = message.lParam & (1 << 29);
                if (altKeyWasDown && VKCode == VK_F4) {
                    globalRunning = false;
                }
            } break;

            default: {
                TranslateMessage(&message);
                DispatchMessage(&message);
            } break;
        }
    }
 }

 int APIENTRY WinMain(HINSTANCE instance, HINSTANCE prevInstance, PSTR commandLine, int commandShow) {
    LARGE_INTEGER performanceFrequencyResult;
    QueryPerformanceFrequency(&performanceFrequencyResult);
@@ -285,26 +383,36 @@ int APIENTRY WinMain(HINSTANCE instance, HINSTANCE prevInstance, PSTR commandLin
            HH_CTRLW = GlobalAddAtomA("HH_CTRLW");
            RegisterHotKey(window, HH_CTRLW, MOD_CONTROL, 'W');

            MSG message;
            running = true;
            globalRunning = true;
            GameInput input[2] = {};
            GameInput *oldInput = &input[0];
            GameInput *newInput = &input[1];

            win32LoadXInput();

            // graphics test
            int xOffset = 0;
            int yOffset = 0;

            // sound test
            Win32SoundOutput soundOutput = {};
            soundOutput.samplesPerSecond = 48000;
            soundOutput.wavePeriod = soundOutput.samplesPerSecond / soundOutput.toneHz;
            soundOutput.runningSampleIndex = 0;
            soundOutput.bytesPerSample = sizeof(int16)*2;
            soundOutput.secondaryBufferSize = soundOutput.samplesPerSecond*soundOutput.bytesPerSample;
            soundOutput.latencySampleCount = soundOutput.samplesPerSecond / 15.0f;
            soundOutput.latencySampleCount = (int)(soundOutput.samplesPerSecond / 15.0f);

            int16 *samples = (int16*)VirtualAlloc(NULL, soundOutput.secondaryBufferSize, MEM_COMMIT, PAGE_READWRITE);

 #if HANDMADE_INTERNAL
            LPVOID baseAddress = (LPVOID)Terabytes((uint64)2);
 #else
            LPVOID baseAddress = 0;
 #endif
            GameMemory gameMemory = {};
            gameMemory.permanentStorageSize = Megabytes(64);
            gameMemory.transientStorageSize = Gigabytes((uint64)4);

            uint64 totalSize = gameMemory.permanentStorageSize + gameMemory.transientStorageSize;
            gameMemory.permanentStorage = VirtualAlloc(baseAddress, totalSize, MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE);
            gameMemory.transientStorage = ((uint8 *)gameMemory.permanentStorage + gameMemory.permanentStorageSize);

            win32InitSound(window, soundOutput.samplesPerSecond, soundOutput.secondaryBufferSize);
            win32ClearBuffer(&soundOutput);
            globalSecondaryBuffer->Play(0, 0, DSBPLAY_LOOPING);
@@ -312,70 +420,90 @@ int APIENTRY WinMain(HINSTANCE instance, HINSTANCE prevInstance, PSTR commandLin
            LARGE_INTEGER lastCounter;
            QueryPerformanceCounter(&lastCounter);
            int64 lastCycleCount = __rdtsc();
            while (running) {
                while (PeekMessageA(&message, NULL, NULL, NULL, PM_REMOVE)) {
                    if (message.message == WM_QUIT) {
                        running = false;
                    }
                    TranslateMessage(&message);
                    DispatchMessage(&message);
            while (globalRunning) {
                GameControllerInput *oldKeyboardController = &oldInput->controllers[0];
                GameControllerInput *newKeyboardController = &newInput->controllers[0];
                GameControllerInput zeroController = {};
                *newKeyboardController = zeroController;
                for (int buttonIndex = 0; buttonIndex < ArrayCount(oldKeyboardController->buttons); buttonIndex++) {
                    newKeyboardController->buttons[buttonIndex].endedDown = oldKeyboardController->buttons[buttonIndex].endedDown;
                }

                win32ProcessPendingMessages(newKeyboardController);

                XINPUT_STATE controllerState;
                int maxControllerCount = 1 + XUSER_MAX_COUNT;
                if (maxControllerCount > ArrayCount(newInput->controllers)) {
                    maxControllerCount = ArrayCount(newInput->controllers);
                }

                for (DWORD controllerIndex = 0; controllerIndex < XUSER_MAX_COUNT; controllerIndex++) {
                    if (XInputGetState(controllerIndex, &controllerState) == ERROR_SUCCESS) {
                        break;
                        DWORD ourControllerIndex = controllerIndex + 1;
                        GameControllerInput *oldController = &oldInput->controllers[ourControllerIndex];
                        GameControllerInput *newController = &newInput->controllers[ourControllerIndex];

                        newController->isAnalog = true;

                        XINPUT_GAMEPAD *pad = &controllerState.Gamepad;

                        int16 stickX = pad->sThumbLX;
                        int16 stickY = pad->sThumbLY;
                        real32 stickYNorm = 0;
                        real32 stickXNorm = 0;
                        if (stickY != 0 && abs(stickY) > XINPUT_GAMEPAD_LEFT_THUMB_DEADZONE) {
                            stickYNorm = stickY / 32767.0f;
                        }
                        if (stickX != 0 && abs(stickX) > XINPUT_GAMEPAD_LEFT_THUMB_DEADZONE) {
                            stickXNorm = stickX / 32767.0f;
                        }

                        newController->stickAvgX = stickXNorm;
                        newController->stickAvgY = stickYNorm;
                        if (pad->wButtons & XINPUT_GAMEPAD_DPAD_UP) {
                            newController->stickAvgY = 1.0f;
                        }
                        if (pad->wButtons & XINPUT_GAMEPAD_DPAD_DOWN) {
                            newController->stickAvgY = -1.0f;
                        }
                        if (pad->wButtons & XINPUT_GAMEPAD_DPAD_LEFT) {
                            newController->stickAvgX = -1.0f;
                        }
                        if (pad->wButtons & XINPUT_GAMEPAD_DPAD_RIGHT) {
                            newController->stickAvgX = 1.0f;
                        }

                        //bool start = (pad->wButtons & XINPUT_GAMEPAD_START);
                        //bool back = (pad->wButtons & XINPUT_GAMEPAD_BACK);

                        win32ProcessXInputDigitalButton(pad->wButtons, &oldController->btnDown, &newController->btnDown, XINPUT_GAMEPAD_A);
                        win32ProcessXInputDigitalButton(pad->wButtons, &oldController->btnRight, &newController->btnRight, XINPUT_GAMEPAD_B);
                        win32ProcessXInputDigitalButton(pad->wButtons, &oldController->btnLeft, &newController->btnLeft, XINPUT_GAMEPAD_X);
                        win32ProcessXInputDigitalButton(pad->wButtons, &oldController->btnUp, &newController->btnUp, XINPUT_GAMEPAD_Y);
                        win32ProcessXInputDigitalButton(pad->wButtons, &oldController->leftShoulder, &newController->leftShoulder, XINPUT_GAMEPAD_LEFT_SHOULDER);
                        win32ProcessXInputDigitalButton(pad->wButtons, &oldController->rightShoulder, &newController->rightShoulder, XINPUT_GAMEPAD_RIGHT_SHOULDER);

                        real32 threshold = 0.5f;
                        win32ProcessXInputDigitalButton((DWORD)(newController->stickAvgY < -threshold), &oldController->stickDown, &newController->stickDown, 1);
                        win32ProcessXInputDigitalButton((DWORD)(newController->stickAvgX > threshold), &oldController->stickRight, &newController->stickRight, 1);
                        win32ProcessXInputDigitalButton((DWORD)(newController->stickAvgX < -threshold), &oldController->stickLeft, &newController->stickLeft, 1);
                        win32ProcessXInputDigitalButton((DWORD)(newController->stickAvgY > threshold), &oldController->stickUp, &newController->stickUp, 1);
                    } else {
                        // controller not available
                    }
                }
                XINPUT_GAMEPAD *Pad = &controllerState.Gamepad;
                bool up = (Pad->wButtons & XINPUT_GAMEPAD_DPAD_UP);
                bool down = (Pad->wButtons & XINPUT_GAMEPAD_DPAD_DOWN);
                bool left = (Pad->wButtons & XINPUT_GAMEPAD_DPAD_LEFT);
                bool right = (Pad->wButtons & XINPUT_GAMEPAD_DPAD_RIGHT);
                bool start = (Pad->wButtons & XINPUT_GAMEPAD_START);
                bool back = (Pad->wButtons & XINPUT_GAMEPAD_BACK);
                bool leftShoulder = (Pad->wButtons & XINPUT_GAMEPAD_LEFT_SHOULDER);
                bool rightShoulder = (Pad->wButtons & XINPUT_GAMEPAD_RIGHT_SHOULDER);
                bool aButton = (Pad->wButtons & XINPUT_GAMEPAD_A);
                bool bButton = (Pad->wButtons & XINPUT_GAMEPAD_B);
                bool xButton = (Pad->wButtons & XINPUT_GAMEPAD_X);
                bool yButton = (Pad->wButtons & XINPUT_GAMEPAD_Y);
                int16 stickX = Pad->sThumbLX;
                int16 stickY = Pad->sThumbLY;

                float stickYNorm = 0;
                float stickXNorm = 0;
                if (stickY != 0 && abs(stickY) > XINPUT_GAMEPAD_LEFT_THUMB_DEADZONE) {
                    stickYNorm = stickY / 32767.0;
                }
                if (stickX != 0 && abs(stickX) > XINPUT_GAMEPAD_LEFT_THUMB_DEADZONE) {
                    stickXNorm = stickX / 32767.0;
                }

                float factor = leftShoulder ? 2.5 : 1.0;
                yOffset += stickY/5000.0 * factor;
                xOffset -= stickX/5000.0 * factor;

                soundOutput.toneHz = 220 + (stickYNorm + 1.0)/2.0 * 220.0;
                soundOutput.wavePeriod = soundOutput.samplesPerSecond / soundOutput.toneHz;

                GameOffscreenBuffer videoBuffer = {};
                videoBuffer.memory = globalBackBuffer.memory;
                videoBuffer.width = globalBackBuffer.width;
                videoBuffer.height = globalBackBuffer.height;

                GameInput input = {};
                input.xOffset = xOffset;
                input.yOffset = yOffset;

                // Sound test
                DWORD playCursor;
                DWORD writeCursor;
                DWORD byteToLock;
                DWORD targetCursor;
                DWORD bytesToWrite;
                DWORD playCursor = 0;
                DWORD writeCursor = 0;
                DWORD byteToLock = 0;
                DWORD targetCursor = 0;
                DWORD bytesToWrite = 0;
                bool soundIsValid = true;
                if (SUCCEEDED(globalSecondaryBuffer->GetCurrentPosition(&playCursor, &writeCursor))) {
                    byteToLock = (soundOutput.runningSampleIndex*soundOutput.bytesPerSample) % soundOutput.secondaryBufferSize;
@@ -395,7 +523,7 @@ int APIENTRY WinMain(HINSTANCE instance, HINSTANCE prevInstance, PSTR commandLin
                soundBuffer.sampleCount = bytesToWrite / soundOutput.bytesPerSample;
                soundBuffer.samples = samples;

                gameUpdateAndRender(&videoBuffer, &input, &soundBuffer);
                gameUpdateAndRender(&gameMemory, &videoBuffer, newInput, &soundBuffer);

                if (soundIsValid) {
                    win32FillSoundBuffer(&soundOutput, byteToLock, bytesToWrite, &soundBuffer);
@@ -405,14 +533,18 @@ int APIENTRY WinMain(HINSTANCE instance, HINSTANCE prevInstance, PSTR commandLin
                LARGE_INTEGER endCounter;
                QueryPerformanceCounter(&endCounter);
                int64 endCycleCount = __rdtsc();
                int32 cyclesElapsed = endCycleCount - lastCycleCount;
                int64 cyclesElapsed = endCycleCount - lastCycleCount;
                lastCycleCount = endCycleCount;

                int64 counterElapsed = endCounter.QuadPart - lastCounter.QuadPart;
                real32 msElapsed = (real32)(1000.0f*counterElapsed) / performanceFrequency;
                real32 fps = (real32)(1000.0f*performanceFrequency/(real32)counterElapsed)/1000.0f;
                debug_printf(L"%f ms, %f fps, %f Mcl, %fGHz\n", msElapsed, fps, cyclesElapsed / 1000000.0f, (cyclesElapsed/(msElapsed*1000))/1000000.0f);

                lastCounter = endCounter;

                GameInput *temp = newInput;
                newInput = oldInput; 
                oldInput = temp;
            }
        } else {
            // failed
--- a/src/win32_handmade.h
+++ b/src/win32_handmade.h
@@ -0,0 +1,24 @@
 #include "handmade.h"

 struct Win32OffscreenBuffer {
    BITMAPINFO info;
    void *memory;
    int width;
    int height;
    int bytesPerPixel;
 };

 struct Win32WindowDimensions {
    int width;
    int height;
 };

 struct Win32SoundOutput {
    int samplesPerSecond;
    int16 toneVolume;
    uint32 runningSampleIndex;
    int bytesPerSample;
    int secondaryBufferSize;
    real32 tSine;
    int latencySampleCount;
 };