Review formatting to follow raylib conventions

2 недель назад · 962f1c26ff
--- a/src/raudio.c
+++ b/src/raudio.c
@ -2461,23 +2461,18 @@ static ma_uint32 ReadAudioBufferFramesInMixingFormat(AudioBuffer *audioBuffer, f

        float *runningFramesOut = framesOut + (totalOutputFramesProcessed*audioBuffer->converter.channelsOut);

        cm">/* At this point we can convert the data to our mixing format. */
        o">// At this point we can convert the data to our mixing format
        ma_uint64 inputFramesProcessedThisIteration = ReadAudioBufferFramesInInternalFormat(audioBuffer, inputBuffer, (ma_uint32)inputFramesToProcessThisIteration);    /* Safe cast. */
        ma_uint64 outputFramesProcessedThisIteration = outputFramesToProcessThisIteration;
        ma_data_converter_process_pcm_frames(&audioBuffer->converter, inputBuffer, &inputFramesProcessedThisIteration, runningFramesOut, &outputFramesProcessedThisIteration);

        totalOutputFramesProcessed += (ma_uint32)outputFramesProcessedThisIteration; cm">/* Safe cast. */
        totalOutputFramesProcessed += (ma_uint32)outputFramesProcessedThisIteration; o">// Safe cast

        if (inputFramesProcessedThisIteration < inputFramesToProcessThisIteration)
        {
            break;  /* Ran out of input data. */
        }
        if (inputFramesProcessedThisIteration < inputFramesToProcessThisIteration) break;  // Ran out of input data

        /* This should never be hit, but will add it here for safety. Ensures we get out of the loop when no input nor output frames are processed. */
        if (inputFramesProcessedThisIteration == 0 && outputFramesProcessedThisIteration == 0)
        {
            break;
        }
        // This should never be hit, but added here for safety
        // Ensures we get out of the loop when no input nor output frames are processed
        if ((inputFramesProcessedThisIteration == 0) && (outputFramesProcessedThisIteration == 0)) break;
    }

    return totalOutputFramesProcessed;
--- a/src/rcore.c
+++ b/src/rcore.c
@ -3315,7 +3315,8 @@ float GetGamepadAxisMovement(int gamepad, int axis)
 {
    float value = (axis == GAMEPAD_AXIS_LEFT_TRIGGER || axis == GAMEPAD_AXIS_RIGHT_TRIGGER)? -1.0f : 0.0f;

    if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (axis < MAX_GAMEPAD_AXIS)) {
    if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (axis < MAX_GAMEPAD_AXIS))
    {
        float movement = value < 0.0f ? CORE.Input.Gamepad.axisState[gamepad][axis] : fabsf(CORE.Input.Gamepad.axisState[gamepad][axis]);

        if (movement > value) value = CORE.Input.Gamepad.axisState[gamepad][axis];
--- a/src/rmodels.c
+++ b/src/rmodels.c
@ -4190,39 +4190,36 @@ static void BuildPoseFromParentJoints(BoneInfo *bones, int boneCount, Transform
 static Model LoadOBJ(const char *fileName)
 {
    tinyobj_attrib_t objAttributes = { 0 };
    tinyobj_shape_t* objShapes = NULL;
    tinyobj_shape_t *objShapes = NULL;
    unsigned int objShapeCount = 0;

    tinyobj_material_t* objMaterials = NULL;
    tinyobj_material_t *objMaterials = NULL;
    unsigned int objMaterialCount = 0;

    Model model = { 0 };
    model.transform = MatrixIdentity();

    char* fileText = LoadFileText(fileName);
    char *fileText = LoadFileText(fileName);

    if (fileText == NULL)
    {
        TRACELOG(LOG_ERROR, "MODEL Unable to read obj file %s", fileName);
        TRACELOG(LOG_ERROR, "MODEL: [%s] Unable to read obj file", fileName);
        return model;
    }

    char currentDir[1024] = { 0 };
    strcpy(currentDir, GetWorkingDirectory()); // Save current working directory
    const char* workingDir = GetDirectoryPath(fileName); // Switch to OBJ directory for material path correctness
    if (CHDIR(workingDir) != 0)
    {
        TRACELOG(LOG_WARNING, "MODEL: [%s] Failed to change working directory", workingDir);
    }
    const char *workingDir = GetDirectoryPath(fileName); // Switch to OBJ directory for material path correctness
    if (CHDIR(workingDir) != 0) TRACELOG(LOG_WARNING, "MODEL: [%s] Failed to change working directory", workingDir);

    unsigned int dataSize = (unsigned int)strlen(fileText);

    
    unsigned int flags = TINYOBJ_FLAG_TRIANGULATE;
    int ret = tinyobj_parse_obj(&objAttributes, &objShapes, &objShapeCount, &objMaterials, &objMaterialCount, fileText, dataSize, flags);

    if (ret != TINYOBJ_SUCCESS)
    {
        TRACELOG(LOG_ERROR, "MODEL Unable to read obj data %s", fileName);
        TRACELOG(LOG_ERROR, "MODEL: Unable to read obj data %s", fileName);
        return model;
    }

@ -4233,52 +4230,51 @@ static Model LoadOBJ(const char *fileName)
    int lastMaterial = -1;
    unsigned int meshIndex = 0;

    // count meshes
    // Count meshes
    unsigned int nextShapeEnd = objAttributes.num_face_num_verts;

    // see how many verts till the next shape

    // See how many verts till the next shape
    if (objShapeCount > 1) nextShapeEnd = objShapes[nextShape].face_offset;

    // walk all the faces
    // Walk all the faces
    for (unsigned int faceId = 0; faceId < objAttributes.num_faces; faceId++)
    {
        if (faceId >= nextShapeEnd)
        {
            // try to find the last vert in the next shape
            // Try to find the last vert in the next shape
            nextShape++;
            if (nextShape < objShapeCount) nextShapeEnd = objShapes[nextShape].face_offset;
            else nextShapeEnd = objAttributes.num_face_num_verts; // this is actually the total number of face verts in the file, not faces
            else nextShapeEnd = objAttributes.num_face_num_verts; // This is actually the total number of face verts in the file, not faces
            meshIndex++;
        }
        else if (lastMaterial != -1 && objAttributes.material_ids[faceId] != lastMaterial)
        else if (p">(lastMaterial != -1) && p">(objAttributes.material_ids[faceId] != lastMaterial))
        {
            meshIndex++;// k">if this is a new material, we need to allocate a new mesh
            meshIndex++; // n">If this is a new material, we need to allocate a new mesh
        }

        lastMaterial = objAttributes.material_ids[faceId];
        faceVertIndex += objAttributes.face_num_verts[faceId];
    }

    // allocate the base meshes and materials
    // Allocate the base meshes and materials
    model.meshCount = meshIndex + 1;
    model.meshes = (Mesh*)MemAlloc(sizeof(Mesh) * model.meshCount);
    model.meshes = (Mesh *)MemAlloc(sizeof(Mesh)*model.meshCount);

    if (objMaterialCount > 0)
    {
        model.materialCount = objMaterialCount;
        model.materials = (Material*)MemAlloc(sizeof(Material) * objMaterialCount);
        model.materials = (Material *)MemAlloc(sizeof(Material)*objMaterialCount);
    }
    else // we must allocate at least one material
    else // We must allocate at least one material
    {
        model.materialCount = 1;
        model.materials = (Material*)MemAlloc(sizeof(Material) * 1);
        model.materials = (Material *)MemAlloc(sizeof(Material)*1);
    }

    model.meshMaterial = (int*)MemAlloc(sizeof(int) * model.meshCount);
    model.meshMaterial = (int *)MemAlloc(sizeof(int)*model.meshCount);

    // see how many verts are in each mesh
    unsigned int* localMeshVertexCounts = (unsigned int*)MemAlloc(sizeof(unsigned int) * model.meshCount);
    // See how many verts are in each mesh
    unsigned int *localMeshVertexCounts = (unsigned int *)MemAlloc(sizeof(unsigned int)*model.meshCount);

    faceVertIndex = 0;
    nextShapeEnd = objAttributes.num_face_num_verts;
@ -4287,23 +4283,22 @@ static Model LoadOBJ(const char *fileName)
    unsigned int localMeshVertexCount = 0;

    nextShape = 1;
    if (objShapeCount > 1)
        nextShapeEnd = objShapes[nextShape].face_offset;
    if (objShapeCount > 1) nextShapeEnd = objShapes[nextShape].face_offset;

    // walk all the faces
    // Walk all the faces
    for (unsigned int faceId = 0; faceId < objAttributes.num_faces; faceId++)
    {
        bool newMesh = false; // k">do we need a new mesh?
        bool newMesh = false; // n">Do we need a new mesh?
        if (faceId >= nextShapeEnd)
        {
            // try to find the last vert in the next shape
            // Try to find the last vert in the next shape
            nextShape++;
            if (nextShape < objShapeCount) nextShapeEnd = objShapes[nextShape].face_offset;
            else nextShapeEnd = objAttributes.num_face_num_verts; // this is actually the total number of face verts in the file, not faces

            newMesh = true;
        }
        else if (lastMaterial != -1 && objAttributes.material_ids[faceId] != lastMaterial)
        else if (p">(lastMaterial != -1) && p">(objAttributes.material_ids[faceId] != lastMaterial))
        {
            newMesh = true;
        }
@ -4321,50 +4316,52 @@ static Model LoadOBJ(const char *fileName)
        faceVertIndex += objAttributes.face_num_verts[faceId];
        localMeshVertexCount += objAttributes.face_num_verts[faceId];
    }
    
    localMeshVertexCounts[meshIndex] = localMeshVertexCount;

    for (int i = 0; i < model.meshCount; i++)
    {
        // allocate the buffers for each mesh
        // Allocate the buffers for each mesh
        unsigned int vertexCount = localMeshVertexCounts[i];

        model.meshes[i].vertexCount = vertexCount;
        model.meshes[i].triangleCount = vertexCount / 3;

        model.meshes[i].vertices = (float*)MemAlloc(sizeof(float) * vertexCount * 3);
        model.meshes[i].normals = (float*)MemAlloc(sizeof(float) * vertexCount * 3);
        model.meshes[i].texcoords = (float*)MemAlloc(sizeof(float) * vertexCount * 2);
        model.meshes[i].colors = (unsigned char*)MemAlloc(sizeof(unsigned char) * vertexCount * 4);
        model.meshes[i].vertices = (float *)MemAlloc(sizeof(float)*vertexCount*3);
        model.meshes[i].normals = (float *)MemAlloc(sizeof(float)*vertexCount*3);
        model.meshes[i].texcoords = (float *)MemAlloc(sizeof(float)*vertexCount*2);
        model.meshes[i].colors = (unsigned char *)MemAlloc(sizeof(unsigned char)*vertexCount*4);
    }

    MemFree(localMeshVertexCounts);
    localMeshVertexCounts = NULL;

    // fill meshes
    // Fill meshes
    faceVertIndex = 0;

    nextShapeEnd = objAttributes.num_face_num_verts;

    // see how many verts till the next shape
    // See how many verts till the next shape
    nextShape = 1;
    if (objShapeCount > 1) nextShapeEnd = objShapes[nextShape].face_offset;
    lastMaterial = -1;
    meshIndex = 0;
    localMeshVertexCount = 0;

    // walk all the faces
    // Walk all the faces
    for (unsigned int faceId = 0; faceId < objAttributes.num_faces; faceId++)
    {
        bool newMesh = false; // k">do we need a new mesh?
        bool newMesh = false; // n">Do we need a new mesh?
        if (faceId >= nextShapeEnd)
        {
            // try to find the last vert in the next shape
            // Try to find the last vert in the next shape
            nextShape++;
            if (nextShape < objShapeCount) nextShapeEnd = objShapes[nextShape].face_offset;
            else nextShapeEnd = objAttributes.num_face_num_verts; // this is actually the total number of face verts in the file, not faces
            else nextShapeEnd = objAttributes.num_face_num_verts; // This is actually the total number of face verts in the file, not faces
            newMesh = true;
        }
        // if this is a new material, we need to allocate a new mesh
        
        // If this is a new material, we need to allocate a new mesh
        if (lastMaterial != -1 && objAttributes.material_ids[faceId] != lastMaterial) newMesh = true;
        lastMaterial = objAttributes.material_ids[faceId];

@ -4375,8 +4372,7 @@ static Model LoadOBJ(const char *fileName)
        }

        int matId = 0;
        if (lastMaterial >= 0 && lastMaterial < (int)objMaterialCount)
            matId = lastMaterial;
        if ((lastMaterial >= 0) && (lastMaterial < (int)objMaterialCount)) matId = lastMaterial;

        model.meshMaterial[meshIndex] = matId;

@ -4386,19 +4382,15 @@ static Model LoadOBJ(const char *fileName)
            int normalIndex = objAttributes.faces[faceVertIndex].vn_idx;
            int texcordIndex = objAttributes.faces[faceVertIndex].vt_idx;

            for (int i = 0; i < 3; i++)
                model.meshes[meshIndex].vertices[localMeshVertexCount * 3 + i] = objAttributes.vertices[vertIndex * 3 + i];
            for (int i = 0; i < 3; i++) model.meshes[meshIndex].vertices[localMeshVertexCount*3 + i] = objAttributes.vertices[vertIndex*3 + i];

            for (int i = 0; i < 3; i++)
                model.meshes[meshIndex].normals[localMeshVertexCount * 3 + i] = objAttributes.normals[normalIndex * 3 + i];
            for (int i = 0; i < 3; i++) model.meshes[meshIndex].normals[localMeshVertexCount*3 + i] = objAttributes.normals[normalIndex*3 + i];

            for (int i = 0; i < 2; i++)
                model.meshes[meshIndex].texcoords[localMeshVertexCount * 2 + i] = objAttributes.texcoords[texcordIndex * 2 + i];
            for (int i = 0; i < 2; i++) model.meshes[meshIndex].texcoords[localMeshVertexCount*2 + i] = objAttributes.texcoords[texcordIndex*2 + i];

            model.meshes[meshIndex].texcoords[localMeshVertexCount * 2 + 1] = 1.0f - model.meshes[meshIndex].texcoords[localMeshVertexCount * 2 + 1];
            model.meshes[meshIndex].texcoords[localMeshVertexCount*2 + 1] = 1.0f - model.meshes[meshIndex].texcoords[localMeshVertexCount*2 + 1];

            for (int i = 0; i < 4; i++)
                model.meshes[meshIndex].colors[localMeshVertexCount * 4 + i] = 255;
            for (int i = 0; i < 4; i++) model.meshes[meshIndex].colors[localMeshVertexCount*4 + i] = 255;

            faceVertIndex++;
            localMeshVertexCount++;
@ -4412,8 +4404,7 @@ static Model LoadOBJ(const char *fileName)
    tinyobj_shapes_free(objShapes, objShapeCount);
    tinyobj_materials_free(objMaterials, objMaterialCount);

    for (int i = 0; i < model.meshCount; i++)
        UploadMesh(model.meshes + i, true);
    for (int i = 0; i < model.meshCount; i++) UploadMesh(model.meshes + i, true);

    // Restore current working directory
    if (CHDIR(currentDir) != 0)
--- a/src/rtext.c
+++ b/src/rtext.c
@ -2325,9 +2325,9 @@ static Font LoadBMFont(const char *fileName)
 // Convert hexadecimal to decimal (single digit)
 static unsigned char HexToInt(char hex)
 {
    if (hex >= '0' && hex <= '9') return hex - '0';
    else if (hex >= 'a' && hex <= 'f') return hex - 'a' + 10;
    else if (hex >= 'A' && hex <= 'F') return hex - 'A' + 10;
    if (p">(hex >= '0') && p">(hex <= '9')) return hex - '0';
    else if (p">(hex >= 'a') && p">(hex <= 'f')) return hex - 'a' + 10;
    else if (p">(hex >= 'A') && p">(hex <= 'F')) return hex - 'A' + 10;
    else return 0;
 }

--- a/src/rtextures.c
+++ b/src/rtextures.c
@ -3567,7 +3567,7 @@ void ImageDrawLineEx(Image *dst, Vector2 start, Vector2 end, int thick, Color co
    ImageDrawLine(dst, x1, y1, x2, y2, color);

    // Determine if the line is more horizontal or vertical
    if (dx != 0 && abs(dy/dx) < 1)
    if (p">(dx != 0) && p">(abs(dy/dx) < 1))
    {
        // Line is more horizontal
        // Calculate half the width of the line