367 lines
11 KiB
C++
367 lines
11 KiB
C++
#define DEBUG
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#define DEBUG_TRACK_SCOPE(name)
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h>
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#include "gs/gs_language.h"
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#include "gs/gs_string.h"
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#include "../meta/gs_meta_lexer.h"
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#include "gs/gs_vector.h"
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#define STRING_BUFFER_SIZE 512
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struct string_buffer
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{
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char* Memory;
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s32 Size;
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string_buffer* Next;
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};
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struct string_writer
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{
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char* Cursor;
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s32 UsedInString;
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string_buffer* Buffer;
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};
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internal string_buffer*
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GrowStringBuffer (string_buffer* Buffer)
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{
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string_buffer* Result;
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if (Buffer->Next)
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{
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Result = GrowStringBuffer(Buffer->Next);
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}
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else
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{
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Result = (string_buffer*)malloc(sizeof(string_buffer));
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Result->Memory = (char*)malloc(sizeof(char) * STRING_BUFFER_SIZE);
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memset(Result->Memory, 0, STRING_BUFFER_SIZE);
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Result->Size = STRING_BUFFER_SIZE;
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Result->Next = 0;
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Buffer->Next = Result;
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}
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return Result;
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}
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internal void
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WriteString(string_writer* Writer, char* String, s32 Length)
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{
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char* Src = String;
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char* Dst = Writer->Cursor;
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s32 LengthWritten = 0;
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while (*Src && Writer->UsedInString < Writer->Buffer->Size &&LengthWritten < Length)
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{
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LengthWritten++;
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*Dst++ = *Src++;
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Writer->UsedInString++;
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}
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Writer->Cursor = Dst;
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if (*Src && Writer->UsedInString == Writer->Buffer->Size)
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{
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*(Dst - 1) = 0; // Null terminate the buffer
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Writer->Buffer = GrowStringBuffer(Writer->Buffer);
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Writer->Cursor = Writer->Buffer->Memory;
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Writer->UsedInString = 0;
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WriteString(Writer, (Src - 1), (Length - LengthWritten) + 1);
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}
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}
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struct control_box_pairs
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{
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s32 Start;
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s32 End;
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};
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struct extra_strips
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{
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s32 BoxID;
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v3 Start;
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v3 End;
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};
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struct control_box
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{
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s32 ID;
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s32 Neighbors[6];
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r32 X;
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r32 Y;
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r32 Z;
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char* Address;
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};
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int main(int ArgCount, char* Args[])
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{
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FILE* OldFilePtr = fopen("F:/data/radia_old.fold", "r");
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if (!OldFilePtr)
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{
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InvalidCodePath;
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}
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fseek(OldFilePtr, 0, SEEK_END);
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s32 OldFileSize = ftell(OldFilePtr);
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fseek(OldFilePtr, 0, SEEK_SET);
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char* OldFile = (char*)malloc(sizeof(char) * OldFileSize);
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fread(OldFile, 1, OldFileSize, OldFilePtr);
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fclose(OldFilePtr);
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s32 ControlBoxPairsUsed = 0;
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control_box_pairs* ControlBoxPairs = (control_box_pairs*)malloc(sizeof(control_box_pairs) * 512);
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s32 ControlBoxesUsed = 0;
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control_box* ControlBoxes = (control_box*)malloc(sizeof(control_box) * 64);
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s32 ExtraStripsUsed = 0;
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extra_strips* ExtraStrips = (extra_strips*)malloc(sizeof(extra_strips) * (42 * 4));
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control_box_pairs* NextControlBoxPair = &ControlBoxPairs[0];
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control_box* NextControlBox = &ControlBoxes[0];
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extra_strips* NextStrip = &ExtraStrips[0];
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tokenizer Tokenizer = {};
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Tokenizer.At = OldFile;
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while(*Tokenizer.At)
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{
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// Parse a Control Box
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memset(NextControlBox->Neighbors, -1, 6);
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s32 NeighborsAdded = 0;
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control_box_pairs* StartPair = NextControlBoxPair;
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s32 PairsCount = 0;
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if (StringsEqual(Tokenizer.At, "EOF"))
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{
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break;
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}
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EatToCharacterInclusive(&Tokenizer, '{');
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EatWhitespace(&Tokenizer);
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Assert(StringsEqual(Tokenizer.At, "neighbors: ["));
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Tokenizer.At += StringLength("neighbors: [");
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// Parse Neighbors
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while(*Tokenizer.At && *Tokenizer.At != ']')
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{
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s32 NeighborIndex = ParseSignedInt(Tokenizer.At);
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NextControlBox->Neighbors[NeighborsAdded++] = NeighborIndex;
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NextControlBoxPair->End = NeighborIndex;
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NextControlBoxPair++;
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PairsCount++;
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ControlBoxPairsUsed++;
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EatNumber(&Tokenizer);
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if (*Tokenizer.At == ']')
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{
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Tokenizer.At += 2; // Eat past "];"
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break;
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}
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else
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{
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EatToCharacterInclusive(&Tokenizer, ',');
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EatWhitespace(&Tokenizer);
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}
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}
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EatWhitespace(&Tokenizer);
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//Parse IP
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Assert(StringsEqual(Tokenizer.At, "ip: "));
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Tokenizer.At += StringLength("ip: ");
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NextControlBox->Address = (char*)malloc(sizeof(char) * 13);
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memcpy(NextControlBox->Address, Tokenizer.At, 13);
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Tokenizer.At += 13;
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Tokenizer.At++; // Eat past ";"
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// Parse X
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EatWhitespace(&Tokenizer);
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Assert(StringsEqual(Tokenizer.At, "x: "));
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Tokenizer.At += StringLength("x: ");
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NextControlBox->X = ParseFloat(Tokenizer.At);
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EatToCharacterInclusive(&Tokenizer, ';');
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// Parse Y
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EatWhitespace(&Tokenizer);
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Assert(StringsEqual(Tokenizer.At, "y: "));
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Tokenizer.At += StringLength("y: ");
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NextControlBox->Y = ParseFloat(Tokenizer.At);
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EatToCharacterInclusive(&Tokenizer, ';');
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// Parse Z
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EatWhitespace(&Tokenizer);
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Assert(StringsEqual(Tokenizer.At, "z: "));
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Tokenizer.At += StringLength("z: ");
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NextControlBox->Z = ParseFloat(Tokenizer.At);
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EatToCharacterInclusive(&Tokenizer, ';');
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// Parse ID
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EatWhitespace(&Tokenizer);
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Assert(StringsEqual(Tokenizer.At, "id: "));
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Tokenizer.At += StringLength("id: ");
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NextControlBox->ID = ParseSignedInt(Tokenizer.At);
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EatToCharacterInclusive(&Tokenizer, ';');
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control_box_pairs* PairCursor = StartPair;
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for(s32 i = 0; i < PairsCount; i++)
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{
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PairCursor->Start = NextControlBox->ID;
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PairCursor++;
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}
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NextControlBox++;
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ControlBoxesUsed++;
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EatToCharacterInclusive(&Tokenizer, ';');
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EatWhitespace(&Tokenizer);
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}
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// Add Spikes
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#define SPIKE_LEDS 346
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for (s32 sp = 0; sp < ControlBoxesUsed; sp++)
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{
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control_box* Box = &ControlBoxes[sp];
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control_box* NeighborA = &ControlBoxes[Box->Neighbors[0]];
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control_box* NeighborB = &ControlBoxes[Box->Neighbors[1]];
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v3 SpikeCenter = v3{Box->X, Box->Y, Box->Z};
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v3 StripPitch = Normalize(SpikeCenter) * ((2.f/8.f) / SPIKE_LEDS);
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v3 ToNA = Normalize(v3{NeighborA->X, NeighborA->Y, NeighborA->Z} - SpikeCenter);
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v3 ToNB = Normalize(v3{NeighborB->X, NeighborB->Y, NeighborB->Z} - SpikeCenter);
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v3 StripAOutStart = SpikeCenter + (ToNA * .01f);
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v3 StripAOutEnd = StripAOutStart + (StripPitch * SPIKE_LEDS);
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v3 StripBOutStart = SpikeCenter + (ToNB * .01f);
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v3 StripBOutEnd = StripBOutStart + (StripPitch * SPIKE_LEDS);
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v3 StripAInStart = StripAOutEnd - (ToNA * .02f);
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v3 StripAInEnd = StripAOutStart - (ToNA * .02f);
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v3 StripBInStart = StripBOutEnd - (ToNA * .02f);
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v3 StripBInEnd = StripBOutStart - (ToNA * .02f);
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NextStrip->BoxID = Box->ID;
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NextStrip->Start = StripAOutStart;
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NextStrip->End = StripAOutEnd;
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NextStrip++;
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ExtraStripsUsed++;
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NextStrip->BoxID = Box->ID;
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NextStrip->Start = StripAInStart;
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NextStrip->End = StripAInEnd;
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NextStrip++;
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ExtraStripsUsed++;
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NextStrip->BoxID = Box->ID;
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NextStrip->Start = StripBOutStart;
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NextStrip->End = StripBOutEnd;
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NextStrip++;
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ExtraStripsUsed++;
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NextStrip->BoxID = Box->ID;
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NextStrip->Start = StripBInStart;
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NextStrip->End = StripBInEnd;
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NextStrip++;
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ExtraStripsUsed++;
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}
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string_buffer OutputFileBuffer = {};
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OutputFileBuffer.Memory = (char*)malloc(sizeof(char) * STRING_BUFFER_SIZE);
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OutputFileBuffer.Size = STRING_BUFFER_SIZE;
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OutputFileBuffer.Next = 0;
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string_writer RefWriter = {};
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RefWriter.Cursor = OutputFileBuffer.Memory;
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RefWriter.UsedInString = 0;
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RefWriter.Buffer = &OutputFileBuffer;
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string_writer* Writer = &RefWriter;
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char StringBuffer[512];
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s32 Len = 0;
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Len = sprintf_s(StringBuffer, 512, "control_box_count %d\n", ControlBoxesUsed);
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WriteString(Writer, StringBuffer, Len);
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Len = sprintf_s(StringBuffer, 512, "led_strip_count %d\n\n", ControlBoxPairsUsed);
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WriteString(Writer, StringBuffer, Len);
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for (s32 c = 0; c < ControlBoxesUsed; c++)
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{
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control_box* Box = ControlBoxes + c;
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Len = sprintf_s(StringBuffer, 512,
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"control_box { %d, \"%s\", (%f, %f, %f) }\n",
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Box->ID, Box->Address,
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Box->X, Box->Y, Box->Z);
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WriteString(Writer, StringBuffer, Len);
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}
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WriteString(Writer, "\n", 1);
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#define UNIVERSES_PER_BOX 25
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s32 UniversesPerBox[64];
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for (s32 u = 0; u < 64; u++)
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{
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UniversesPerBox[u] = UNIVERSES_PER_BOX * u;
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}
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char LEDStripFormatString[] = "led_strip { %d, %d, %d, INTERPOLATE_POINTS, (%f, %f, %f), (%f, %f, %f), 144 } \n";
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for (s32 s = 0; s < ControlBoxPairsUsed; s++)
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{
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control_box_pairs* Pair = ControlBoxPairs + s;
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s32 Universe = UniversesPerBox[Pair->Start];
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UniversesPerBox[Pair->Start]++;
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r32 StartX = ControlBoxes[Pair->Start].X;
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r32 StartY = ControlBoxes[Pair->Start].Y;
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r32 StartZ = ControlBoxes[Pair->Start].Z;
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r32 EndX = ControlBoxes[Pair->End].X;
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r32 EndY = ControlBoxes[Pair->End].Y;
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r32 EndZ = ControlBoxes[Pair->End].Z;
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Len = sprintf_s(StringBuffer, 512,
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LEDStripFormatString,
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Pair->Start, Universe, 0,
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StartX, StartY, StartZ,
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EndX, EndY, EndZ);
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WriteString(Writer, StringBuffer, Len);
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}
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WriteString(Writer, "\n", 1);
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for (s32 sp = 0; sp < ExtraStripsUsed; sp++)
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{
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extra_strips* Strip = ExtraStrips + sp;
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s32 Universe = UniversesPerBox[Strip->BoxID];
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UniversesPerBox[Strip->BoxID]++;
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Len = sprintf_s(StringBuffer, 512,
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LEDStripFormatString,
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Strip->BoxID, Universe, 0,
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Strip->Start.x, Strip->Start.y, Strip->Start.z,
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Strip->End.x, Strip->End.y, Strip->End.z);
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WriteString(Writer, StringBuffer, Len);
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}
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WriteString(Writer, "END_OF_ASSEMBLY_FILE", StringLength("END_OF_ASSEMBLY_FILE"));
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*Writer->Cursor = 0;
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FILE* OutputFile = fopen("F:/data/radialumia.fold", "w");
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string_buffer* BufferCursor = &OutputFileBuffer;
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while(BufferCursor)
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{
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fprintf(OutputFile, BufferCursor->Memory);
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BufferCursor = BufferCursor->Next;
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}
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fclose(OutputFile);
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return 0;
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} |