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This commit is contained in:
Bruno Rybársky
2025-02-08 23:23:21 +01:00
parent aaf3dfb40c
commit 45653b6372
15 changed files with 969 additions and 326 deletions
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6
CMakeLists.txt
View File

@@ -16,6 +16,10 @@ add_executable(RISCB main.c
cpu/core.c cpu/core.c
cpu/core.h cpu/core.h
util/texteditor.c util/texteditor.c
util/texteditor.h) # Ensure the target is defined before linking util/texteditor.h
util/hexdump.c
util/hexdump.h
util/cpustatusui.c
util/cpustatusui.h) # Ensure the target is defined before linking
target_link_libraries(RISCB SDL2 SDL2_ttf m) target_link_libraries(RISCB SDL2 SDL2_ttf m)

267
assembler/assembler.c
View File

@@ -32,10 +32,10 @@ int lookupLabel(const char *name) {
} }
// Add a label to the table // Add a label to the table
void addLabel(const char *name, int address) { int addLabel(const char *name, int address) {
if (labelCount >= MAX_LABELS) { if (labelCount >= MAX_LABELS) {
fprintf(stderr, "Too many labels!\n"); fprintf(stderr, "Too many labels!\n");
exit(1); return 1;
} }
strncpy(labels[labelCount].name, name, sizeof(labels[labelCount].name)); strncpy(labels[labelCount].name, name, sizeof(labels[labelCount].name));
labels[labelCount].address = address; labels[labelCount].address = address;
@@ -90,6 +90,16 @@ void toUpperCase(char *string) {
if (*string > 0x60 && *string < 0x7b) { if (*string > 0x60 && *string < 0x7b) {
(*string) -= 0x20; (*string) -= 0x20;
} }
string++;
}
}
void toLowerCase(char *string) {
while (*string) {
if (*string >= 'A' && *string <= 'Z') {
(*string) += 0x20;
}
string++;
} }
} }
@@ -104,6 +114,8 @@ int getOpcode(char *mnemonic) {
return NOP; return NOP;
else if (strcmp(mnemonic, "BRK") == 0) else if (strcmp(mnemonic, "BRK") == 0)
return BRK; return BRK;
else if (strcmp(mnemonic, "HLT") == 0)
return HLT;
else if (strcmp(mnemonic, "MOV") == 0) else if (strcmp(mnemonic, "MOV") == 0)
return -2; // Special case: we must decide between MOV_RN_IMM, MOV_RN_RM, MOV_RN_ADDR, MOV_ADDR_RN return -2; // Special case: we must decide between MOV_RN_IMM, MOV_RN_RM, MOV_RN_ADDR, MOV_ADDR_RN
else if (strcmp(mnemonic, "SWAP") == 0) else if (strcmp(mnemonic, "SWAP") == 0)
@@ -281,6 +293,7 @@ const char *readLine(const char *source, char *buffer, size_t maxLen) {
int firstPass(const char *source) { int firstPass(const char *source) {
char line[MAX_LINE_LENGTH]; char line[MAX_LINE_LENGTH];
int addr = 0; int addr = 0;
labelCount = 0;
const char *ptr = source; const char *ptr = source;
while (*ptr) { while (*ptr) {
@@ -305,10 +318,12 @@ int firstPass(const char *source) {
} }
// Parse the mnemonic and operands. // Parse the mnemonic and operands.
char mnemonic[32], operand1[64], operand2[64]; char mnemonic[32], operand1[64], operand2[64], operand3[64];
operand1[0] = '\0'; operand1[0] = '\0';
operand2[0] = '\0'; operand2[0] = '\0';
sscanf(line, "%31s %63[^,], %63s", mnemonic, operand1, operand2); int tokenCount = sscanf(line, "%31s %63[^, ] %63[^, ] %63s",
mnemonic, operand1, operand2, operand3);
// Use the mapper to get a base opcode. // Use the mapper to get a base opcode.
int baseOpcode = getOpcode(mnemonic); int baseOpcode = getOpcode(mnemonic);
@@ -390,6 +405,7 @@ int firstPass(const char *source) {
switch (baseOpcode) { switch (baseOpcode) {
case NOP: case NOP:
case BRK: case BRK:
case HLT:
size = 1; size = 1;
break; break;
case SWAP: case SWAP:
@@ -439,57 +455,57 @@ int secondPass(const char *source, uint8_t *code) {
while (*ptr) { while (*ptr) {
ptr = readLine(ptr, line, sizeof(line)); ptr = readLine(ptr, line, sizeof(line));
trim(line); trim(line);
if (line[0] == '\0' || line[0] == ';' || line[0] == '#') if (line[0] == '\0' || line[0] == ';' || line[0] == '#')
continue; continue;
// Process labels: replace colon with a space. // Remove any label definitions (up to the colon).
char *colon = strchr(line, ':'); char *colon = strchr(line, ':');
if (colon != NULL) { if (colon != NULL) {
*colon = ' '; *colon = ' '; // Replace the colon so the rest of the line can be parsed.
continue;
} }
if (strlen(line) == 0) if (strlen(line) == 0)
continue; continue;
// Parse the mnemonic and operands. // Parse mnemonic and up to three operands.
char mnemonic[32], operand1[64], operand2[64]; char mnemonic[32], operand1[64], operand2[64], operand3[64];
operand1[0] = '\0'; mnemonic[0] = operand1[0] = operand2[0] = operand3[0] = '\0';
operand2[0] = '\0'; int tokenCount = sscanf(line, "%31s %63[^, ] %63[^, ] %63s",
sscanf(line, "%31s %63[^,], %63s", mnemonic, operand1, operand2); mnemonic, operand1, operand2, operand3);
// Use the mapper to get the base opcode. // (Optionally, you might trim each operand individually here.)
// Map the mnemonic to a base opcode.
int baseOpcode = getOpcode(mnemonic); int baseOpcode = getOpcode(mnemonic);
if (baseOpcode == -1) { if (baseOpcode == -1) {
fprintf(stderr, "Unknown instruction: %s\n", mnemonic); fprintf(stderr, "Unknown instruction: %s\n", mnemonic);
exit(1); return 1;
} }
// --- MOV Instruction --- // --- MOV Instruction (baseOpcode == -2) ---
if (baseOpcode == -2) { // MOV is ambiguous. if (baseOpcode == -2) {
char *dest = strtok(NULL, " ,"); if (strlen(operand1) == 0 || strlen(operand2) == 0) {
char *src = strtok(NULL, " ,");
if (!dest || !src) {
fprintf(stderr, "Error: MOV requires two operands.\n"); fprintf(stderr, "Error: MOV requires two operands.\n");
exit(1); return 1;
} }
int resolvedOpcode = resolveMOV(dest, src); int resolvedOpcode = resolveMOV(operand1, operand2);
code[addr++] = resolvedOpcode; code[addr++] = resolvedOpcode;
if (resolvedOpcode == MOV_RN_IMM) { if (resolvedOpcode == MOV_RN_IMM) {
int reg = parseRegister(dest); int reg = parseRegister(operand1);
uint8_t imm = parseImmediate(src); uint8_t imm = parseImmediate(operand2);
code[addr++] = reg; code[addr++] = reg;
code[addr++] = imm; code[addr++] = imm;
} else if (resolvedOpcode == MOV_RN_RM) { } else if (resolvedOpcode == MOV_RN_RM) {
int regDest = parseRegister(dest); int regDest = parseRegister(operand1);
int regSrc = parseRegister(src); int regSrc = parseRegister(operand2);
code[addr++] = regDest; code[addr++] = regDest;
code[addr++] = regSrc; code[addr++] = regSrc;
} else if (resolvedOpcode == MOV_RN_ADDR) { } else if (resolvedOpcode == MOV_RN_ADDR) {
int reg = parseRegister(dest); int reg = parseRegister(operand1);
// Remove brackets from src, assuming format "[address]" // Assume source is written as "[address]": remove the brackets.
char addrStr[32]; char addrStr[32];
strncpy(addrStr, src + 1, strlen(src) - 2); strncpy(addrStr, operand2 + 1, strlen(operand2) - 2);
addrStr[strlen(src) - 2] = '\0'; addrStr[strlen(operand2) - 2] = '\0';
uint32_t memAddr = (uint32_t) strtoul(addrStr, NULL, 0); uint32_t memAddr = (uint32_t) strtoul(addrStr, NULL, 0);
code[addr++] = reg; code[addr++] = reg;
code[addr++] = (memAddr >> 24) & 0xFF; code[addr++] = (memAddr >> 24) & 0xFF;
@@ -497,12 +513,12 @@ int secondPass(const char *source, uint8_t *code) {
code[addr++] = (memAddr >> 8) & 0xFF; code[addr++] = (memAddr >> 8) & 0xFF;
code[addr++] = memAddr & 0xFF; code[addr++] = memAddr & 0xFF;
} else if (resolvedOpcode == MOV_ADDR_RN) { } else if (resolvedOpcode == MOV_ADDR_RN) {
// dest is memory reference. // Destination is memory (written as "[address]").
char addrStr[32]; char addrStr[32];
strncpy(addrStr, dest + 1, strlen(dest) - 2); strncpy(addrStr, operand1 + 1, strlen(operand1) - 2);
addrStr[strlen(dest) - 2] = '\0'; addrStr[strlen(operand1) - 2] = '\0';
uint32_t memAddr = (uint32_t) strtoul(addrStr, NULL, 0); uint32_t memAddr = (uint32_t) strtoul(addrStr, NULL, 0);
int reg = parseRegister(src); int reg = parseRegister(operand2);
code[addr++] = (memAddr >> 24) & 0xFF; code[addr++] = (memAddr >> 24) & 0xFF;
code[addr++] = (memAddr >> 16) & 0xFF; code[addr++] = (memAddr >> 16) & 0xFF;
code[addr++] = (memAddr >> 8) & 0xFF; code[addr++] = (memAddr >> 8) & 0xFF;
@@ -510,136 +526,145 @@ int secondPass(const char *source, uint8_t *code) {
code[addr++] = reg; code[addr++] = reg;
} }
} }
// --- ALU Instructions (Arithmetic, INC/DEC, etc.) --- // --- INC and DEC (baseOpcode == -12 or -13) ---
else if (baseOpcode < 0 && baseOpcode != -2 && baseOpcode != -11 && baseOpcode != -14 && baseOpcode != -15) { // These instructions require only a single operand.
// For arithmetic and INC/DEC instructions, use operand2. else if (baseOpcode == -12 || baseOpcode == -13) {
char *dest = strtok(NULL, " ,"); if (strlen(operand1) == 0) {
char *src = strtok(NULL, " ,"); fprintf(stderr, "Error: %s requires one operand.\n", mnemonic);
if (!dest || !src) { return 1;
fprintf(stderr, "Error: %s requires two operands.\n", mnemonic);
exit(1);
} }
int resolvedOpcode = resolveALU(baseOpcode, src); int resolvedOpcode = resolveALU(baseOpcode, operand1);
code[addr++] = resolvedOpcode; code[addr++] = resolvedOpcode;
int regDest = parseRegister(dest); if (operand1[0] == 'R' || operand1[0] == 'r') {
int reg = parseRegister(operand1);
code[addr++] = reg;
} else {
// Assume memory reference written as "[address]".
char addrStr[32];
strncpy(addrStr, operand1 + 1, strlen(operand1) - 2);
addrStr[strlen(operand1) - 2] = '\0';
uint32_t memAddr = (uint32_t) strtoul(addrStr, NULL, 0);
code[addr++] = (memAddr >> 24) & 0xFF;
code[addr++] = (memAddr >> 16) & 0xFF;
code[addr++] = (memAddr >> 8) & 0xFF;
code[addr++] = memAddr & 0xFF;
}
}
// --- Other Ambiguous ALU Instructions (ADD, SUB, MUL, etc.) ---
// These require two operands (destination and source).
else if (baseOpcode < 0 && baseOpcode != -2 && baseOpcode != -11 &&
baseOpcode != -14 && baseOpcode != -15 && baseOpcode != -12 && baseOpcode != -13) {
if (strlen(operand1) == 0 || strlen(operand2) == 0) {
fprintf(stderr, "Error: %s requires two operands.\n", mnemonic);
return 1;
}
int resolvedOpcode = resolveALU(baseOpcode, operand2);
code[addr++] = resolvedOpcode;
int regDest = parseRegister(operand1);
code[addr++] = regDest; code[addr++] = regDest;
if (src[0] == 'R' || src[0] == 'r') { if (operand2[0] == 'R' || operand2[0] == 'r') {
int regSrc = parseRegister(src); int regSrc = parseRegister(operand2);
code[addr++] = regSrc; code[addr++] = regSrc;
} else { } else {
uint8_t imm = parseImmediate(src); uint8_t imm = parseImmediate(operand2);
code[addr++] = imm; code[addr++] = imm;
} }
} }
// --- Jump Instructions --- // --- JMP Instruction (baseOpcode == -11) ---
else if (baseOpcode == -11) { // JMP (ambiguous) else if (baseOpcode == -11) {
// For JMP, the operand is the jump target. if (strlen(operand1) == 0) {
char *operand = strtok(NULL, " ,"); fprintf(stderr, "Error: JMP requires one operand.\n");
if (!operand) { return 1;
fprintf(stderr, "Error: JMP requires an operand.\n");
exit(1);
} }
int resolvedOpcode = resolveALU(baseOpcode, operand); int resolvedOpcode = resolveALU(baseOpcode, operand1);
code[addr++] = resolvedOpcode; code[addr++] = resolvedOpcode;
if (operand[0] == '+' || operand[0] == '-') { if (operand1[0] == '+' || operand1[0] == '-') {
// Relative jump: 1-byte offset. // Relative jump: one-byte offset.
uint8_t offset = parseImmediate(operand); uint8_t offset = parseImmediate(operand1);
code[addr++] = offset; code[addr++] = offset;
} else { } else {
// Absolute jump: 32-bit address. // Absolute jump: use label lookup for 32-bit address.
uint32_t jumpAddr = (uint32_t) lookupLabel(operand); uint32_t jumpAddr = (uint32_t) lookupLabel(operand1);
code[addr++] = (jumpAddr >> 24) & 0xFF; code[addr++] = (jumpAddr >> 24) & 0xFF;
code[addr++] = (jumpAddr >> 16) & 0xFF; code[addr++] = (jumpAddr >> 16) & 0xFF;
code[addr++] = (jumpAddr >> 8) & 0xFF; code[addr++] = (jumpAddr >> 8) & 0xFF;
code[addr++] = jumpAddr & 0xFF; code[addr++] = jumpAddr & 0xFF;
} }
} }
// --- Jump Bit Set/Clear Instructions --- // --- Jump Bit Set/Clear Instructions (JMPBS, JMPBC) ---
else if (baseOpcode == -14 || baseOpcode == -15) { else if (baseOpcode == -14 || baseOpcode == -15) {
// For JMPBS (jump if bit set) or JMPBC (jump if bit clear), the operand specifies the register/memory if (strlen(operand1) == 0 || strlen(operand2) == 0 || strlen(operand3) == 0) {
// from which to test the bit, followed by the bit value and the jump target.
char *srcOperand = strtok(NULL, " ,"); // register or memory reference
char *bitToken = strtok(NULL, " ,");
char *target = strtok(NULL, " ,");
if (!srcOperand || !bitToken || !target) {
fprintf(stderr, "Error: %s requires three operands.\n", mnemonic); fprintf(stderr, "Error: %s requires three operands.\n", mnemonic);
exit(1); return 1;
} }
int resolvedOpcode = resolveALU(baseOpcode, srcOperand); int resolvedOpcode = resolveALU(baseOpcode, operand1);
code[addr++] = resolvedOpcode; code[addr++] = resolvedOpcode;
// Encode the source operand. // Encode the source operand (register or memory).
if (srcOperand[0] == 'R' || srcOperand[0] == 'r') { if (operand1[0] == 'R' || operand1[0] == 'r') {
int reg = parseRegister(srcOperand); int reg = parseRegister(operand1);
code[addr++] = reg; code[addr++] = reg;
} else { } else {
// Memory reference: encode 32-bit address.
char addrStr[32]; char addrStr[32];
strncpy(addrStr, srcOperand + 1, strlen(srcOperand) - 2); strncpy(addrStr, operand1 + 1, strlen(operand1) - 2);
addrStr[strlen(srcOperand) - 2] = '\0'; addrStr[strlen(operand1) - 2] = '\0';
uint32_t memAddr = (uint32_t) strtoul(addrStr, NULL, 0); uint32_t memAddr = (uint32_t) strtoul(addrStr, NULL, 0);
code[addr++] = (memAddr >> 24) & 0xFF; code[addr++] = (memAddr >> 24) & 0xFF;
code[addr++] = (memAddr >> 16) & 0xFF; code[addr++] = (memAddr >> 16) & 0xFF;
code[addr++] = (memAddr >> 8) & 0xFF; code[addr++] = (memAddr >> 8) & 0xFF;
code[addr++] = memAddr & 0xFF; code[addr++] = memAddr & 0xFF;
} }
// Encode the bit number (assumed to be a one-byte immediate). // Encode the bit number (a one-byte immediate).
uint8_t bitVal = parseImmediate(bitToken); uint8_t bitVal = parseImmediate(operand2);
code[addr++] = bitVal; code[addr++] = bitVal;
// Encode the jump target as a 32-bit address. // Encode the jump target (label -> 32-bit address).
uint32_t jumpAddr = (uint32_t) lookupLabel(target); uint32_t jumpAddr = (uint32_t) lookupLabel(operand3);
code[addr++] = (jumpAddr >> 24) & 0xFF; code[addr++] = (jumpAddr >> 24) & 0xFF;
code[addr++] = (jumpAddr >> 16) & 0xFF; code[addr++] = (jumpAddr >> 16) & 0xFF;
code[addr++] = (jumpAddr >> 8) & 0xFF; code[addr++] = (jumpAddr >> 8) & 0xFF;
code[addr++] = jumpAddr & 0xFF; code[addr++] = jumpAddr & 0xFF;
} }
// --- Other Instructions (CMP, SWAP, NEG, NOT, SHL, SHR, SAR, JE, JNE, JG, JL, JGE, JLE, CALL, RET) --- // --- Non-ambiguous Instructions ---
else if (baseOpcode > 0) { else if (baseOpcode > 0) {
// For instructions that are not ambiguous, simply encode the opcode and its operands.
switch (baseOpcode) { switch (baseOpcode) {
case CMP: case CMP:
case SWAP: { // Two register operands. case SWAP: {
char *op1 = strtok(NULL, " ,"); if (strlen(operand1) == 0 || strlen(operand2) == 0) {
char *op2 = strtok(NULL, " ,");
if (!op1 || !op2) {
fprintf(stderr, "Error: %s requires two operands.\n", mnemonic); fprintf(stderr, "Error: %s requires two operands.\n", mnemonic);
exit(1); return 1;
} }
code[addr++] = baseOpcode; code[addr++] = baseOpcode;
int r1 = parseRegister(op1); int r1 = parseRegister(operand1);
int r2 = parseRegister(op2); int r2 = parseRegister(operand2);
code[addr++] = r1; code[addr++] = r1;
code[addr++] = r2; code[addr++] = r2;
}
break; break;
}
case SWAPN: case SWAPN:
case NEG_RN: case NEG_RN:
case NOT_RN: { // Single register operand. case NOT_RN: {
char *op = strtok(NULL, " ,"); if (strlen(operand1) == 0) {
if (!op) {
fprintf(stderr, "Error: %s requires one operand.\n", mnemonic); fprintf(stderr, "Error: %s requires one operand.\n", mnemonic);
exit(1); return 1;
} }
code[addr++] = baseOpcode; code[addr++] = baseOpcode;
int reg = parseRegister(op); int reg = parseRegister(operand1);
code[addr++] = reg; code[addr++] = reg;
}
break; break;
}
case SHL_RN_IMM: case SHL_RN_IMM:
case SHR_RN_IMM: case SHR_RN_IMM:
case SAR_RN_IMM: { // Shift: register and immediate operand. case SAR_RN_IMM: {
char *regToken = strtok(NULL, " ,"); if (strlen(operand1) == 0 || strlen(operand2) == 0) {
char *immToken = strtok(NULL, " ,");
if (!regToken || !immToken) {
fprintf(stderr, "Error: %s requires two operands.\n", mnemonic); fprintf(stderr, "Error: %s requires two operands.\n", mnemonic);
exit(1); return 1;
} }
code[addr++] = baseOpcode; code[addr++] = baseOpcode;
int reg = parseRegister(regToken); int reg = parseRegister(operand1);
code[addr++] = reg; code[addr++] = reg;
uint8_t imm = parseImmediate(immToken); uint8_t imm = parseImmediate(operand2);
code[addr++] = imm; code[addr++] = imm;
}
break; break;
}
case JE: case JE:
case JNE: case JNE:
case JG: case JG:
@@ -647,54 +672,58 @@ int secondPass(const char *source, uint8_t *code) {
case JGE: case JGE:
case JLE: case JLE:
case CALL: { case CALL: {
// One operand: jump target (label or immediate 32-bit address). if (strlen(operand1) == 0) {
char *operand = strtok(NULL, " ,"); fprintf(stderr, "Error: %s requires one operand.\n", mnemonic);
if (!operand) { return 1;
fprintf(stderr, "Error: %s requires an operand.\n", mnemonic);
exit(1);
} }
code[addr++] = baseOpcode; code[addr++] = baseOpcode;
if (!isdigit(operand[0])) { // If the operand isnt purely numeric, treat it as a label.
int labelAddr = lookupLabel(operand); if (!isdigit(operand1[0])) {
int labelAddr = lookupLabel(operand1);
if (labelAddr < 0) { if (labelAddr < 0) {
fprintf(stderr, "Error: undefined label '%s'\n", operand); fprintf(stderr, "Error: undefined label '%s'\n", operand1);
exit(1); return 1;
} }
code[addr++] = (labelAddr >> 24) & 0xFF; code[addr++] = (labelAddr >> 24) & 0xFF;
code[addr++] = (labelAddr >> 16) & 0xFF; code[addr++] = (labelAddr >> 16) & 0xFF;
code[addr++] = (labelAddr >> 8) & 0xFF; code[addr++] = (labelAddr >> 8) & 0xFF;
code[addr++] = labelAddr & 0xFF; code[addr++] = labelAddr & 0xFF;
} else { } else {
uint32_t immAddr = (uint32_t) strtoul(operand, NULL, 0); uint32_t immAddr = (uint32_t) strtoul(operand1, NULL, 0);
code[addr++] = (immAddr >> 24) & 0xFF; code[addr++] = (immAddr >> 24) & 0xFF;
code[addr++] = (immAddr >> 16) & 0xFF; code[addr++] = (immAddr >> 16) & 0xFF;
code[addr++] = (immAddr >> 8) & 0xFF; code[addr++] = (immAddr >> 8) & 0xFF;
code[addr++] = immAddr & 0xFF; code[addr++] = immAddr & 0xFF;
} }
}
break; break;
}
case RET: case RET:
case BRK: case BRK:
case NOP: case HLT:
case NOP: {
code[addr++] = baseOpcode; code[addr++] = baseOpcode;
break; break;
default: }
default: {
fprintf(stderr, "Error: Unhandled opcode %d\n", baseOpcode); fprintf(stderr, "Error: Unhandled opcode %d\n", baseOpcode);
exit(1); return 1;
}
} }
} else { } else {
fprintf(stderr, "Error: Unknown instruction '%s'\n", mnemonic); fprintf(stderr, "Error: Unknown instruction '%s'\n", mnemonic);
exit(1); return 1;
} }
} }
return addr; return addr;
} }
void completePass(const char *input, CPU *cpu, bool erase) { void completePass(const char *input, CPU *cpu, bool erase) {
// First pass: determine label addresses. // First pass: determine label addresses.
firstPass(input);
if (erase) { if (erase) {
memset(cpu->memory, 0, MEM_SIZE); init_cpu(cpu);
} }
firstPass(input);
secondPass(input, cpu->memory); secondPass(input, cpu->memory);
} }

6
assembler/assembler.h
View File

@@ -35,11 +35,15 @@ extern int labelCount;
// //
void trim(char *s); void trim(char *s);
void toUpperCase(char *string);
void toLowerCase(char *string);
// Look up a label by name; returns -1 if not found. // Look up a label by name; returns -1 if not found.
int lookupLabel(const char *name); int lookupLabel(const char *name);
// Add a label to the table // Add a label to the table
void addLabel(const char *name, int address); int addLabel(const char *name, int address);
// //
// Parse a register string (e.g., "R0", "R1", etc.) and return it's number. // Parse a register string (e.g., "R0", "R1", etc.) and return it's number.

16
cpu/core.c
View File

@@ -9,6 +9,7 @@
// Initialize CPU // Initialize CPU
void init_cpu(CPU *cpu) { void init_cpu(CPU *cpu) {
memset(cpu, 0, sizeof(CPU)); memset(cpu, 0, sizeof(CPU));
cpu->mode = CPU_MODE_HALTED;
} }
// Helper function for setting flags in the CPU (here we assume bit0 is the Zero flag, // Helper function for setting flags in the CPU (here we assume bit0 is the Zero flag,
@@ -23,7 +24,7 @@ static inline void set_flags(CPU *cpu, int32_t result) {
// Execute one cycle // Execute one cycle
void step(CPU *cpu) { void step(CPU *cpu) {
if (!(cpu->mode & (CPU_MODE_HALTED | CPU_MODE_PAUSED | CPU_MODE_ERROR))) { if (cpu->mode & (CPU_MODE_HALTED | CPU_MODE_PAUSED | CPU_MODE_ERROR)) {
return; return;
} }
if (cpu->pc >= MEM_SIZE) { if (cpu->pc >= MEM_SIZE) {
@@ -48,29 +49,38 @@ void step(CPU *cpu) {
cpu->mode |= CPU_MODE_PAUSED; cpu->mode |= CPU_MODE_PAUSED;
break; break;
case HLT:
//Pause CPU (for breakpoints)
cpu->mode |= CPU_MODE_HALTED;
break;
case INC_RN: case INC_RN:
//Increment register //Increment register
reg1 = read_reg_number(cpu); reg1 = read_reg_number(cpu);
temp = read_reg(cpu, reg1); temp = read_reg(cpu, reg1);
write_reg(cpu, reg1, temp + 1); write_reg(cpu, reg1, temp + 1);
break;
case INC_ADDR: case INC_ADDR:
//Increment address //Increment address
addrTemp = read_address_argument(cpu); addrTemp = read_address_argument(cpu);
temp = read_mem(cpu, addrTemp); temp = read_mem(cpu, addrTemp);
write_mem(cpu, addrTemp, temp + 1); write_mem(cpu, addrTemp, temp + 1);
break;
case DEC_RN: case DEC_RN:
//Decrement register //Decrement register
reg1 = read_reg_number(cpu); reg1 = read_reg_number(cpu);
temp = read_reg(cpu, reg1); temp = read_reg(cpu, reg1);
write_reg(cpu, reg1, temp - 1); write_reg(cpu, reg1, temp - 1);
break;
case DEC_ADDR: case DEC_ADDR:
//Decrement address //Decrement address
addrTemp = read_address_argument(cpu); addrTemp = read_address_argument(cpu);
temp = read_mem(cpu, addrTemp); temp = read_mem(cpu, addrTemp);
write_mem(cpu, addrTemp, temp - 1); write_mem(cpu, addrTemp, temp - 1);
break;
case MOV_RN_IMM: case MOV_RN_IMM:
//Load from immediate to register //Load from immediate to register
@@ -351,7 +361,7 @@ void step(CPU *cpu) {
break; break;
} }
case JMP_BIT_SET_RN: { case JMP_BIT_SET_RN:
// Jump if bit in register set // Jump if bit in register set
reg1 = read_reg_number(cpu); reg1 = read_reg_number(cpu);
uint8_t bit = read_mem(cpu, cpu->pc++); uint8_t bit = read_mem(cpu, cpu->pc++);
@@ -367,7 +377,6 @@ void step(CPU *cpu) {
if (temp & (1 << bit)) if (temp & (1 << bit))
cpu->pc = newPC; cpu->pc = newPC;
break; break;
}
case JMP_BIT_SET_ADDR: { case JMP_BIT_SET_ADDR: {
// Jump if bit in register set // Jump if bit in register set
@@ -482,4 +491,5 @@ void step(CPU *cpu) {
printf("Unknown opcode: %d\n", opcode); printf("Unknown opcode: %d\n", opcode);
cpu->mode |= CPU_MODE_ERROR; cpu->mode |= CPU_MODE_ERROR;
} }
cpu->cycle++;
} }

5
cpu/core.h
View File

@@ -10,7 +10,7 @@
#define MEM_SIZE 65535 #define MEM_SIZE 65535
// Register count (register names R0 to R7) // Register count (register names R0 to R7)
#define REG_COUNT 32 #define REG_COUNT 64
#define STACK_SIZE 255 #define STACK_SIZE 255
#define CPU_FLAG_ZERO (1 << 0) #define CPU_FLAG_ZERO (1 << 0)
@@ -33,6 +33,7 @@ typedef struct {
uint32_t stack_ptr; // Stack pointer uint32_t stack_ptr; // Stack pointer
uint8_t flags; // Status flags uint8_t flags; // Status flags
uint8_t mode; uint8_t mode;
uint32_t cycle;
} CPU; } CPU;
void step(CPU *cpu); void step(CPU *cpu);
@@ -49,6 +50,8 @@ typedef enum {
BRK, // BRK - Pause CPU (halts execution until resumed) BRK, // BRK - Pause CPU (halts execution until resumed)
HLT,
MOV_RN_IMM, // MOV Rn, Imm - Move immediate to register (Rn = Imm) MOV_RN_IMM, // MOV Rn, Imm - Move immediate to register (Rn = Imm)
MOV_RN_RM, // MOV Rn, Rm - Move value from one register to another (Rn = Rm) MOV_RN_RM, // MOV Rn, Rm - Move value from one register to another (Rn = Rm)
MOV_RN_ADDR, // MOV Rn, [Addr] - Load value from memory address into register (Rn = [Addr]) MOV_RN_ADDR, // MOV Rn, [Addr] - Load value from memory address into register (Rn = [Addr])

20
cpu/memory.h
View File

@@ -8,29 +8,29 @@
#include <stdint.h> #include <stdint.h>
#include "../cpu/core.h" #include "../cpu/core.h"
inline uint8_t write_mem32(CPU *cpu, uint32_t addr, uint32_t value); uint8_t write_mem32(CPU *cpu, uint32_t addr, uint32_t value);
inline uint8_t write_mem16(CPU *cpu, uint32_t addr, uint16_t value); uint8_t write_mem16(CPU *cpu, uint32_t addr, uint16_t value);
inline uint32_t read_mem32(CPU *cpu, uint32_t addr); uint32_t read_mem32(CPU *cpu, uint32_t addr);
inline uint32_t read_address_argument(CPU *cpu); uint32_t read_address_argument(CPU *cpu);
void read_stack(CPU *cpu); void read_stack(CPU *cpu);
void write_stack(CPU *cpu); void write_stack(CPU *cpu);
inline uint8_t read_reg_number(CPU *cpu); uint8_t read_reg_number(CPU *cpu);
inline uint8_t read_reg(CPU *cpu, uint8_t number); uint8_t read_reg(CPU *cpu, uint8_t number);
inline uint8_t write_reg(CPU *cpu, uint8_t number, uint8_t value); uint8_t write_reg(CPU *cpu, uint8_t number, uint8_t value);
inline uint16_t read_mem16(CPU *cpu, uint32_t addr); uint16_t read_mem16(CPU *cpu, uint32_t addr);
inline uint8_t read_mem(CPU *cpu, uint32_t addr); uint8_t read_mem(CPU *cpu, uint32_t addr);
inline uint8_t write_mem(CPU *cpu, uint32_t addr, uint8_t value); uint8_t write_mem(CPU *cpu, uint32_t addr, uint8_t value);
#endif //RISCB_MEMORY_H #endif //RISCB_MEMORY_H

309
main.c
View File

@@ -4,6 +4,8 @@
#include "util/font.h" #include "util/font.h"
#include "assembler/assembler.h" #include "assembler/assembler.h"
#include "util/texteditor.h" #include "util/texteditor.h"
#include "util/hexdump.h"
#include "util/cpustatusui.h"
//Screen dimension constants //Screen dimension constants
const int SCREEN_WIDTH = 1280; const int SCREEN_WIDTH = 1280;
@@ -17,19 +19,75 @@ SDL_Window *window = NULL;
//The surface contained by the window //The surface contained by the window
SDL_Renderer *renderer = NULL; SDL_Renderer *renderer = NULL;
BitmapFont smallFont; #define biggerFont fonts[0]
#define smallFont fonts[1]
#define smallerFont fonts[2]
#define fontCount 3
BitmapFont fonts[fontCount];
CPU cpu; CPU cpu;
TextEditor codeEditor; SDL_Texture *cpuStatsTexture;
TextEditor *activeEditor; SDL_Texture *cpuStateTexture;
#define codeEditor editors[0]
#define memoryViewer editors[1]
#define editorCount 2
#define activeEditor editors[activeEditorIndex]
int activeEditorIndex = 0;
TextEditor editors[editorCount];
unsigned long frames = 0;
bool cursor = true;
char *read_file_as_string(const char *filename) {
FILE *file = fopen(filename, "rb"); // Open file in binary mode
if (file == NULL) {
perror("Error opening file");
return NULL;
}
// Seek to the end of the file to determine size
fseek(file, 0, SEEK_END);
long filesize = ftell(file);
rewind(file); // Go back to the beginning
// Allocate memory for file content (+1 for null terminator)
char *buffer = malloc(filesize + 1);
if (buffer == NULL) {
perror("Memory allocation failed");
fclose(file);
return NULL;
}
// Read entire file into buffer
fread(buffer, 1, filesize, file);
buffer[filesize] = '\0'; // Null-terminate the string
fclose(file);
return buffer; // Caller must free the memory
}
void updateState() {
cpuStatsTexture = renderVals(&cpu, &smallFont, &smallerFont, renderer);
cpuStateTexture = renderState(&cpu, &biggerFont, renderer);
char *dump = hexdump_to_string(cpu.memory, sizeof(cpu.memory));
fill_editor_from_string(&memoryViewer, dump, renderer);
free(dump);
}
void compile(bool erase) {
generate_string(&codeEditor);
completePass(codeEditor.outputString, &cpu, erase);
updateState();
}
char programString[65535];
int init() { int init() {
//Initialize SDL //Initialize SDL
if (SDL_Init(SDL_INIT_EVERYTHING) < 0) { if (SDL_Init(SDL_INIT_EVERYTHING) < 0) {
printf("SDL could not initialize! SDL_Error: %s\n", SDL_GetError()); printf("SDL could not initialize! SDL_Error: %s\n", SDL_GetError());
@@ -42,7 +100,6 @@ int init() {
return 1; return 1;
} }
//Create window //Create window
window = SDL_CreateWindow("SDLko", SDL_WINDOWPOS_CENTERED, SDL_WINDOWPOS_CENTERED, SCREEN_WIDTH, window = SDL_CreateWindow("SDLko", SDL_WINDOWPOS_CENTERED, SDL_WINDOWPOS_CENTERED, SCREEN_WIDTH,
SCREEN_HEIGHT, SDL_WINDOW_SHOWN | SDL_WINDOW_RESIZABLE); SCREEN_HEIGHT, SDL_WINDOW_SHOWN | SDL_WINDOW_RESIZABLE);
@@ -51,39 +108,62 @@ int init() {
return 1; return 1;
} }
//Get window surface //Get window surface
renderer = SDL_CreateRenderer(window, -1, SDL_RENDERER_ACCELERATED); renderer = SDL_CreateRenderer(window, -1, SDL_RENDERER_SOFTWARE);
if (renderer == NULL) { if (renderer == NULL) {
printf("Renderer could not be created SDL_Error: %s\n", SDL_GetError()); printf("Renderer could not be created SDL_Error: %s\n", SDL_GetError());
return 1; return 1;
} }
biggerFont = prepText(renderer, 16, "../PublicPixel.ttf", 255, 255, 255, 255);
smallFont = prepText(renderer, 12, "../PublicPixel.ttf", 255, 255, 255, 255); smallFont = prepText(renderer, 12, "../PublicPixel.ttf", 255, 255, 255, 255);
init_editor(&codeEditor, &smallFont, 50, 50, renderer); smallerFont = prepText(renderer, 8, "../PublicPixel.ttf", 255, 255, 255, 255);
activeEditor = &codeEditor; init_editor(&codeEditor, &smallFont, 10, 80, renderer, 34, 1000, 48, false);
init_editor(&memoryViewer, &smallerFont, 550, 80, renderer, 80, MEM_SIZE / 16 + 2, 70, true);
SDL_RenderSetLogicalSize(renderer, SCREEN_WIDTH, SCREEN_HEIGHT); SDL_RenderSetLogicalSize(renderer, SCREEN_WIDTH, SCREEN_HEIGHT);
SDL_SetHint(SDL_HINT_RENDER_SCALE_QUALITY, 0); SDL_SetHint(SDL_HINT_RENDER_SCALE_QUALITY, NULL);
generate_string_display(&codeEditor, renderer); for (int i = 0; i < editorCount; i++) {
generate_string_display(&codeEditor, renderer);
}
init_cpu(&cpu); init_cpu(&cpu);
compile(true);
return 0; return 0;
} }
SDL_Rect rect1;
SDL_Rect rect2;
int render() { int render() {
SDL_SetRenderDrawColor(renderer, 128, 0, 0, 255); SDL_SetRenderDrawColor(renderer, 32, 32, 32, 255);
SDL_RenderClear(renderer); SDL_RenderClear(renderer);
SDL_SetRenderDrawColor(renderer, 0, 128, 0, 255); for (int i = 0; i < editorCount; i++) {
rect1.x = (rect1.x + 1) % 400; editor_render(&editors[i], renderer, activeEditorIndex == i, cursor);
rect1.y = 10; }
rect1.w = 50;
rect1.h = 10;
SDL_RenderFillRect(renderer, &rect1);
editor_render(&codeEditor, renderer); SDL_Rect rect2;
rect2.x = 9;
rect2.y = 0;
rect2.w = 0;
rect2.h = 0;
SDL_QueryTexture(cpuStatsTexture, NULL, NULL, &rect2.w, &rect2.h);
SDL_RenderCopy(renderer, cpuStatsTexture, NULL, &rect2);
rect2.x = 100;
rect2.y = 46;
rect2.w = 0;
rect2.h = 0;
SDL_QueryTexture(cpuStateTexture, NULL, NULL, &rect2.w, &rect2.h);
SDL_RenderCopy(renderer, cpuStateTexture, NULL, &rect2);
SDL_RenderPresent(renderer); SDL_RenderPresent(renderer);
frames++;
if (!(frames % 60)) {
cursor = !cursor;
}
return 0; return 0;
} }
@@ -158,11 +238,9 @@ SDL_Keycode ConvertKPToNonKP(SDL_Keycode keycode) {
case SDLK_KP_GREATER: case SDLK_KP_GREATER:
return SDLK_GREATER; return SDLK_GREATER;
case SDLK_KP_AMPERSAND: case SDLK_KP_AMPERSAND:
return SDLK_AMPERSAND;
case SDLK_KP_DBLAMPERSAND: case SDLK_KP_DBLAMPERSAND:
return SDLK_AMPERSAND; // No direct match, best alternative return SDLK_AMPERSAND; // No direct match, best alternative
case SDLK_KP_VERTICALBAR: case SDLK_KP_VERTICALBAR:
return SDLK_BACKSLASH; // Vertical bar alternative
case SDLK_KP_DBLVERTICALBAR: case SDLK_KP_DBLVERTICALBAR:
return SDLK_BACKSLASH; // No direct match return SDLK_BACKSLASH; // No direct match
case SDLK_KP_COLON: case SDLK_KP_COLON:
@@ -175,12 +253,6 @@ SDL_Keycode ConvertKPToNonKP(SDL_Keycode keycode) {
return SDLK_AT; return SDLK_AT;
case SDLK_KP_EXCLAM: case SDLK_KP_EXCLAM:
return SDLK_EXCLAIM; return SDLK_EXCLAIM;
case SDLK_KP_MEMSTORE:
return SDLK_UNKNOWN; // No direct match
case SDLK_KP_MEMRECALL:
return SDLK_UNKNOWN;
case SDLK_KP_MEMCLEAR:
return SDLK_UNKNOWN;
case SDLK_KP_MEMADD: case SDLK_KP_MEMADD:
return SDLK_PLUS; return SDLK_PLUS;
case SDLK_KP_MEMSUBTRACT: case SDLK_KP_MEMSUBTRACT:
@@ -189,18 +261,15 @@ SDL_Keycode ConvertKPToNonKP(SDL_Keycode keycode) {
return SDLK_ASTERISK; return SDLK_ASTERISK;
case SDLK_KP_MEMDIVIDE: case SDLK_KP_MEMDIVIDE:
return SDLK_SLASH; return SDLK_SLASH;
case SDLK_KP_MEMSTORE:
case SDLK_KP_MEMRECALL:
case SDLK_KP_MEMCLEAR:
case SDLK_KP_PLUSMINUS: case SDLK_KP_PLUSMINUS:
return SDLK_UNKNOWN;
case SDLK_KP_CLEAR: case SDLK_KP_CLEAR:
return SDLK_UNKNOWN;
case SDLK_KP_CLEARENTRY: case SDLK_KP_CLEARENTRY:
return SDLK_UNKNOWN;
case SDLK_KP_BINARY: case SDLK_KP_BINARY:
return SDLK_UNKNOWN;
case SDLK_KP_OCTAL: case SDLK_KP_OCTAL:
return SDLK_UNKNOWN;
case SDLK_KP_DECIMAL: case SDLK_KP_DECIMAL:
return SDLK_UNKNOWN;
case SDLK_KP_HEXADECIMAL: case SDLK_KP_HEXADECIMAL:
return SDLK_UNKNOWN; return SDLK_UNKNOWN;
default: default:
@@ -208,6 +277,7 @@ SDL_Keycode ConvertKPToNonKP(SDL_Keycode keycode) {
} }
} }
uint8_t cpuSpeedTemp = 0;
int processEvent(SDL_Event e) { int processEvent(SDL_Event e) {
if (e.type == SDL_QUIT) { return 0; } if (e.type == SDL_QUIT) { return 0; }
@@ -220,44 +290,144 @@ int processEvent(SDL_Event e) {
SDL_RenderSetViewport(renderer, &viewport); SDL_RenderSetViewport(renderer, &viewport);
} else if (e.type == SDL_KEYDOWN) { } else if (e.type == SDL_KEYDOWN) {
int keySym = ConvertKPToNonKP(e.key.keysym.sym); int keySym = ConvertKPToNonKP(e.key.keysym.sym);
int keyMod = e.key.keysym.mod;
cursor = true;
switch (keySym) { switch (keySym) {
case SDLK_UP: case SDLK_UP:
if (activeEditor) { move_cursor_relative(&activeEditor, -1, 0, false, renderer);
move_cursor_relative(activeEditor, -1, 0); break;
} case SDLK_PAGEUP:
move_cursor_relative(&activeEditor, -activeEditor.max_lines_display, -1, true, renderer);
break; break;
case SDLK_DOWN: case SDLK_DOWN:
if (activeEditor) { move_cursor_relative(&activeEditor, 1, 0, false, renderer);
move_cursor_relative(activeEditor, 1, 0); break;
} case SDLK_PAGEDOWN:
move_cursor_relative(&activeEditor, activeEditor.max_lines_display, 0, true, renderer);
break; break;
case SDLK_LEFT: case SDLK_LEFT:
if (activeEditor) { move_cursor_relative(&activeEditor, 0, -1, false, renderer);
move_cursor_relative(activeEditor, 0, -1); break;
case SDLK_HOME:
if (keyMod & KMOD_CTRL) {
move_cursor(&activeEditor, 0, 0, false, renderer);
break;
} }
move_cursor(&activeEditor, activeEditor.cursor_line, 0, false, renderer);
break; break;
case SDLK_RIGHT: case SDLK_RIGHT:
if (activeEditor) { move_cursor_relative(&activeEditor, 0, 1, false, renderer);
move_cursor_relative(activeEditor, 0, 1); break;
case SDLK_END:
int lineLen = strlen(activeEditor.lines[activeEditor.cursor_line].text);
if (keyMod & KMOD_CTRL) {
move_cursor(&activeEditor, activeEditor.line_count, lineLen, false, renderer);
break;
}
move_cursor(&activeEditor, activeEditor.cursor_line, lineLen, false, renderer);
break;
case SDLK_F9:
cpu.mode ^= CPU_MODE_LOOP;
updateState();
return 1;
case SDLK_F8:
if (++cpuSpeedTemp == 3) {
cpuSpeedTemp = 0;
}
cpu.mode &= ~(CPU_MODE_SECOND | CPU_MODE_STEP);
cpu.mode |= cpuSpeedTemp << 4;
updateState();
return 1;
case SDLK_F5:
compile(!(keyMod & KMOD_CTRL));
case SDLK_F7:
if (cpu.mode & (CPU_MODE_HALTED | CPU_MODE_ERROR) || (keyMod & KMOD_SHIFT)) {
cpu.pc = 0;
}
cpu.mode &= ~(CPU_MODE_HALTED | CPU_MODE_PAUSED | CPU_MODE_ERROR);
updateState();
break;
case SDLK_ESCAPE:
cpu.mode |= CPU_MODE_PAUSED;
if (keyMod & (KMOD_CTRL | KMOD_SHIFT)) {
cpu.mode |= CPU_MODE_HALTED;
}
updateState();
break;
case SDLK_s:
if (keyMod & KMOD_CTRL) {
FILE *fptr;
char fname[20];
snprintf(fname, sizeof(fname), "riscb%lu.bsm", time(NULL));
fptr = fopen(fname, "w");
generate_string(&editors[0]);
fputs(editors[0].outputString, fptr);
fclose(fptr);
return 1;
}
break;
case SDLK_l:
if (keyMod & KMOD_CTRL) {
FILE *fptr;
char fname[20];
sscanf(editors[0].lines[0].text, "%s", fname);
toLowerCase(fname);
strcat(fname, ".bsm");
fptr = fopen(fname, "r");
char *prog = read_file_as_string(fname);
fill_editor_from_string(&editors[0], prog, renderer);
free(prog);
fputs(editors[0].outputString, fptr);
fclose(fptr);
return 1;
}
break;
case SDLK_BACKSPACE:
if (!activeEditor.readOnly) {
remove_character(&activeEditor, false, renderer);
}
break;
case SDLK_DELETE:
if (!activeEditor.readOnly) {
remove_character(&activeEditor, true, renderer);
} }
break; break;
case SDLK_RETURN: case SDLK_RETURN:
case SDLK_RETURN2: case SDLK_RETURN2:
if (activeEditor && !activeEditor->readOnly) { if (keyMod & KMOD_CTRL && activeEditorIndex == 0) {
insert_line_rel(activeEditor, renderer); compile(!(keyMod & KMOD_SHIFT));
break;
} }
if (!activeEditor.readOnly) {
insert_line_rel(&activeEditor, renderer);
}
break;
case SDLK_TAB:
activeEditorIndex++;
if (activeEditorIndex >= editorCount) {
activeEditorIndex = 0;
}
activeEditor = editors[activeEditorIndex];
break; break;
default: default:
break; break;
} }
if (activeEditor && !activeEditor->readOnly && activeEditor->cursor_pos < MAX_LINE_WIDTH) { } else if (e.type == SDL_TEXTINPUT) {
if (keySym >= 32 && keySym <= 126) { for (int i = 0; e.text.text[i] != '\0'; i++) { // Iterate over the input string
if (keySym > 0x60 && keySym < 0x7b) { char keySym = e.text.text[i];
keySym -= 0x20;
if (!activeEditor.readOnly && activeEditor.cursor_pos <= activeEditor.max_line_width) {
if (keySym >= 32 && keySym <= 126) { // Printable ASCII range
if (keySym > 0x60 && keySym < 0x7b) { // Convert lowercase to uppercase
keySym -= 0x20;
}
if (activeEditor.cursor_pos < activeEditor.max_line_width) {
insert_character(&activeEditor, keySym, renderer);
}
} }
insert_character(activeEditor, (keySym & 0xff), renderer);
} else if (keySym == SDLK_BACKSPACE || keySym == SDLK_DELETE) {
remove_character(activeEditor, renderer);
} }
} }
} }
@@ -286,6 +456,22 @@ int main(__attribute__((unused)) int argc, __attribute__((unused)) char *args[])
return status; return status;
} }
if (!(cpu.mode & (CPU_MODE_HALTED | CPU_MODE_PAUSED | CPU_MODE_ERROR))) {
if (cpu.mode & CPU_MODE_SECOND) {
if (frames % 60) {
step(&cpu);
updateState();
}
} else {
step(&cpu);
updateState();
}
if (cpu.mode & CPU_MODE_STEP) {
cpu.mode |= CPU_MODE_PAUSED;
updateState();
}
}
end = SDL_GetTicks64(); end = SDL_GetTicks64();
const unsigned long timeNeeded = end - start; const unsigned long timeNeeded = end - start;
if (timeNeeded < delayNeeded) { if (timeNeeded < delayNeeded) {
@@ -295,12 +481,13 @@ int main(__attribute__((unused)) int argc, __attribute__((unused)) char *args[])
} }
} }
uint8_t *program; for (uint8_t i = 0; i < editorCount; i++) {
int program_size; destroy_editor(&editors[i]);
}
completePass(programString, &cpu, true); for (uint8_t i = 0; i < fontCount; i++) {
destroyFont(&fonts[i]);
step(&cpu); }
//Destroy window //Destroy window
SDL_DestroyWindow(window); SDL_DestroyWindow(window);

168
util/cpustatusui.c Normal file
View File

@@ -0,0 +1,168 @@
//
// Created by bruno on 8.2.2025.
//
#include <SDL2/SDL_render.h>
#include "cpustatusui.h"
#include "font.h"
SDL_Texture *renderVals(CPU *cpu, BitmapFont *titleFont, BitmapFont *valueFont,
SDL_Renderer *renderer) {
CPUStatusPart *stats = NULL;
int statsCount = 0;
getStats(cpu, &stats, &statsCount);
const int padding = 4;
const int oneFieldW = (titleFont->size + 1) * (sizeof(stats[0].value) - 1) + padding - 1;
const int oneFieldH = (titleFont->size + 1) * 2 + (valueFont->size + 1);
SDL_Texture *out = SDL_CreateTexture(renderer, SDL_PIXELFORMAT_RGBA8888, SDL_TEXTUREACCESS_TARGET,
oneFieldW * statsCount, oneFieldH);
SDL_SetRenderTarget(renderer, out);
SDL_SetRenderDrawColor(renderer, 0, 0, 0, 255);
SDL_RenderClear(renderer);
for (int i = 0; i < statsCount; i++) {
int x = i * oneFieldW;
SDL_Rect rect = {x, 0, oneFieldW, oneFieldH};
SDL_SetRenderDrawColor(renderer, 50, 50, 50, 255);
SDL_RenderFillRect(renderer, &rect);
SDL_SetRenderDrawColor(renderer, 255, 255, 255, 255);
SDL_RenderDrawRect(renderer, &rect);
// Render the title
int textX = x + padding;
int textY = padding;
for (int j = 0; j < 6 && stats[i].name[j] != '\0'; j++) {
SDL_Texture *charTex = titleFont->texture[(uint8_t) stats[i].name[j]];
if (charTex) {
SDL_Rect dstRect = {textX, textY, titleFont->size, titleFont->size};
SDL_RenderCopy(renderer, charTex, NULL, &dstRect);
textX += titleFont->size;
}
}
// Render the value
char valueStr[12];
snprintf(valueStr, sizeof(valueStr), "%u", stats[i].value);
textX = x + padding;
textY += titleFont->size + padding;
for (int j = 0; valueStr[j] != '\0'; j++) {
SDL_Texture *charTex = valueFont->texture[(uint8_t) valueStr[j]];
if (charTex) {
SDL_Rect dstRect = {textX, textY, valueFont->size, valueFont->size};
SDL_RenderCopy(renderer, charTex, NULL, &dstRect);
textX += valueFont->size;
}
}
}
SDL_SetRenderTarget(renderer, NULL);
return out;
}
void getStats(CPU *cpu, CPUStatusPart **cpuStatus, int *cpuStatusCount) {
if (!cpu || !cpuStatus || !cpuStatusCount) return;
int count = 5 + REG_COUNT; // PC, SP, FLAGS, MODE, CYCLE + registers
// Free existing memory if allocated
if (*cpuStatus) {
free(*cpuStatus);
*cpuStatus = NULL;
}
// Allocate the required memory
*cpuStatus = (CPUStatusPart *) malloc(count * sizeof(CPUStatusPart));
if (!*cpuStatus) return; // Memory allocation failed
int index = 0;
strncpy((*cpuStatus)[index].name, "PC", sizeof((*cpuStatus)[index].name));
(*cpuStatus)[index].value = cpu->pc;
index++;
strncpy((*cpuStatus)[index].name, "SP", sizeof((*cpuStatus)[index].name));
(*cpuStatus)[index].value = cpu->stack_ptr;
index++;
strncpy((*cpuStatus)[index].name, "FLG", sizeof((*cpuStatus)[index].name));
(*cpuStatus)[index].value = cpu->flags;
index++;
strncpy((*cpuStatus)[index].name, "MOD", sizeof((*cpuStatus)[index].name));
(*cpuStatus)[index].value = cpu->mode;
index++;
strncpy((*cpuStatus)[index].name, "CYC", sizeof((*cpuStatus)[index].name));
(*cpuStatus)[index].value = cpu->cycle;
index++;
for (int i = 0; i < 25; i++) {
snprintf((*cpuStatus)[index].name, sizeof((*cpuStatus)[index].name), "R%d", i);
(*cpuStatus)[index].value = cpu->regs[i];
index++;
}
*cpuStatusCount = index; // Store the actual number of status parts
}
SDL_Texture *renderState(CPU *cpu, BitmapFont *titleFont, SDL_Renderer *renderer) {
// Render the value
char valueStr[20] = "";
if (cpu->mode & CPU_MODE_ERROR) {
strcat(valueStr, "ERR ");
} else if (cpu->mode & CPU_MODE_HALTED) {
strcat(valueStr, "HLT ");
} else if (cpu->mode & CPU_MODE_PAUSED) {
strcat(valueStr, "PAUS ");
} else {
strcat(valueStr, "RUN ");
}
if (cpu->mode & CPU_MODE_LOOP) {
strcat(valueStr, "LOOP ");
} else {
strcat(valueStr, "ONCE ");
}
if (cpu->mode & CPU_MODE_STEP) {
strcat(valueStr, "STP");
} else if (cpu->mode & CPU_MODE_SECOND) {
strcat(valueStr, "SEC");
} else {
strcat(valueStr, "BRR");
}
const int oneFieldW = (titleFont->size + 1);
const int allFieldW = oneFieldW * strlen(valueStr);
const int oneFieldH = (titleFont->size + 1);
SDL_Texture *out = SDL_CreateTexture(renderer, SDL_PIXELFORMAT_RGBA8888, SDL_TEXTUREACCESS_TARGET,
allFieldW, oneFieldH);
SDL_SetRenderTarget(renderer, out);
SDL_SetRenderDrawColor(renderer, 0, 0, 0, 255);
SDL_RenderClear(renderer);
SDL_Rect rect = {0, 0, allFieldW, oneFieldH};
SDL_SetRenderDrawColor(renderer, 50, 50, 50, 255);
SDL_RenderFillRect(renderer, &rect);
int x = 0;
for (int j = 0; valueStr[j] != '\0'; j++) {
SDL_Texture *charTex = titleFont->texture[(uint8_t) valueStr[j]];
if (charTex) {
SDL_Rect dstRect = {x, 0, titleFont->size, titleFont->size};
x += titleFont->size + 1;
SDL_RenderCopy(renderer, charTex, NULL, &dstRect);
}
}
SDL_SetRenderTarget(renderer, NULL);
return out;
}

23
util/cpustatusui.h Normal file
View File

@@ -0,0 +1,23 @@
//
// Created by bruno on 8.2.2025.
//
#ifndef RISCB_CPUSTATUSUI_H
#define RISCB_CPUSTATUSUI_H
#include "font.h"
#include "../cpu/core.h"
typedef struct {
char name[4];
uint32_t value;
} CPUStatusPart;
SDL_Texture *renderVals(CPU *cpu, BitmapFont *titleFont, BitmapFont *valueFont,
SDL_Renderer *renderer);
SDL_Texture *renderState(CPU *cpu, BitmapFont *titleFont, SDL_Renderer *renderer);
void getStats(CPU *cpu, CPUStatusPart **cpuStatus, int *cpuStatusCount);
#endif //RISCB_CPUSTATUSUI_H

11
util/font.c
View File

@@ -10,13 +10,13 @@ prepText(SDL_Renderer *renderer, unsigned char pxSize, const char *file, uint8_t
BitmapFont out; BitmapFont out;
out.size = pxSize; out.size = pxSize;
out.color = (SDL_Color) {r, g, b, a}; out.color = (SDL_Color) {r, g, b, a};
unsigned char i = 0; unsigned int i = 1;
do { do {
char tmpOut[2] = {i, 0}; char tmpOut[2] = {i, 0};
out.surface[i] = TTF_RenderText_Solid(gFont, tmpOut, out.color); out.surface[i] = TTF_RenderText_Solid(gFont, tmpOut, out.color);
out.texture[i] = SDL_CreateTextureFromSurface(renderer, out.surface[i]); out.texture[i] = SDL_CreateTextureFromSurface(renderer, out.surface[i]);
i++; i++;
} while (i < 255); } while (i < 256);
TTF_CloseFont(gFont); TTF_CloseFont(gFont);
return out; return out;
@@ -43,4 +43,11 @@ void renderText(SDL_Renderer *renderer, BitmapFont font, char *string, uint16_t
outRect.x += charRect.w + 1; outRect.x += charRect.w + 1;
string++; string++;
} }
}
void destroyFont(BitmapFont *font) {
for (uint16_t i = 1; i < 256; i++) {
SDL_DestroyTexture(font->texture[i]);
SDL_FreeSurface(font->surface[i]);
}
} }

2
util/font.h
View File

@@ -19,6 +19,8 @@ typedef struct {
BitmapFont BitmapFont
prepText(SDL_Renderer *renderer, unsigned char pxSize, const char *file, uint8_t r, uint8_t g, uint8_t b, uint8_t a); prepText(SDL_Renderer *renderer, unsigned char pxSize, const char *file, uint8_t r, uint8_t g, uint8_t b, uint8_t a);
void destroyFont(BitmapFont *font);
void renderText(SDL_Renderer *renderer, BitmapFont font, char *string, uint16_t x, uint16_t y); void renderText(SDL_Renderer *renderer, BitmapFont font, char *string, uint16_t x, uint16_t y);
#endif //RISCB_FONT_H #endif //RISCB_FONT_H

50
util/hexdump.c Normal file
View File

@@ -0,0 +1,50 @@
//
// Created by bruno on 6.2.2025.
//
#include "hexdump.h"
#include <stdio.h>
#include <ctype.h>
#include <malloc.h>
#define BYTES_PER_LINE 16 // Adjust for different widths
char *hexdump_to_string(const unsigned char *data, size_t size) {
// Estimate max output size: each line is approx. 80 chars
size_t estimated_size = (size / BYTES_PER_LINE + 1) * 80;
// Allocate memory for output string
char *output = malloc(estimated_size);
if (!output) return NULL;
size_t offset = 0; // Track the write position
for (size_t i = 0; i < size; i += BYTES_PER_LINE) {
offset += snprintf(output + offset, estimated_size - offset, "%08zx ", i);
// Print hex values
for (size_t j = 0; j < BYTES_PER_LINE; j++) {
if (i + j < size)
offset += snprintf(output + offset, estimated_size - offset, "%02x ", data[i + j]);
else
offset += snprintf(output + offset, estimated_size - offset, " "); // Padding
if (j == 7) offset += snprintf(output + offset, estimated_size - offset, " "); // Extra space
}
offset += snprintf(output + offset, estimated_size - offset, " |");
// Print ASCII representation
for (size_t j = 0; j < BYTES_PER_LINE; j++) {
if (i + j < size)
offset += snprintf(output + offset, estimated_size - offset, "%c",
isprint(data[i + j]) ? data[i + j] : '.');
else
offset += snprintf(output + offset, estimated_size - offset, " ");
}
offset += snprintf(output + offset, estimated_size - offset, "|\n");
}
return output;
}

12
util/hexdump.h Normal file
View File

@@ -0,0 +1,12 @@
//
// Created by bruno on 6.2.2025.
//
#ifndef RISCB_HEXDUMP_H
#define RISCB_HEXDUMP_H
#include <stddef.h>
char *hexdump_to_string(const unsigned char *data, size_t size);
#endif //RISCB_HEXDUMP_H

333
util/texteditor.c
View File

@@ -1,62 +1,120 @@
/// //
// Created by bruno on 5.2.2025. // Created by bruno on 5.2.2025.
/// // Modified to use dynamic limits.
//
#include "texteditor.h" #include "texteditor.h"
#include "font.h" #include "font.h"
// Initialize the text editor // Initialize the text editor with dynamic sizes.
void init_editor(TextEditor *editor, BitmapFont *font, int x, int y, SDL_Renderer *renderer) { void init_editor(TextEditor *editor, BitmapFont *font, int x, int y, SDL_Renderer *renderer,
for (int i = 0; i < MAX_LINES_ASM; i++) { int max_line_width, int max_lines_asm, int max_lines_display, bool readOnly) {
editor->lines[i].text[0] = '\0'; // Empty string editor->max_line_width = max_line_width;
editor->lines[i].active = 0; editor->max_lines_asm = max_lines_asm;
} editor->max_lines_display = max_lines_display;
editor->lines[0].active = 1; editor->line_count = 0;
editor->line_count = 1;
editor->cursor_line = 0; editor->cursor_line = 0;
editor->cursor_line_offset = 0; editor->cursor_line_offset = 0;
editor->cursor_pos = 0; editor->cursor_pos = 0;
editor->readOnly = 0; editor->readOnly = readOnly;
editor->rect.x = 2;
editor->rect.y = 2;
editor->rect.w = MAX_LINE_WIDTH * (font->size + 1);
editor->rect.h = MAX_LINES_DISPLAY * (font->size + 4);
editor->outRect = editor->rect;
editor->outRect.x = x;
editor->outRect.y = y;
editor->font = font; editor->font = font;
editor->texture = SDL_CreateTexture(renderer, SDL_PIXELFORMAT_RGBA8888, SDL_TEXTUREACCESS_TARGET, editor->rect.w,
editor->rect.h); editor->outRect = malloc(sizeof(SDL_Rect));
editor->cursorRect = malloc(sizeof(SDL_Rect));
editor->rect = malloc(sizeof(SDL_Rect));
memset(editor->outRect, 0, sizeof(SDL_Rect));
memset(editor->cursorRect, 0, sizeof(SDL_Rect));
memset(editor->rect, 0, sizeof(SDL_Rect));
// Allocate dynamic array for lines.
editor->lines = (Line *) malloc(sizeof(Line) * editor->max_lines_asm);
if (!editor->lines) {
fprintf(stderr, "Failed to allocate memory for lines.\n");
exit(EXIT_FAILURE);
}
// For each line, allocate memory for the text (including space for '\0')
for (int i = 0; i < editor->max_lines_asm; i++) {
editor->lines[i].text = (char *) malloc(sizeof(char) * (editor->max_line_width + 1));
if (!editor->lines[i].text) {
fprintf(stderr, "Failed to allocate memory for line %d.\n", i);
exit(EXIT_FAILURE);
}
editor->lines[i].text[0] = '\0';
editor->lines[i].active = 0;
}
// Allocate output and display strings.
editor->outputString = (char *) malloc(sizeof(char) * (editor->max_line_width * editor->max_lines_asm + 1));
editor->displayString = (char *) malloc(sizeof(char) * (editor->max_line_width * editor->max_lines_display + 1));
if (!editor->outputString || !editor->displayString) {
fprintf(stderr, "Failed to allocate memory for output/display strings.\n");
exit(EXIT_FAILURE);
}
editor->outputString[0] = '\0';
editor->displayString[0] = '\0';
// Initialize with two active lines (like the original code).
editor->lines[0].active = 1;
editor->lines[1].active = 1;
editor->line_count = 2;
// Set up the editor rectangle based on font size and dynamic max_line_width and max_lines_display.
editor->rect->x = 2;
editor->rect->y = 2;
editor->rect->w = editor->max_line_width * (font->size + 1) + ((font->size + 1) / 2);
editor->rect->h = editor->max_lines_display * (font->size + 1) + 2;
editor->outRect->w = editor->rect->w;
editor->outRect->h = editor->rect->h;
editor->outRect->x = x;
editor->outRect->y = y;
editor->cursorRect->x = 3 + editor->cursor_pos * font->size + editor->outRect->x;
editor->cursorRect->y =
2 + (editor->cursor_line - editor->cursor_line_offset) * (font->size + 1) + editor->outRect->y;
editor->cursorRect->w = 2;
editor->cursorRect->h = editor->font->size;
// Create texture for rendering.
editor->texture = SDL_CreateTexture(renderer, SDL_PIXELFORMAT_RGBA8888,
SDL_TEXTUREACCESS_TARGET,
editor->rect->w, editor->rect->h);
if (!editor->texture) {
fprintf(stderr, "Failed to create texture: %s\n", SDL_GetError());
exit(EXIT_FAILURE);
}
} }
// Insert a new line at a specific position // Insert a new line at a specific position.
void insert_line(TextEditor *editor, int position, const char *text, SDL_Renderer *renderer) { void insert_line(TextEditor *editor, int position, const char *text, SDL_Renderer *renderer) {
if (editor->line_count >= MAX_LINES_ASM || position < 0 || position > editor->line_count) { if (editor->line_count >= editor->max_lines_asm || position < 0 || position > editor->line_count) {
printf("Invalid position or max lines reached!\n"); printf("Invalid position or max lines reached!\n");
return; return;
} }
// Shift lines down if necessary // Shift lines down.
for (int i = editor->line_count; i > position; i--) { for (int i = editor->line_count; i > position; i--) {
strcpy(editor->lines[i].text, editor->lines[i - 1].text); strcpy(editor->lines[i].text, editor->lines[i - 1].text);
editor->lines[i].active = editor->lines[i - 1].active; editor->lines[i].active = editor->lines[i - 1].active;
} }
strncpy(editor->lines[position].text, text, MAX_LINE_WIDTH); // Copy the text into the new line, ensuring it does not exceed max_line_width.
editor->lines[position].text[MAX_LINE_WIDTH] = '\0'; // Ensure null termination strncpy(editor->lines[position].text, text, editor->max_line_width);
editor->lines[position].text[editor->max_line_width] = '\0';
editor->lines[position].active = 1; editor->lines[position].active = 1;
editor->line_count++; editor->line_count++;
move_cursor(editor, editor->cursor_line + 1, 0, false, renderer);
generate_string_display(editor, renderer); generate_string_display(editor, renderer);
} }
void insert_line_rel(TextEditor *editor, SDL_Renderer *renderer) { void insert_line_rel(TextEditor *editor, SDL_Renderer *renderer) {
insert_line(editor, editor->cursor_line + (editor->cursor_pos ? 1 : 0), "", renderer);
editor->cursor_pos = 0; editor->cursor_pos = 0;
insert_line(editor, editor->cursor_line + 1, "", renderer);
editor->cursor_line++;
} }
// Insert a character at the current cursor position
void insert_character(TextEditor *editor, char ch, SDL_Renderer *renderer) { void insert_character(TextEditor *editor, char ch, SDL_Renderer *renderer) {
if (editor->cursor_line < 0 || editor->cursor_line >= editor->line_count) { if (editor->cursor_line < 0 || editor->cursor_line >= editor->line_count) {
printf("Invalid cursor position!\n"); printf("Invalid cursor position!\n");
@@ -66,12 +124,12 @@ void insert_character(TextEditor *editor, char ch, SDL_Renderer *renderer) {
Line *line = &editor->lines[editor->cursor_line]; Line *line = &editor->lines[editor->cursor_line];
int len = strlen(line->text); int len = strlen(line->text);
if (len >= MAX_LINE_WIDTH || editor->cursor_pos > len) { if (len >= editor->max_line_width || editor->cursor_pos > len) {
printf("Position out of bounds or line is full!\n"); printf("Position out of bounds or line is full!\n");
return; return;
} }
// Shift characters to the right // Shift characters to the right.
for (int i = len; i >= editor->cursor_pos; i--) { for (int i = len; i >= editor->cursor_pos; i--) {
line->text[i + 1] = line->text[i]; line->text[i + 1] = line->text[i];
} }
@@ -81,139 +139,220 @@ void insert_character(TextEditor *editor, char ch, SDL_Renderer *renderer) {
generate_string_display(editor, renderer); generate_string_display(editor, renderer);
} }
void remove_character(TextEditor *editor, SDL_Renderer *renderer) { void remove_character(TextEditor *editor, bool isDelete, SDL_Renderer *renderer) {
if (editor->cursor_line < 0 || editor->cursor_line >= editor->line_count) { if (editor->cursor_line < 0 || editor->cursor_line >= editor->line_count) {
printf("Invalid cursor position!\n"); printf("Invalid cursor position!\n");
return; return;
} }
if (editor->cursor_pos == 0 && editor->line_count > 1) { Line *line = &editor->lines[editor->cursor_line];
// Remove the current line and shift lines up int len = strlen(line->text);
for (int i = editor->cursor_line; i < editor->line_count - 1; i++) {
strcpy(editor->lines[i].text, editor->lines[i + 1].text); if (isDelete) {
editor->lines[i].active = editor->lines[i + 1].active; // Delete character after cursor
if (editor->cursor_pos < len) {
for (int i = editor->cursor_pos; i < len; i++) {
line->text[i] = line->text[i + 1];
}
} }
editor->lines[editor->line_count - 1].text[0] = '\0';
editor->lines[editor->line_count - 1].active = 0;
editor->line_count--;
if (editor->cursor_line >= editor->line_count) {
editor->cursor_line = editor->line_count - 1;
}
editor->cursor_pos = strlen(editor->lines[editor->cursor_line].text);
} else { } else {
Line *line = &editor->lines[editor->cursor_line]; // Backspace behavior (delete character before cursor)
int len = strlen(line->text); if (editor->cursor_pos == 0 && editor->line_count > 1) {
// Merge with the previous line
if (editor->cursor_pos <= 0 || editor->cursor_pos > len) { for (int i = editor->cursor_line; i < editor->line_count - 1; i++) {
printf("Position out of bounds!\n"); strcpy(editor->lines[i].text, editor->lines[i + 1].text);
return; editor->lines[i].active = editor->lines[i + 1].active;
}
editor->lines[editor->line_count - 1].text[0] = '\0';
editor->lines[editor->line_count - 1].active = 0;
editor->line_count--;
if (editor->cursor_line >= editor->line_count) {
editor->cursor_line = editor->line_count - 1;
}
editor->cursor_pos = strlen(editor->lines[editor->cursor_line].text);
} else if (editor->cursor_pos > 0) {
for (int i = editor->cursor_pos - 1; i < len; i++) {
line->text[i] = line->text[i + 1];
}
editor->cursor_pos--;
} }
// Shift characters to the left to remove the character
for (int i = editor->cursor_pos - 1; i < len; i++) {
line->text[i] = line->text[i + 1];
}
editor->cursor_pos--;
} }
generate_string_display(editor, renderer); generate_string_display(editor, renderer);
} }
// Move cursor void move_cursor_relative(TextEditor *editor, int line_offset, int pos_offset, bool keepPos, SDL_Renderer *renderer) {
void move_cursor_relative(TextEditor *editor, int line_offset, int pos_offset) {
int new_line = editor->cursor_line + line_offset; int new_line = editor->cursor_line + line_offset;
int new_pos = editor->cursor_pos + pos_offset; int new_pos = editor->cursor_pos + pos_offset;
if (new_line < 0) new_line = 0; move_cursor(editor, new_line, new_pos, keepPos, renderer);
if (new_line >= editor->line_count) new_line = editor->line_count - 1;
move_cursor(editor, new_line, new_pos);
} }
// Move cursor void move_cursor(TextEditor *editor, int new_line, int new_pos, bool keepPos, SDL_Renderer *renderer) {
void move_cursor(TextEditor *editor, int new_line, int new_pos) {
if (new_line < 0) new_line = 0; if (new_line < 0) new_line = 0;
if (new_line >= editor->line_count) new_line = editor->line_count - 1; if (new_line >= editor->line_count) new_line = editor->line_count - 1;
if (keepPos) {
editor->cursor_line_offset = new_line;
}
if (new_line < editor->cursor_line_offset) {
editor->cursor_line_offset = new_line;
}
if (new_line >= editor->cursor_line_offset + editor->max_lines_display) {
editor->cursor_line_offset = new_line - editor->max_lines_display + 1;
}
int line_length = strlen(editor->lines[new_line].text); int line_length = strlen(editor->lines[new_line].text);
if (new_pos < 0) new_pos = 0; if (new_pos < 0) new_pos = 0;
if (new_pos > line_length) new_pos = line_length; if (new_pos > line_length) new_pos = line_length;
editor->cursor_line = new_line; editor->cursor_line = new_line;
editor->cursor_pos = new_pos; editor->cursor_pos = new_pos;
generate_string_display(editor, renderer);
} }
// Generate a string from a given offset with a max line count
void generate_string_display(TextEditor *editor, SDL_Renderer *renderer) { void generate_string_display(TextEditor *editor, SDL_Renderer *renderer) {
if (editor->cursor_line_offset < 0 || editor->cursor_line_offset >= editor->line_count) { if (editor->cursor_line_offset < 0 || editor->cursor_line_offset >= editor->line_count) {
printf("Invalid start line!\n"); printf("Invalid start line!\n");
return; return;
} }
int end_line = editor->cursor_line_offset + MAX_LINES_DISPLAY; int end_line = editor->cursor_line_offset + editor->max_lines_display;
if (end_line > editor->line_count) end_line = editor->line_count; if (end_line > editor->line_count)
end_line = editor->line_count;
// Clear the display string.
memset(editor->displayString, 0, sizeof(editor->displayString)); editor->displayString[0] = '\0';
SDL_SetRenderTarget(renderer, editor->texture); SDL_SetRenderTarget(renderer, editor->texture);
SDL_SetRenderDrawColor(renderer, 0, 0, 0, 255); SDL_SetRenderDrawColor(renderer, 0, 0, 0, 255);
SDL_RenderClear(renderer); SDL_RenderClear(renderer);
SDL_Rect charDstRect;
charDstRect.x = 4;
charDstRect.y = 3;
charDstRect.w = editor->font->size;
charDstRect.h = editor->font->size;
SDL_Rect charRect; SDL_Rect charRect;
charRect.x = 0; charRect.x = 0;
charRect.y = 0; charRect.y = 0;
charRect.w = editor->font->size; charRect.w = editor->font->size;
charRect.h = editor->font->size; charRect.h = editor->font->size;
SDL_Rect outRect = charRect;
outRect.x = 3;
outRect.y = 2;
SDL_Rect cursorRect; editor->cursorRect->x = 3 + editor->cursor_pos * (charDstRect.w + 1) + editor->outRect->x;
cursorRect.x = 0; editor->cursorRect->y =
cursorRect.y = 0; 2 + (editor->cursor_line - editor->cursor_line_offset) * (charDstRect.h + 1) + editor->outRect->y;
cursorRect.w = 1;
cursorRect.h = editor->font->size;
for (int line = editor->cursor_line_offset; line < end_line; line++) { for (int line = editor->cursor_line_offset; line < end_line; line++) {
if (editor->lines[line].active) { if (editor->lines[line].active) {
strcat(editor->displayString, editor->lines[line].text); strcat(editor->displayString, editor->lines[line].text);
char *linePTR = editor->lines[line].text; char *linePTR = editor->lines[line].text;
int charIndex = 0;
while (*linePTR) { while (*linePTR) {
SDL_RenderCopy(renderer, editor->font->texture[*linePTR], &charRect, &outRect); SDL_RenderCopy(renderer, editor->font->texture[(unsigned char) *linePTR], &charRect, &charDstRect);
outRect.x += charRect.w + 1; charDstRect.x += charDstRect.w + 1;
if (line == editor->cursor_line && charIndex == editor->cursor_pos - 1) {
cursorRect.x = outRect.x;
cursorRect.y = outRect.y;
}
charIndex++;
linePTR++; linePTR++;
} }
strcat(editor->displayString, "\n"); strcat(editor->displayString, "\n");
outRect.x = 3; charDstRect.x = 4;
outRect.y += charRect.h + 1; charDstRect.y += charDstRect.h + 1;
} }
} }
SDL_SetRenderDrawColor(renderer, 255, 255, 255, 255);
SDL_RenderFillRect(renderer, &cursorRect);
SDL_SetRenderTarget(renderer, NULL); SDL_SetRenderTarget(renderer, NULL);
} }
void editor_render(TextEditor *editor, SDL_Renderer *renderer) { void editor_render(TextEditor *editor, SDL_Renderer *renderer, bool isActive, bool cursorBlink) {
SDL_RenderCopy(renderer, editor->texture, &editor->rect, &editor->outRect); if (isActive) {
SDL_Rect bgRect;
bgRect = *editor->outRect;
bgRect.x -= 6;
bgRect.y -= 6;
bgRect.w += 12;
bgRect.h += 12;
SDL_SetRenderDrawColor(renderer, editor->readOnly ? 128 : 0, editor->readOnly ? 0 : 128, 64, 255);
SDL_RenderFillRect(renderer, &bgRect);
}
SDL_RenderCopy(renderer, editor->texture, editor->rect, editor->outRect);
if (isActive && cursorBlink) {
SDL_SetRenderDrawColor(renderer, 0, 255, 255, 255);
SDL_RenderFillRect(renderer, editor->cursorRect);
}
} }
// Generate a string for assembling
void generate_string(TextEditor *editor) { void generate_string(TextEditor *editor) {
memset(editor->outputString, 0, sizeof(editor->outputString)); editor->outputString[0] = '\0';
for (int i = 0; i < MAX_LINES_ASM; i++) { for (int i = 0; i < editor->max_lines_asm; i++) {
if (editor->lines[i].active) { if (editor->lines[i].active) {
strcat(editor->outputString, editor->lines[i].text); if (strlen(editor->lines[i].text)) {
strcat(editor->outputString, "\n"); strcat(editor->outputString, editor->lines[i].text);
strcat(editor->outputString, "\n");
}
} }
} }
} }
void fill_editor_from_string(TextEditor *editor, const char *content, SDL_Renderer *renderer) {
if (!editor || !content) {
printf("Invalid editor or content pointer!\n");
return;
}
// Clear the current editor content
for (int i = 0; i < editor->max_lines_asm; i++) {
editor->lines[i].text[0] = '\0';
editor->lines[i].active = 0;
}
editor->line_count = 0;
editor->cursor_line = 0;
editor->cursor_pos = 0;
// Parse the content and fill the editor lines
const char *ptr = content;
int line_index = 0;
while (*ptr && line_index < editor->max_lines_asm) {
int char_count = 0;
// Ensure the text buffer does not overflow
while (*ptr && *ptr != '\n' && char_count < editor->max_line_width - 1) {
editor->lines[line_index].text[char_count++] = *ptr++;
}
editor->lines[line_index].text[char_count] = '\0'; // Null-terminate
editor->lines[line_index].active = 1;
line_index++;
// Move past the newline character if present
if (*ptr == '\n') ptr++;
}
// Update the total number of lines in use
editor->line_count = line_index;
// Generate the visual representation
generate_string_display(editor, renderer);
}
// Free all dynamically allocated memory.
void destroy_editor(TextEditor *editor) {
if (editor->lines) {
for (int i = 0; i < editor->max_lines_asm; i++) {
free(editor->lines[i].text);
}
free(editor->lines);
}
free(editor->outputString);
free(editor->displayString);
free(editor->outRect);
free(editor->rect);
free(editor->cursorRect);
if (editor->texture) {
SDL_DestroyTexture(editor->texture);
}
}

67
util/texteditor.h
View File

@@ -1,67 +1,72 @@
/// //
// Created by bruno on 5.2.2025. // Created by bruno on 5.2.2025.
/// // Modified to use dynamic limits.
//
#ifndef RISCB_TEXTEDITOR_H #ifndef RISCB_TEXTEDITOR_H
#define RISCB_TEXTEDITOR_H #define RISCB_TEXTEDITOR_H
#define MAX_LINE_WIDTH 34 // Max chars per line (excluding '\0')
#define MAX_LINES_ASM 100 // Max number of lines
#define MAX_LINES_DISPLAY 10 // Max number of lines
#include <stdio.h> #include <stdio.h>
#include <stdlib.h> #include <stdlib.h>
#include <string.h> #include <string.h>
#include <stdbool.h>
#include <SDL2/SDL_rect.h> #include <SDL2/SDL_rect.h>
#include <SDL2/SDL_surface.h> #include <SDL2/SDL_surface.h>
#include <SDL2/SDL_render.h> #include <SDL2/SDL_render.h>
#include "font.h" #include "font.h"
typedef struct { typedef struct {
char text[MAX_LINE_WIDTH + 1]; // +1 for null terminator char *text; // Dynamically allocated string for this line
int active; // Flag to check if the line is in use int active; // Flag to check if the line is in use
} Line; } Line;
typedef struct { typedef struct {
Line lines[MAX_LINES_ASM]; // Array of lines Line *lines; // Dynamic array of lines
int line_count; // Number of active lines int line_count; // Number of active lines
int cursor_line; // Current cursor line int max_lines_asm; // Maximum number of lines (e.g. assembly lines)
int cursor_line_offset; // Current cursor line int max_line_width; // Maximum characters per line (excluding '\0')
int cursor_pos; // Current cursor position in line int max_lines_display; // Maximum number of lines for display
char outputString[MAX_LINE_WIDTH * MAX_LINES_ASM];
char displayString[MAX_LINE_WIDTH * MAX_LINES_DISPLAY]; int cursor_line; // Current cursor line
SDL_Rect rect; int cursor_line_offset; // Display offset (first line in the display)
SDL_Rect outRect; int cursor_pos; // Current cursor position in line
char *outputString; // Dynamically allocated output string (size: max_line_width * max_lines_asm + 1)
char *displayString; // Dynamically allocated display string (size: max_line_width * max_lines_display + 1)
SDL_Rect *rect;
SDL_Rect *outRect;
SDL_Texture *texture; SDL_Texture *texture;
bool readOnly; bool readOnly;
BitmapFont *font; BitmapFont *font;
SDL_Rect *cursorRect;
} TextEditor; } TextEditor;
// Initialize the text editor // Initialize the text editor. The parameters max_line_width, max_lines_asm, and max_lines_display
void init_editor(TextEditor *editor, BitmapFont *font, int x, int y, SDL_Renderer *renderer); // determine the dynamic sizes for the text editor.
void init_editor(TextEditor *editor, BitmapFont *font, int x, int y, SDL_Renderer *renderer,
int max_line_width, int max_lines_asm, int max_lines_display, bool readOnly);
// Insert a new line at a specific position // Other function prototypes remain mostly unchanged but will use the dynamic limits:
void insert_line(TextEditor *editor, int position, const char *text, SDL_Renderer *renderer); void insert_line(TextEditor *editor, int position, const char *text, SDL_Renderer *renderer);
// Insert a new line at a specific position
void insert_line_rel(TextEditor *editor, SDL_Renderer *renderer); void insert_line_rel(TextEditor *editor, SDL_Renderer *renderer);
void editor_render(TextEditor *editor, SDL_Renderer * renderer); void editor_render(TextEditor *editor, SDL_Renderer *renderer, bool isActive, bool cursorBlink);
void remove_character(TextEditor *editor, SDL_Renderer *renderer); void remove_character(TextEditor *editor, bool isDelete, SDL_Renderer *renderer);
// Insert a character at the current cursor position
void insert_character(TextEditor *editor, char ch, SDL_Renderer *renderer); void insert_character(TextEditor *editor, char ch, SDL_Renderer *renderer);
// Move cursor (handled externally) void move_cursor(TextEditor *editor, int new_line, int new_pos, bool keepPos, SDL_Renderer *renderer);
void move_cursor(TextEditor *editor, int new_line, int new_pos);
// Move cursor (handled externally) void move_cursor_relative(TextEditor *editor, int line_offset, int pos_offset, bool keepPos, SDL_Renderer *renderer);
void move_cursor_relative(TextEditor *editor, int line_offset, int pos_offset);
// Generate a string from a given offset with a max line count
void generate_string_display(TextEditor *editor, SDL_Renderer *renderer); void generate_string_display(TextEditor *editor, SDL_Renderer *renderer);
void generate_string(TextEditor *editor); void generate_string(TextEditor *editor);
#endif //RISCB_TEXTEDITOR_H void fill_editor_from_string(TextEditor *editor, const char *content, SDL_Renderer *renderer);
// A cleanup function to free dynamically allocated memory.
void destroy_editor(TextEditor *editor);
#endif // RISCB_TEXTEDITOR_H