doylet
/
dchip-8
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

Add file loading to platform layer

This commit is contained in:
Doyle Thai 2017-04-05 17:35:23 +10:00
parent b415f4c237
commit dc8afe349a
6 changed files with 552 additions and 358 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

2
dchip-8.vcxproj
View File

@ -73,7 +73,7 @@
<PropertyGroup Label="UserMacros" />
<PropertyGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
<OutDir>$(SolutionDir)\bin\</OutDir>
<IntDir>$(SolutionDir)\bin\</IntDir>
<IntDir>$(SolutionDir)</IntDir>
</PropertyGroup>
<ItemDefinitionGroup Condition="'$(Configuration)|$(Platform)'=='Debug|Win32'">
<ClCompile>

696
src/dchip8.cpp
View File

@ -1,8 +1,23 @@
#ifndef _CRT_SECURE_NO_WARNINGS
#define _CRT_SECURE_NO_WARNINGS
#endif
#include "dchip8_platform.h"
#include "dqnt.h"
#include "stdio.h"
enum Chip8State
{
chip8state_init,
chip8state_load_file,
chip8state_running,
chip8state_off,
};
typedef struct Chip8CPU
{
const u16 INIT_ADDRESS = 0x200;
union {
u8 registerArray[16];
struct
@ -50,10 +65,12 @@ typedef struct Chip8CPU
u8 stackPointer;
u16 stack[16];
bool isInit;
enum Chip8State state;
} Chip8CPU;
FILE_SCOPE Chip8CPU cpu;
FILE_SCOPE Chip8CPU cpu;
FILE_SCOPE RandPCGState pcgState;
void dchip8_update(PlatformRenderBuffer renderBuffer, PlatformInput input,
PlatformMemory memory)
{
@ -82,358 +99,383 @@ void dchip8_update(PlatformRenderBuffer renderBuffer, PlatformInput input,
bitmapBuffer[i] = color;
}
if (!cpu.isInit)
u8 *mainMem = (u8 *)memory.permanentMem;
if (cpu.state == chip8state_init)
{
DQNT_ASSERT(memory.permanentMemSize == (4096 / 4));
cpu.isInit = true;
// NOTE: Everything before 0x200 is reserved for the actual emulator
const u32 INIT_ADDRESS = 0x200;
cpu.programCounter = INIT_ADDRESS;
cpu.programCounter = cpu.INIT_ADDRESS;
cpu.I = 0;
cpu.stackPointer = 0;
// TODO(doyle): Load rom
const u32 SEED = 0x8293A8DE;
dqnt_rnd_pcg_seed(&pcgState, SEED);
cpu.state = chip8state_load_file;
}
#if 0
u8 *mainMem = (u8 *)memory.permanentMem;
u8 opHighByte = mainMem[cpu.programCounter++];
u8 opLowByte = mainMem[cpu.programCounter++];
u8 opFirstNibble = (opHighByte & 0xF0);
switch (opFirstNibble)
if (cpu.state == chip8state_load_file)
{
case 0x00:
PlatformFile file = {};
if (platform_open_file(L"roms/PONG", &file))
{
// CLS - 00E0 - Clear the display
if (opLowByte == 0xE0)
{
}
// RET - 00EE - Return from subroutine
else if (opLowByte == 0xEE)
{
cpu.programCounter = cpu.stack[cpu.stackPointer--];
}
}
break;
DQNT_ASSERT((cpu.INIT_ADDRESS + file.size) <=
DQNT_ARRAY_COUNT(mainMem));
case 0x10:
case 0x20:
{
u16 loc = ((0x0F & opHighByte) << 8) | (0xFF & opLowByte);
DQNT_ASSERT(loc <= 0x0FFF);
// JP addr - 1nnn - Jump to location nnn
if (opFirstNibble == 0x10)
void *loadToAddr = (void *)(&mainMem[cpu.INIT_ADDRESS]);
if (platform_read_file(file, loadToAddr, (u32)file.size))
{
// NOTE: Jump to loc, as per below
cpu.state = chip8state_running;
}
// Call addr - 2nnn - Call subroutine at nnn
else
{
DQNT_ASSERT(opFirstNibble == 0x20);
cpu.stackPointer++;
DQNT_ASSERT(cpu.stackPointer < DQNT_ARRAY_COUNT(cpu.stack));
cpu.stack[cpu.stackPointer] = cpu.programCounter;
cpu.state = chip8state_off;
}
cpu.programCounter = loc;
platform_close_file(&file);
}
break;
}
case 0x30:
case 0x40:
if (cpu.state == chip8state_running)
{
u8 opHighByte = mainMem[cpu.programCounter++];
u8 opLowByte = mainMem[cpu.programCounter++];
u8 opFirstNibble = (opHighByte & 0xF0);
switch (opFirstNibble)
{
u8 regNum = (0x0F & opHighByte);
DQNT_ASSERT(regNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 valToCheck = opLowByte;
// SE Vx, byte - 3xkk - Skip next instruction if Vx == kk
if (opFirstNibble == 0x30)
case 0x00:
{
if (cpu.registerArray[regNum] == valToCheck)
cpu.programCounter += 2;
}
// SNE Vx, byte - 4xkk - Skip next instruction if Vx == kk
else
{
DQNT_ASSERT(opFirstNibble == 0x40);
if (cpu.registerArray[regNum] != valToCheck)
cpu.programCounter += 2;
}
}
break;
// SE Vx, Vy - 5xy0 - Skip next instruction if Vx = Vy
case 0x50:
{
u8 firstRegNum = (0x0F & opHighByte);
DQNT_ASSERT(firstRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 secondRegNum = (0xF0 & opLowByte);
DQNT_ASSERT(secondRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
if (cpu.registerArray[firstRegNum] ==
cpu.registerArray[secondRegNum])
{
cpu.programCounter++;
}
}
break;
case 0x60:
case 0x70:
{
u8 regNum = (0x0F & opHighByte);
DQNT_ASSERT(regNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 valToOperateOn = opLowByte;
// LD Vx, byte - 6xkk - Set Vx = kk
if (opFirstNibble == 0x60)
{
cpu.registerArray[regNum] = valToOperateOn;
}
// ADD Vx, byte - 7xkk - Set Vx = Vx + kk
else
{
DQNT_ASSERT(opFirstNibble == 0x70);
cpu.registerArray[regNum] += valToOperateOn;
}
}
break;
case 0x80:
{
u8 firstRegNum = (0x0F & opHighByte);
DQNT_ASSERT(firstRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 secondRegNum = (0xF0 & opLowByte);
DQNT_ASSERT(secondRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 *vx = &cpu.registerArray[firstRegNum];
u8 *vy = &cpu.registerArray[secondRegNum];
// LD Vx, Vy - 8xy0 - Set Vx = Vy
if (opLowByte == 0x00)
{
*vx = *vy;
}
// OR Vx, Vy - 8xy1 - Set Vx = Vx OR Vy
else if (opLowByte == 0x01)
{
u8 result = (*vx | *vy);
*vx = result;
}
// AND Vx, Vy - 8xy2 - Set Vx = Vx AND Vy
else if (opLowByte == 0x02)
{
u8 result = (*vx & *vy);
*vx = result;
}
// XOR Vx, Vy - 8xy3 - Set Vx = Vx XOR Vy
else if (opLowByte == 0x03)
{
u8 result = (*vx & *vy);
*vx = result;
}
// ADD Vx, Vy - 8xy4 - Set Vx = Vx + Vy, set VF = carry
else if (opLowByte == 0x04)
{
u16 result = (*vx + *vy);
*vx = (u8)result;
if (result > 255) cpu.VF = (result > 255) ? 1 : 0;
}
// SUB Vx, Vy - 8xy5 - Set Vx = Vx - Vy, set VF = NOT borrow
else if (opLowByte == 0x05)
{
if (*vx > *vy)
cpu.VF = 1;
else
cpu.VF = 0;
*vx -= *vy;
}
// SHR Vx {, Vy} - 8xy6 - Set Vx = Vx SHR 1
else if (opLowByte == 0x06)
{
if (*vx & 1)
cpu.VF = 1;
else
cpu.VF = 0;
*vx >>= 1;
}
// SUBN Vx {, Vy} - 8xy7 - Set Vx = Vy - Vx, set VF = NOT borrow
else if (opLowByte == 0x07)
{
if (*vy > *vx)
cpu.VF = 1;
else
cpu.VF = 0;
*vx = *vy - *vx;
}
// SHL Vx {, Vy} - 8xyE - Set Vx = SHL 1
else
{
DQNT_ASSERT(opLowByte == 0x0E);
if ((*vx >> 7) == 1)
cpu.VF = 1;
else
cpu.VF = 0;
*vx <<= 1;
}
}
break;
// SNE Vx, Vy - 9xy0 - Skip next instruction if Vx != Vy
case 0x90:
{
u8 firstRegNum = (0x0F & opHighByte);
DQNT_ASSERT(firstRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 secondRegNum = (0xF0 & opLowByte);
DQNT_ASSERT(secondRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 *vx = &cpu.registerArray[firstRegNum];
u8 *vy = &cpu.registerArray[secondRegNum];
if (*vx != *vy) cpu.programCounter+= 2;
}
break;
// LD I, addr - Annn - Set I = nnn
case 0xA0:
{
u8 valToSet = opLowByte;
cpu.indexRegister = valToSet;
}
break;
// JP V0, addr - Bnnn - Jump to location (nnn + V0)
case 0xB0:
{
u8 addr = opLowByte + cpu.V0;
cpu.programCounter = addr;
}
break;
// RND Vx, byte - Cxkk - Set Vx = random byte AND kk
case 0xC0:
{
u8 firstRegNum = (0x0F & opHighByte);
DQNT_ASSERT(firstRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 andBits = opLowByte;
u8 *vx = &cpu.registerArray[firstRegNum];
// TODO(doyle): Random umber
*vx = (28 & opLowByte);
}
break;
// DRW Vx, Vy, nibble - Dxyn - Display n-byte sprite starting at mem
// location I at (Vx, Vy), set VF = collision
case 0xD0:
{
// TODO(doyle): Implement drawing
}
break;
case 0xE0:
{
// TODO(doyle): Implement key checks
u8 checkKey = (0x0F & opHighByte);
// SKP Vx - Ex9E - Skip next instruction if key with the value of Vx
// is pressed
bool skipNextInstruction = false;
if (opLowByte == 0x9E)
{
}
// SKNP Vx - ExA1 - Skip next instruction if key with the value of
// Vx is not pressed
else
{
DQNT_ASSERT(opLowByte == 0xA1);
}
if (skipNextInstruction) cpu.programCounter += 2;
}
break;
case 0xF0:
{
u8 regNum = (0x0F & opHighByte);
DQNT_ASSERT(regNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 *vx = &cpu.registerArray[regNum];
// LD Vx, DT - Fx07 - Set Vx = delay timer value
if (opLowByte == 0x07)
{
*vx = cpu.delayTimer;
}
// LD Vx, K - Fx0A - Wait for a key press, store the value of the
// key in Vx
else if (opLowByte == 0x0A)
{
}
// LD DT, Vx - Fx15 - Set delay timer = Vx
else if (opLowByte == 0x15)
{
cpu.delayTimer = *vx;
}
// LD ST, Vx - Fx18 - Set sound timer = Vx
else if (opLowByte == 0x18)
{
cpu.soundTimer = *vx;
}
// ADD I, Vx - Fx1E - Set I = I + Vx
else if (opLowByte == 0x1E)
{
cpu.indexRegister += *vx;
}
// LD F, Vx - Fx29 - Set I = location of sprite for digit Vx
else if (opLowByte == 0x29)
{
// TODO: Implement
}
// LD B, Vx - Fx33 - Store BCD representations of Vx in memory
// locations I, I+1 and I+2
else if (opLowByte == 0x33)
{
}
// LD [I], Vx - Fx55 - Store register V0 through Vx in memory
// starting at location I.
else if (opLowByte == 0x55)
{
for (u32 regIndex = 0; regIndex <= regNum; regIndex++)
// CLS - 00E0 - Clear the display
if (opLowByte == 0xE0)
{
u32 mem_offset = regIndex;
mainMem[cpu.indexRegister + mem_offset] =
cpu.registerArray[regIndex];
}
// RET - 00EE - Return from subroutine
else if (opLowByte == 0xEE)
{
cpu.programCounter = cpu.stack[cpu.stackPointer--];
}
}
// LD [I], Vx - Fx65 - Read registers V0 through Vx from memory
// starting at location I.
else
break;
case 0x10:
case 0x20:
{
DQNT_ASSERT(opLowByte == 0x65);
for (u32 regIndex = 0; regIndex <= regNum; regIndex++)
u16 loc = ((0x0F & opHighByte) << 8) | (0xFF & opLowByte);
DQNT_ASSERT(loc <= 0x0FFF);
// JP addr - 1nnn - Jump to location nnn
if (opFirstNibble == 0x10)
{
u32 mem_offset = regIndex;
cpu.registerArray[regIndex] =
mainMem[cpu.indexRegister + mem_offset];
// NOTE: Jump to loc, as per below
}
// Call addr - 2nnn - Call subroutine at nnn
else
{
DQNT_ASSERT(opFirstNibble == 0x20);
cpu.stackPointer++;
DQNT_ASSERT(cpu.stackPointer < DQNT_ARRAY_COUNT(cpu.stack));
cpu.stack[cpu.stackPointer] = cpu.programCounter;
}
cpu.programCounter = loc;
}
break;
case 0x30:
case 0x40:
{
u8 regNum = (0x0F & opHighByte);
DQNT_ASSERT(regNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 valToCheck = opLowByte;
// SE Vx, byte - 3xkk - Skip next instruction if Vx == kk
if (opFirstNibble == 0x30)
{
if (cpu.registerArray[regNum] == valToCheck)
cpu.programCounter += 2;
}
// SNE Vx, byte - 4xkk - Skip next instruction if Vx == kk
else
{
DQNT_ASSERT(opFirstNibble == 0x40);
if (cpu.registerArray[regNum] != valToCheck)
cpu.programCounter += 2;
}
}
}
break;
};
#endif
break;
// SE Vx, Vy - 5xy0 - Skip next instruction if Vx = Vy
case 0x50:
{
u8 firstRegNum = (0x0F & opHighByte);
DQNT_ASSERT(firstRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 secondRegNum = (0xF0 & opLowByte);
DQNT_ASSERT(secondRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
if (cpu.registerArray[firstRegNum] ==
cpu.registerArray[secondRegNum])
{
cpu.programCounter++;
}
}
break;
case 0x60:
case 0x70:
{
u8 regNum = (0x0F & opHighByte);
DQNT_ASSERT(regNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 valToOperateOn = opLowByte;
// LD Vx, byte - 6xkk - Set Vx = kk
if (opFirstNibble == 0x60)
{
cpu.registerArray[regNum] = valToOperateOn;
}
// ADD Vx, byte - 7xkk - Set Vx = Vx + kk
else
{
DQNT_ASSERT(opFirstNibble == 0x70);
cpu.registerArray[regNum] += valToOperateOn;
}
}
break;
case 0x80:
{
u8 firstRegNum = (0x0F & opHighByte);
DQNT_ASSERT(firstRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 secondRegNum = (0xF0 & opLowByte);
DQNT_ASSERT(secondRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 *vx = &cpu.registerArray[firstRegNum];
u8 *vy = &cpu.registerArray[secondRegNum];
// LD Vx, Vy - 8xy0 - Set Vx = Vy
if (opLowByte == 0x00)
{
*vx = *vy;
}
// OR Vx, Vy - 8xy1 - Set Vx = Vx OR Vy
else if (opLowByte == 0x01)
{
u8 result = (*vx | *vy);
*vx = result;
}
// AND Vx, Vy - 8xy2 - Set Vx = Vx AND Vy
else if (opLowByte == 0x02)
{
u8 result = (*vx & *vy);
*vx = result;
}
// XOR Vx, Vy - 8xy3 - Set Vx = Vx XOR Vy
else if (opLowByte == 0x03)
{
u8 result = (*vx & *vy);
*vx = result;
}
// ADD Vx, Vy - 8xy4 - Set Vx = Vx + Vy, set VF = carry
else if (opLowByte == 0x04)
{
u16 result = (*vx + *vy);
*vx = (u8)result;
if (result > 255) cpu.VF = (result > 255) ? 1 : 0;
}
// SUB Vx, Vy - 8xy5 - Set Vx = Vx - Vy, set VF = NOT borrow
else if (opLowByte == 0x05)
{
if (*vx > *vy)
cpu.VF = 1;
else
cpu.VF = 0;
*vx -= *vy;
}
// SHR Vx {, Vy} - 8xy6 - Set Vx = Vx SHR 1
else if (opLowByte == 0x06)
{
if (*vx & 1)
cpu.VF = 1;
else
cpu.VF = 0;
*vx >>= 1;
}
// SUBN Vx {, Vy} - 8xy7 - Set Vx = Vy - Vx, set VF = NOT borrow
else if (opLowByte == 0x07)
{
if (*vy > *vx)
cpu.VF = 1;
else
cpu.VF = 0;
*vx = *vy - *vx;
}
// SHL Vx {, Vy} - 8xyE - Set Vx = SHL 1
else
{
DQNT_ASSERT(opLowByte == 0x0E);
if ((*vx >> 7) == 1)
cpu.VF = 1;
else
cpu.VF = 0;
*vx <<= 1;
}
}
break;
// SNE Vx, Vy - 9xy0 - Skip next instruction if Vx != Vy
case 0x90:
{
u8 firstRegNum = (0x0F & opHighByte);
DQNT_ASSERT(firstRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 secondRegNum = (0xF0 & opLowByte);
DQNT_ASSERT(secondRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 *vx = &cpu.registerArray[firstRegNum];
u8 *vy = &cpu.registerArray[secondRegNum];
if (*vx != *vy) cpu.programCounter += 2;
}
break;
// LD I, addr - Annn - Set I = nnn
case 0xA0:
{
u8 valToSet = opLowByte;
cpu.indexRegister = valToSet;
}
break;
// JP V0, addr - Bnnn - Jump to location (nnn + V0)
case 0xB0:
{
u8 addr = opLowByte + cpu.V0;
cpu.programCounter = addr;
}
break;
// RND Vx, byte - Cxkk - Set Vx = random byte AND kk
case 0xC0:
{
u8 firstRegNum = (0x0F & opHighByte);
DQNT_ASSERT(firstRegNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 andBits = opLowByte;
u8 *vx = &cpu.registerArray[firstRegNum];
u8 randNum = (u8)dqnt_rnd_pcg_range(&pcgState, 0, 255);
*vx = (randNum & opLowByte);
}
break;
// DRW Vx, Vy, nibble - Dxyn - Display n-byte sprite starting at mem
// location I at (Vx, Vy), set VF = collision
case 0xD0:
{
// TODO(doyle): Implement drawing
}
break;
case 0xE0:
{
// TODO(doyle): Implement key checks
u8 checkKey = (0x0F & opHighByte);
// SKP Vx - Ex9E - Skip next instruction if key with the value
// of Vx
// is pressed
bool skipNextInstruction = false;
if (opLowByte == 0x9E)
{
}
// SKNP Vx - ExA1 - Skip next instruction if key with the value
// of
// Vx is not pressed
else
{
DQNT_ASSERT(opLowByte == 0xA1);
}
if (skipNextInstruction) cpu.programCounter += 2;
}
break;
case 0xF0:
{
u8 regNum = (0x0F & opHighByte);
DQNT_ASSERT(regNum < DQNT_ARRAY_COUNT(cpu.registerArray));
u8 *vx = &cpu.registerArray[regNum];
// LD Vx, DT - Fx07 - Set Vx = delay timer value
if (opLowByte == 0x07)
{
*vx = cpu.delayTimer;
}
// LD Vx, K - Fx0A - Wait for a key press, store the value of
// the key in Vx
else if (opLowByte == 0x0A)
{
}
// LD DT, Vx - Fx15 - Set delay timer = Vx
else if (opLowByte == 0x15)
{
cpu.delayTimer = *vx;
}
// LD ST, Vx - Fx18 - Set sound timer = Vx
else if (opLowByte == 0x18)
{
cpu.soundTimer = *vx;
}
// ADD I, Vx - Fx1E - Set I = I + Vx
else if (opLowByte == 0x1E)
{
cpu.indexRegister += *vx;
}
// LD F, Vx - Fx29 - Set I = location of sprite for digit Vx
else if (opLowByte == 0x29)
{
// TODO: Implement
}
// LD B, Vx - Fx33 - Store BCD representations of Vx in memory
// locations I, I+1 and I+2
else if (opLowByte == 0x33)
{
}
// LD [I], Vx - Fx55 - Store register V0 through Vx in memory
// starting at location I.
else if (opLowByte == 0x55)
{
for (u32 regIndex = 0; regIndex <= regNum; regIndex++)
{
u32 mem_offset = regIndex;
mainMem[cpu.indexRegister + mem_offset] =
cpu.registerArray[regIndex];
}
}
// LD [I], Vx - Fx65 - Read registers V0 through Vx from memory
// starting at location I.
else
{
DQNT_ASSERT(opLowByte == 0x65);
for (u32 regIndex = 0; regIndex <= regNum; regIndex++)
{
u32 mem_offset = regIndex;
cpu.registerArray[regIndex] =
mainMem[cpu.indexRegister + mem_offset];
}
}
}
break;
};
}
}

12
src/dchip8_platform.h
View File

@ -53,4 +53,16 @@ typedef struct PlatformMemory
u32 transientMemSize;
} PlatformMemory;
typedef struct PlatformFile
{
void *handle;
u64 size;
} PlatformFile;
// Return true if successful, false if not
bool platform_open_file (const wchar_t *const file, PlatformFile *platformFile);
// Return the number of bytes read
u32 platform_read_file (PlatformFile file, void *buffer, u32 numBytesToRead);
void platform_close_file(PlatformFile *file);
#endif

146
src/dqnt.h
View File

@ -50,8 +50,17 @@ v2 V2i(i32 x, i32 y);
////////////////////////////////////////////////////////////////////////////////
// String Ops
////////////////////////////////////////////////////////////////////////////////
i32 dqnt_strcmp(const char *a, const char *b);
i32 dqnt_strlen(const char *a);
bool dqnt_char_is_digit (char c);
bool dqnt_char_is_alpha (char c);
bool dqnt_char_is_alphanum(char c);
i32 dqnt_strcmp (const char *a, const char *b);
// Returns the length without the null terminator
i32 dqnt_strlen (const char *a);
char *dqnt_strncpy(char *dest, const char *src, i32 numChars);
bool dqnt_str_reverse(char *const buf, const i32 bufSize);
i32 dqnt_str_to_i32 (char *const buf, const i32 bufSize);
wchar_t dqnt_wchar_ascii_to_lower(wchar_t character);
i32 dqnt_wstrcmp(const wchar_t *a, const wchar_t *b);
@ -70,6 +79,8 @@ typedef struct RandPCGState
void dqnt_rnd_pcg_seed (RandPCGState *pcg, u32 seed);
// Returns a random number N between [0, 0xFFFFFFFF]
u32 dqnt_rnd_pcg_next (RandPCGState *pcg);
// Returns a random float N between [0.0, 1.0f]
f32 dqnt_rnd_pcg_nextf(RandPCGState *pcg);
// Returns a random integer N between [min, max]
i32 dqnt_rnd_pcg_range(RandPCGState *pcg, i32 min, i32 max);
@ -98,6 +109,24 @@ v2 V2i(i32 x, i32 y)
////////////////////////////////////////////////////////////////////////////////
// String Ops
////////////////////////////////////////////////////////////////////////////////
bool dqnt_char_is_digit(char c)
{
if (c >= '0' && c <= '9') return true;
return false;
}
bool dqnt_char_is_alpha(char c)
{
if ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z')) return true;
return false;
}
bool dqnt_char_is_alphanum(char c)
{
if (dqnt_char_is_alpha(c) || dqnt_char_is_digit(c)) return true;
return false;
}
i32 dqnt_strcmp(const char *a, const char *b)
{
while ((*a) == (*b))
@ -110,6 +139,86 @@ i32 dqnt_strcmp(const char *a, const char *b)
return (((*a) < (*b)) ? -1 : 1);
}
i32 dqnt_strlen(const char *a)
{
i32 result = 0;
while (a[result]) result++;
return result;
}
char *dqnt_strncpy(char *dest, const char *src, i32 numChars)
{
if (!dest) return NULL;
if (!src) return dest;
for (i32 i = 0; i < numChars; i++)
dest[i] = src[i];
return dest;
}
bool dqnt_str_reverse(char *const buf, const i32 bufSize)
{
if (!buf) return false;
i32 mid = bufSize / 2;
for (i32 i = 0; i < mid; i++)
{
char tmp = buf[i];
buf[i] = buf[(bufSize - 1) - i];
buf[(bufSize - 1) - i] = tmp;
}
return true;
}
i32 dqnt_str_to_i32(char *const buf, const i32 bufSize)
{
if (!buf || bufSize == 0) return 0;
i32 index = 0;
bool isNegative = false;
if (buf[index] == '-' || buf[index] == '+')
{
if (buf[index] == '-') isNegative = true;
index++;
}
else if (!dqnt_char_is_digit(buf[index]))
{
return 0;
}
i32 result = 0;
for (i32 i = index; i < bufSize; i++)
{
if (dqnt_char_is_digit(buf[i]))
{
result *= 10;
result += (buf[i] - '0');
}
else
{
break;
}
}
if (isNegative) result *= -1;
return result;
}
wchar_t dqnt_wchar_ascii_to_lower(wchar_t character)
{
if (character >= L'A' && character <= L'Z')
{
i32 shiftOffset = L'a' - L'A';
character += (wchar_t)shiftOffset;
}
return character;
}
i32 dqnt_wstrcmp(const wchar_t *a, const wchar_t *b)
{
while ((*a) == (*b))
@ -137,17 +246,6 @@ void dqnt_wstrcat(const wchar_t *a, i32 lenA, const wchar_t *b, i32 lenB,
DQNT_ASSERT(outIndex <= outLen);
}
wchar_t dqnt_wchar_ascii_to_lower(wchar_t character)
{
if (character >= L'A' && character <= L'Z')
{
i32 shiftOffset = L'a' - L'A';
character += (wchar_t)shiftOffset;
}
return character;
}
i32 dqnt_wstrlen(const wchar_t *a)
{
i32 result = 0;
@ -160,18 +258,6 @@ i32 dqnt_wstrlen(const wchar_t *a)
return result;
}
i32 dqnt_strlen(const char *a)
{
i32 result = 0;
while ((*a))
{
result++;
a++;
}
return result;
}
////////////////////////////////////////////////////////////////////////////////
// PCG (Permuted Congruential Generator) Random Number Generator
////////////////////////////////////////////////////////////////////////////////
@ -180,7 +266,7 @@ i32 dqnt_strlen(const char *a)
// Convert a randomized u32 value to a float value x in the range 0.0f <= x
// < 1.0f. Contributed by Jonatan Hedborg
FILE_SCOPE f32 dqnt_rnd_f32_normalized_from_u32_(u32 value)
FILE_SCOPE f32 dqnt_rnd_f32_normalized_from_u32_internal(u32 value)
{
u32 exponent = 127;
u32 mantissa = value >> 9;
@ -189,7 +275,7 @@ FILE_SCOPE f32 dqnt_rnd_f32_normalized_from_u32_(u32 value)
return fresult - 1.0f;
}
FILE_SCOPE u64 dqnt_rnd_murmur3_avalanche64_(u64 h)
FILE_SCOPE u64 dqnt_rnd_murmur3_avalanche64_internal(u64 h)
{
h ^= h >> 33;
h *= 0xff51afd7ed558ccd;
@ -202,11 +288,11 @@ FILE_SCOPE u64 dqnt_rnd_murmur3_avalanche64_(u64 h)
void dqnt_rnd_pcg_seed(RandPCGState *pcg, u32 seed)
{
u64 value = (((u64)seed) << 1ULL) | 1ULL;
value = dqnt_rnd_murmur3_avalanche64_(value);
value = dqnt_rnd_murmur3_avalanche64_internal(value);
pcg->state[0] = 0U;
pcg->state[1] = (value << 1ULL) | 1ULL;
dqnt_rnd_pcg_next(pcg);
pcg->state[0] += dqnt_rnd_murmur3_avalanche64_(value);
pcg->state[0] += dqnt_rnd_murmur3_avalanche64_internal(value);
dqnt_rnd_pcg_next(pcg);
}
@ -221,7 +307,7 @@ u32 dqnt_rnd_pcg_next(RandPCGState *pcg)
f32 dqnt_rnd_pcg_nextf(RandPCGState *pcg)
{
return dqnt_rnd_f32_normalized_from_u32_(dqnt_rnd_pcg_next(pcg));
return dqnt_rnd_f32_normalized_from_u32_internal(dqnt_rnd_pcg_next(pcg));
}
i32 dqnt_rnd_pcg_range(RandPCGState *pcg, i32 min, i32 max)

2
src/unity_build.cpp
View File

@ -1,3 +1,5 @@
#define _CRT_SECURE_NO_WARNINGS
#define DQNT_IMPLEMENTATION
#include "dqnt.h"

52
src/win32_dchip8.cpp
View File

@ -300,3 +300,55 @@ int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance,
return 0;
}
void platform_close_file(PlatformFile *file)
{
CloseHandle(file->handle);
file->handle = NULL;
file->size = 0;
}
u32 platform_read_file(PlatformFile file, void *buffer, u32 numBytesToRead)
{
DWORD numBytesRead = 0;
if (file.handle && buffer)
{
HANDLE win32Handle = file.handle;
BOOL result =
ReadFile(win32Handle, buffer, numBytesToRead, &numBytesRead, NULL);
// TODO(doyle): 0 also means it is completing async, but still valid
if (result == 0)
{
win32_error_box(L"ReadFile() failed.", nullptr);
}
}
return numBytesRead;
}
FILE_SCOPE u32 buffer[15000];
bool platform_open_file(const wchar_t *const file, PlatformFile *platformFile)
{
HANDLE handle = CreateFile(file, GENERIC_READ | GENERIC_WRITE, 0, NULL,
OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL);
if (handle == INVALID_HANDLE_VALUE)
{
win32_error_box(L"CreateFile() failed.", nullptr);
return false;
}
LARGE_INTEGER size;
if (GetFileSizeEx(handle, &size) == 0)
{
win32_error_box(L"GetFileSizeEx() failed.", nullptr);
return false;
}
platformFile->handle = handle;
platformFile->size = size.QuadPart;
return true;
}