Start parser for Wavefront 3D Object file format
This commit is contained in:
parent
a25b50c501
commit
ce539d4903
@ -11,6 +11,153 @@
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#include <math.h>
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typedef struct ModelFace
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{
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i32 numVertex;
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i32 *vertexIndex;
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i32 *textureIndex;
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i32 *normalIndex;
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} ModelFace;
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FILE_SCOPE bool ObjWavefrontLoad(const PlatformAPI api, PlatformMemory *const memory,
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const char *const path)
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{
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if (!memory || ! path) return false;
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PlatformFile file = {};
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if (!api.FileOpen(path, &file, PlatformFilePermissionFlag_Read))
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return false; // TODO(doyle): Logging
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DqnTempBuffer tmpMemRegion = DqnMemBuffer_BeginTempRegion(&memory->transientBuffer);
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u8 *rawBytes = (u8 *)DqnMemBuffer_Allocate(&memory->transientBuffer, file.size);
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size_t bytesRead = api.FileRead(&file, rawBytes, file.size);
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size_t fileSize = file.size;
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api.FileClose(&file);
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if (bytesRead != file.size)
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{
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// TODO(doyle): Logging
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DqnMemBuffer_EndTempRegion(tmpMemRegion);
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return false;
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}
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#if 0
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DqnV3 *vertex;
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ModelFace *face;
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#endif
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enum WavefrontVertexType {
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WavefrontVertexType_Invalid,
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WavefrontVertexType_Geometric,
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WavefrontVertexType_Texture,
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WavefrontVertexType_Normal,
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};
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DqnArray<DqnV4> vGeometricArray = {};
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DqnArray<DqnV3> vTextureArray = {};
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DqnArray<DqnV3> vNormalArray = {};
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DQN_ASSERT(DqnArray_Init(&vGeometricArray, 1000) && DqnArray_Init(&vTextureArray, 1000) &&
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DqnArray_Init(&vNormalArray, 1000));
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for (char *scan = (char *)rawBytes; scan;)
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{
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switch (*scan)
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{
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// Vertex Format: v[ |t|n|p] f32 f32 f32 [f32]
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case 'v':
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{
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scan++;
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DQN_ASSERT(scan);
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enum WavefrontVertexType type = WavefrontVertexType_Invalid;
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if (*scan == ' ') type = WavefrontVertexType_Geometric;
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else if (*scan == 't' || *scan == 'n')
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{
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scan++;
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if (*scan == 't') type = WavefrontVertexType_Texture;
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else type = WavefrontVertexType_Normal;
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}
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else DQN_ASSERT(DQN_INVALID_CODE_PATH);
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i32 vIndex = 0;
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DqnV4 v4 = {0, 0, 0, 1.0f};
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// Progress to first non space character after vertex identifier
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for (; scan && *scan == ' '; scan++)
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if (!scan) DQN_ASSERT(DQN_INVALID_CODE_PATH);
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for (;;)
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{
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char *f32StartPtr = scan;
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for (; *scan != ' ' && *scan != '\n';)
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{
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DQN_ASSERT(DqnChar_IsDigit(*scan) || (*scan == '.') || (*scan == '-') ||
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*scan == 'e');
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scan++;
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}
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i32 f32Len = (i32)((size_t)scan - (size_t)f32StartPtr);
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v4.e[vIndex++] = Dqn_StrToF32(f32StartPtr, f32Len);
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DQN_ASSERT(vIndex < DQN_ARRAY_COUNT(v4.e));
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while (scan && (*scan == ' ' || *scan == '\n')) scan++;
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if (!scan) break;
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if (!(DqnChar_IsDigit(*scan) || *scan == '-')) break;
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}
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DQN_ASSERT(vIndex == 3 || vIndex == 4);
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if (type == WavefrontVertexType_Geometric)
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{
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DqnArray_Push(&vGeometricArray, v4);
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}
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else if (type == WavefrontVertexType_Texture)
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{
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DqnArray_Push(&vTextureArray, v4.xyz);
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}
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else if (type == WavefrontVertexType_Normal)
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{
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DqnArray_Push(&vNormalArray, v4.xyz);
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}
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else
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{
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DQN_ASSERT(DQN_INVALID_CODE_PATH);
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}
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}
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break;
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// Face Format: i32/i32/i32 i32/i32/i32 i32/i32/i32
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case 'f':
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{
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}
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break;
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// Comment
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case '#':
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{
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// Skip comment line until new line
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while (scan && *scan != '\n')
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scan++;
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// Skip new lines and any leading white spaces
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while (scan && (*scan == '\n' || *scan == ' '))
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scan++;
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}
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break;
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default:
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{
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DQN_ASSERT(DQN_INVALID_CODE_PATH);
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}
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break;
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}
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}
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DqnMemBuffer_EndTempRegion(tmpMemRegion);
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return true;
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}
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FILE_SCOPE bool BitmapFontCreate(const PlatformAPI api,
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PlatformMemory *const memory,
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DTRFont *const font, const char *const path,
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@ -1031,6 +1178,78 @@ void CompAssignment(PlatformRenderBuffer *const renderBuffer, PlatformInput *con
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}
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}
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FILE_SCOPE void TestStrToF32Converter()
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{
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const f32 EPSILON = 0.001f;
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const char a[] = "-0.66248";
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f32 vA = Dqn_StrToF32(a, DQN_ARRAY_COUNT(a));
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DQN_ASSERT(DQN_ABS(vA) - DQN_ABS(-0.66248f) < EPSILON);
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const char b[] = "-0.632053";
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f32 vB = Dqn_StrToF32(b, DQN_ARRAY_COUNT(b));
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DQN_ASSERT(DQN_ABS(vB) - DQN_ABS(-0.632053f) < EPSILON);
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const char c[] = "-0.244271";
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f32 vC = Dqn_StrToF32(c, DQN_ARRAY_COUNT(c));
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DQN_ASSERT(DQN_ABS(vC) - DQN_ABS(-0.244271f) < EPSILON);
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const char d[] = "-0.511812";
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f32 vD = Dqn_StrToF32(d, DQN_ARRAY_COUNT(d));
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DQN_ASSERT(DQN_ABS(vD) - DQN_ABS(-0.511812f) < EPSILON);
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const char e[] = "-0.845392";
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f32 vE = Dqn_StrToF32(e, DQN_ARRAY_COUNT(e));
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DQN_ASSERT(DQN_ABS(vE) - DQN_ABS(-0.845392f) < EPSILON);
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const char f[] = "0.127809";
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f32 vF = Dqn_StrToF32(f, DQN_ARRAY_COUNT(f));
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DQN_ASSERT(DQN_ABS(vF) - DQN_ABS(-0.127809f) < EPSILON);
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const char g[] = "0.532";
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f32 vG = Dqn_StrToF32(g, DQN_ARRAY_COUNT(g));
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DQN_ASSERT(DQN_ABS(vG) - DQN_ABS(-0.532f) < EPSILON);
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const char h[] = "0.923";
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f32 vH = Dqn_StrToF32(h, DQN_ARRAY_COUNT(h));
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DQN_ASSERT(DQN_ABS(vH) - DQN_ABS(-0.923f) < EPSILON);
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const char i[] = "0.000";
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f32 vI = Dqn_StrToF32(i, DQN_ARRAY_COUNT(i));
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DQN_ASSERT(DQN_ABS(vI) - DQN_ABS(-0.000f) < EPSILON);
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const char j[] = "0.000283538";
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f32 vJ = Dqn_StrToF32(j, DQN_ARRAY_COUNT(j));
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DQN_ASSERT(DQN_ABS(vJ) - DQN_ABS(-0.000283538f) < EPSILON);
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const char k[] = "-1.25";
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f32 vK = Dqn_StrToF32(k, DQN_ARRAY_COUNT(k));
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DQN_ASSERT(DQN_ABS(vK) - DQN_ABS(-1.25f) < EPSILON);
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const char l[] = "0.286843";
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f32 vL = Dqn_StrToF32(l, DQN_ARRAY_COUNT(l));
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DQN_ASSERT(DQN_ABS(vL) - DQN_ABS(-0.286843f) < EPSILON);
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const char m[] = "-0.406";
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f32 vM = Dqn_StrToF32(m, DQN_ARRAY_COUNT(m));
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DQN_ASSERT(DQN_ABS(vM) - DQN_ABS(-0.406f) < EPSILON);
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const char n[] = "-0.892";
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f32 vN = Dqn_StrToF32(n, DQN_ARRAY_COUNT(n));
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DQN_ASSERT(DQN_ABS(vN) - DQN_ABS(-0.892f) < EPSILON);
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const char o[] = "0.201";
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f32 vO = Dqn_StrToF32(o, DQN_ARRAY_COUNT(o));
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DQN_ASSERT(DQN_ABS(vO) - DQN_ABS(-0.201f) < EPSILON);
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const char p[] = "1.25";
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f32 vP = Dqn_StrToF32(p, DQN_ARRAY_COUNT(p));
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DQN_ASSERT(DQN_ABS(vP) - DQN_ABS(1.25f) < EPSILON);
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const char q[] = "9.64635e-05";
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f32 vQ = Dqn_StrToF32(q, DQN_ARRAY_COUNT(q));
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DQN_ASSERT(DQN_ABS(vQ) - DQN_ABS(9.64635e-05) < EPSILON);
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}
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extern "C" void DTR_Update(PlatformRenderBuffer *const renderBuffer,
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PlatformInput *const input,
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PlatformMemory *const memory)
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@ -1045,6 +1264,7 @@ extern "C" void DTR_Update(PlatformRenderBuffer *const renderBuffer,
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DTR_DEBUG_TIMED_FUNCTION();
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if (!memory->isInit)
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{
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TestStrToF32Converter();
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DTR_DEBUG_TIMED_BLOCK("DTR_Update Memory Initialisation");
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// NOTE(doyle): Do premultiply ourselves
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stbi_set_unpremultiply_on_load(true);
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@ -1067,8 +1287,9 @@ extern "C" void DTR_Update(PlatformRenderBuffer *const renderBuffer,
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&memory->transientBuffer);
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int x = 5;
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DqnMemBuffer_EndTempRegion(tmp);
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}
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ObjWavefrontLoad(input->api, memory, "african_head.obj");
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}
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DTRRender_Clear(renderBuffer, DqnV3_3f(0, 0, 0));
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#if 1
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130
src/dqn.h
130
src/dqn.h
@ -28,9 +28,9 @@ typedef uint32_t u32;
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typedef uint16_t u16;
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typedef uint8_t u8;
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typedef int32_t i64;
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typedef int64_t i64;
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typedef int32_t i32;
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typedef int64_t i16;
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typedef int16_t i16;
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typedef double f64;
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typedef float f32;
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@ -419,8 +419,8 @@ bool DqnArray_RemoveStable(DqnArray<T> *array, u64 index)
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////////////////////////////////////////////////////////////////////////////////
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// Math
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////////////////////////////////////////////////////////////////////////////////
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DQN_FILE_SCOPE f32 DqnMath_Lerp(f32 a, f32 t, f32 b);
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DQN_FILE_SCOPE f32 DqnMath_Sqrtf(f32 a);
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DQN_FILE_SCOPE f32 DqnMath_Lerp (f32 a, f32 t, f32 b);
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DQN_FILE_SCOPE f32 DqnMath_Sqrtf (f32 a);
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DQN_FILE_SCOPE f32 DqnMath_Clampf(f32 val, f32 min, f32 max);
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////////////////////////////////////////////////////////////////////////////////
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@ -535,10 +535,13 @@ DQN_FILE_SCOPE inline bool operator==(DqnV3 a, DqnV3 b) { return DqnV3_E
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////////////////////////////////////////////////////////////////////////////////
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// Vec4
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////////////////////////////////////////////////////////////////////////////////
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typedef union DqnV4
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{
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typedef union DqnV4 {
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struct { f32 x, y, z, w; };
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DqnV3 xyz;
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struct { f32 r, g, b, a; };
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DqnV3 rgb;
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f32 e[4];
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DqnV2 v2[2];
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} DqnV4;
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@ -626,12 +629,16 @@ DQN_FILE_SCOPE i32 Dqn_StrFindFirstOccurence(const char *const src, const i32 s
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DQN_FILE_SCOPE bool Dqn_StrHasSubstring (const char *const src, const i32 srcLen, const char *const find, const i32 findLen);
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#define DQN_32BIT_NUM_MAX_STR_SIZE 11
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#define DQN_64BIT_NUM_MAX_STR_SIZE 20
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#define DQN_64BIT_NUM_MAX_STR_SIZE 21
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// Return the len of the derived string. If buf is NULL and or bufSize is 0 the
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// function returns the required string length for the integer.
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DQN_FILE_SCOPE i32 Dqn_I64ToStr(i64 value, char *const buf, const i32 bufSize);
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DQN_FILE_SCOPE i64 Dqn_StrToI64(const char *const buf, const i32 bufSize);
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// WARNING: Not robust, precision errors and whatnot but good enough!
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DQN_FILE_SCOPE f32 Dqn_StrToF32(const char *const buf, const i32 bufSize);
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// Both return the number of bytes read, return 0 if invalid codepoint or UTF8
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DQN_FILE_SCOPE u32 Dqn_UCSToUTF8(u32 *dest, u32 character);
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DQN_FILE_SCOPE u32 Dqn_UTF8ToUCS(u32 *dest, u32 character);
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@ -2535,7 +2542,6 @@ DQN_FILE_SCOPE i32 Dqn_I64ToStr(i64 value, char *const buf, const i32 bufSize)
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return 1;
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}
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// NOTE(doyle): Max 32bit integer (+-)2147483647
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i32 charIndex = 0;
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bool negative = false;
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if (value < 0) negative = true;
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@ -2546,12 +2552,30 @@ DQN_FILE_SCOPE i32 Dqn_I64ToStr(i64 value, char *const buf, const i32 bufSize)
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charIndex++;
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}
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i32 val = DQN_ABS(value);
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bool lastDigitDecremented = false;
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i64 val = DQN_ABS(value);
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if (val < 0)
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{
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// TODO(doyle): This will occur if we are checking the smallest number
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// possible in i64 since the range of negative numbers is one more than
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// it is for positives, so ABS will fail.
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lastDigitDecremented = true;
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val = DQN_ABS(val - 1);
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DQN_ASSERT(val >= 0);
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}
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if (validBuffer)
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{
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if (lastDigitDecremented)
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{
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i64 rem = (val % 10) + 1;
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buf[charIndex++] = (u8)rem + '0';
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val /= 10;
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}
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while (val != 0 && charIndex < bufSize)
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{
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i32 rem = val % 10;
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i64 rem = val % 10;
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buf[charIndex++] = (u8)rem + '0';
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val /= 10;
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}
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@ -2616,6 +2640,92 @@ DQN_FILE_SCOPE i64 Dqn_StrToI64(const char *const buf, const i32 bufSize)
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return result;
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}
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DQN_FILE_SCOPE f32 Dqn_StrToF32(const char *const buf, const i32 bufSize)
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{
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if (!buf || bufSize == 0) return 0;
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i32 index = 0;
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bool isNegative = false;
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if (buf[index] == '-')
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{
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index++;
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isNegative = true;
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}
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bool isPastDecimal = false;
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i32 numDigitsAfterDecimal = 0;
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i32 rawNumber = 0;
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f32 digitShiftValue = 1.0f;
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f32 digitShiftMultiplier = 0.1f;
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for (i32 i = index; i < bufSize; i++)
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{
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char ch = buf[i];
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if (ch == '.')
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{
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isPastDecimal = true;
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continue;
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}
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// Handle scientific notation
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else if (ch == 'e')
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{
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bool digitShiftIsPositive = true;
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if (i < bufSize)
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{
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if (buf[i + 1] == '-') digitShiftIsPositive = false;
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DQN_ASSERT(buf[i + 1] == '-' || buf[i + 1] == '+');
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i += 2;
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}
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i32 exponentPow = 0;
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bool scientificNotation = false;
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while (i < bufSize)
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{
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scientificNotation = true;
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char exponentCh = buf[i];
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if (DqnChar_IsDigit(exponentCh))
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{
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exponentPow *= 10;
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exponentPow += (buf[i] - '0');
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}
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else
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{
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i = bufSize;
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}
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i++;
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}
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// NOTE(doyle): If exponent not specified but this branch occurred,
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// the float string has a malformed scientific notation in the
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// string, i.e. "e" followed by no number.
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DQN_ASSERT(scientificNotation);
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numDigitsAfterDecimal += exponentPow;
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if (digitShiftIsPositive) digitShiftMultiplier = 10.0f;
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}
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else if (DqnChar_IsDigit(ch))
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{
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numDigitsAfterDecimal += (i32)isPastDecimal;
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rawNumber *= 10;
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rawNumber += (ch - '0');
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}
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else
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{
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break;
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}
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}
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for (i32 i = 0; i < numDigitsAfterDecimal; i++)
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digitShiftValue *= digitShiftMultiplier;
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f32 result = (f32)rawNumber;
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if (numDigitsAfterDecimal > 0) result *= digitShiftValue;
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if (isNegative) result *= -1;
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return result;
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}
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/*
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Encoding
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The following byte sequences are used to represent a character. The sequence
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