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Merge branch 'master' (early part) into medusa

This commit is contained in:
Vicki Pfau 2019-06-28 17:19:06 -07:00
parent 23609b4a88 a04cb97653
commit cc429330c7
15 changed files with 297 additions and 278 deletions
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4
CHANGES
View File

@ -32,6 +32,8 @@ Emulation fixes:
- GB Video: Delay LYC STAT check (fixes mgba.io/i/1331)
- GB Video: Fix window being enabled mid-scanline (fixes mgba.io/i/1328)
- GB I/O: Filter IE top bits properly (fixes mgba.io/i/1329)
- GBA Video: Fix scanline cache with scale factor change edge cases
- GBA DMA: Fix DMA0-2 lengths (fixes mgba.io/i/1344)
Other fixes:
- Qt: More app metadata fixes
- Qt: Fix load recent from archive (fixes mgba.io/i/1325)
@ -45,6 +47,8 @@ Misc:
- Qt: Add missing HEVC NVENC option (fixes mgba.io/i/1323)
- LR35902: Support PC-relative opcode decoding
- Qt: Improve camera initialization
- Qt: Support switching webcams
- Core: Add keysRead callback
0.7.1: (2019-02-24)
Bugfixes:

1
include/mgba/core/interface.h
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@ -86,6 +86,7 @@ struct mCoreCallbacks {
void (*videoFrameEnded)(void* context);
void (*coreCrashed)(void* context);
void (*sleep)(void* context);
void (*keysRead)(void* context);
};
DECLARE_VECTOR(mCoreCallbacksList, struct mCoreCallbacks);

124
src/debugger/cli-debugger.c
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@ -28,6 +28,8 @@ const char* ERROR_MISSING_ARGS = "Arguments missing"; // TODO: share
const char* ERROR_OVERFLOW = "Arguments overflow";
const char* ERROR_INVALID_ARGS = "Invalid arguments";
static struct ParseTree* _parseTree(const char** string);
#if !defined(NDEBUG) && !defined(_WIN32)
static void _breakInto(struct CLIDebugger*, struct CLIDebugVector*);
#endif
@ -84,12 +86,12 @@ static struct CLIDebuggerCommandSummary _debuggerCommands[] = {
{ "listw", _listWatchpoints, "", "List watchpoints" },
{ "n", _next, "", "Execute next instruction" },
{ "next", _next, "", "Execute next instruction" },
{ "p", _print, "I", "Print a value" },
{ "p/t", _printBin, "I", "Print a value as binary" },
{ "p/x", _printHex, "I", "Print a value as hexadecimal" },
{ "print", _print, "I", "Print a value" },
{ "print/t", _printBin, "I", "Print a value as binary" },
{ "print/x", _printHex, "I", "Print a value as hexadecimal" },
{ "p", _print, "S+", "Print a value" },
{ "p/t", _printBin, "S+", "Print a value as binary" },
{ "p/x", _printHex, "S+", "Print a value as hexadecimal" },
{ "print", _print, "S+", "Print a value" },
{ "print/t", _printBin, "S+", "Print a value as binary" },
{ "print/x", _printHex, "S+", "Print a value as hexadecimal" },
{ "q", _quit, "", "Quit the emulator" },
{ "quit", _quit, "", "Quit the emulator" },
{ "reset", _reset, "", "Reset the emulation" },
@ -158,33 +160,72 @@ static void _disassemble(struct CLIDebugger* debugger, struct CLIDebugVector* dv
debugger->system->disassemble(debugger->system, dv);
}
static void _print(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
for (; dv; dv = dv->next) {
if (dv->segmentValue >= 0) {
debugger->backend->printf(debugger->backend, " $%02X:%04X", dv->segmentValue, dv->intValue);
continue;
}
debugger->backend->printf(debugger->backend, " %u", dv->intValue);
static bool _parseExpression(struct mDebugger* debugger, struct CLIDebugVector* dv, int32_t* intValue, int* segmentValue) {
size_t args = 0;
struct CLIDebugVector* accum;
for (accum = dv; accum; accum = accum->next) {
++args;
}
const char** arglist = malloc(sizeof(const char*) * (args + 1));
args = 0;
for (accum = dv; accum; accum = accum->next) {
arglist[args] = accum->charValue;
++args;
}
arglist[args] = NULL;
struct ParseTree* tree = _parseTree(arglist);
free(arglist);
if (!tree) {
return false;
}
if (!mDebuggerEvaluateParseTree(debugger, tree, intValue, segmentValue)) {
parseFree(tree);
free(tree);
return false;
}
parseFree(tree);
free(tree);
return true;
}
static void _print(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
int32_t intValue = 0;
int segmentValue = -1;
if (!_parseExpression(&debugger->d, dv, &intValue, &segmentValue)) {
debugger->backend->printf(debugger->backend, "Parse error\n");
return;
}
if (segmentValue >= 0) {
debugger->backend->printf(debugger->backend, " $%02X:%04X\n", segmentValue, intValue);
} else {
debugger->backend->printf(debugger->backend, " %u\n", intValue);
}
debugger->backend->printf(debugger->backend, "\n");
}
static void _printBin(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
for (; dv; dv = dv->next) {
debugger->backend->printf(debugger->backend, " 0b");
int i = 32;
while (i--) {
debugger->backend->printf(debugger->backend, "%u", (dv->intValue >> i) & 1);
}
int32_t intValue = 0;
int segmentValue = -1;
if (!_parseExpression(&debugger->d, dv, &intValue, &segmentValue)) {
debugger->backend->printf(debugger->backend, "Parse error\n");
return;
}
debugger->backend->printf(debugger->backend, " 0b");
int i = 32;
while (i--) {
debugger->backend->printf(debugger->backend, "%u", (intValue >> i) & 1);
}
debugger->backend->printf(debugger->backend, "\n");
}
static void _printHex(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
for (; dv; dv = dv->next) {
debugger->backend->printf(debugger->backend, " 0x%08X", dv->intValue);
int32_t intValue = 0;
int segmentValue = -1;
if (!_parseExpression(&debugger->d, dv, &intValue, &segmentValue)) {
debugger->backend->printf(debugger->backend, "Parse error\n");
return;
}
debugger->backend->printf(debugger->backend, "\n");
debugger->backend->printf(debugger->backend, " 0x%08X\n", intValue);
}
static void _printHelp(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
@ -460,31 +501,31 @@ static void _source(struct CLIDebugger* debugger, struct CLIDebugVector* dv) {
}
#endif
static struct ParseTree* _parseTree(const char* string) {
static struct ParseTree* _parseTree(const char** string) {
struct LexVector lv;
bool error = false;
LexVectorInit(&lv, 0);
size_t length = strlen(string);
size_t adjusted = lexExpression(&lv, string, length, NULL);
struct ParseTree* tree = malloc(sizeof(*tree));
if (!adjusted) {
error = true;
} else {
parseLexedExpression(tree, &lv);
if (adjusted > length) {
size_t i;
for (i = 0; string[i]; ++i) {
size_t length = strlen(string[i]);
size_t adjusted = lexExpression(&lv, string[i], length, NULL);
if (!adjusted || adjusted > length) {
error = true;
} else {
length -= adjusted;
string += adjusted;
}
}
struct ParseTree* tree = NULL;
if (!error) {
tree = malloc(sizeof(*tree));
parseLexedExpression(tree, &lv);
}
lexFree(&lv);
LexVectorClear(&lv);
LexVectorDeinit(&lv);
if (error) {
parseFree(tree);
free(tree);
if (tree) {
parseFree(tree);
free(tree);
}
return NULL;
} else {
return tree;
@ -502,7 +543,7 @@ static void _setBreakpoint(struct CLIDebugger* debugger, struct CLIDebugVector*
.type = BREAKPOINT_HARDWARE
};
if (dv->next && dv->next->type == CLIDV_CHAR_TYPE) {
struct ParseTree* tree = _parseTree(dv->next->charValue);
struct ParseTree* tree = _parseTree((const char*[]) { dv->next->charValue, NULL });
if (tree) {
breakpoint.condition = tree;
} else {
@ -528,7 +569,7 @@ static void _setWatchpoint(struct CLIDebugger* debugger, struct CLIDebugVector*
.type = type
};
if (dv->next && dv->next->type == CLIDV_CHAR_TYPE) {
struct ParseTree* tree = _parseTree(dv->next->charValue);
struct ParseTree* tree = _parseTree((const char*[]) { dv->next->charValue, NULL });
if (tree) {
watchpoint.condition = tree;
} else {
@ -746,10 +787,11 @@ static int _tryCommands(struct CLIDebugger* debugger, struct CLIDebuggerCommandS
if (commands[i].format[arg] == '+') {
dvNext = _parseArg(debugger, args, adjusted, lastArg);
--args;
--arg;
} else {
nextArgMandatory = isupper(commands[i].format[arg]) || (commands[i].format[arg] == '*');
dvNext = _parseArg(debugger, args, adjusted, commands[i].format[arg]);
lastArg = commands[i].format[arg];
}
args += adjusted;

105
src/debugger/parser.c
View File

@ -21,7 +21,6 @@ enum LexState {
LEX_EXPECT_HEX_FIRST,
LEX_EXPECT_HEX,
LEX_EXPECT_PREFIX,
LEX_EXPECT_OPERATOR,
LEX_EXPECT_OPERATOR2,
};
@ -91,31 +90,6 @@ static void _lexOperator(struct LexVector* lv, char operator, enum LexState* sta
}
*state = LEX_ERROR;
}
if (*state == LEX_ROOT || *state == LEX_ERROR) {
struct Token lvNext;
lvNext.type = TOKEN_OPERATOR_TYPE;
*state = LEX_ROOT;
switch (operator) {
case '-':
lvNext.operatorValue = OP_NEGATE;
break;
case '~':
lvNext.operatorValue = OP_FLIP;
break;
case '!':
lvNext.operatorValue = OP_NOT;
break;
case '*':
lvNext.operatorValue = OP_DEREFERENCE;
break;
default:
lvNext.type = TOKEN_ERROR_TYPE;
*state = LEX_ERROR;
return;
}
*LexVectorAppend(lv) = lvNext;
return;
}
struct Token lvNext;
lvNext.type = TOKEN_OPERATOR_TYPE;
switch (operator) {
@ -155,6 +129,9 @@ static void _lexOperator(struct LexVector* lv, char operator, enum LexState* sta
case '!':
lvNext.operatorValue = OP_NOT;
break;
case '~':
lvNext.operatorValue = OP_FLIP;
break;
default:
*state = LEX_ERROR;
return;
@ -190,14 +167,14 @@ static void _lexValue(struct LexVector* lv, char token, uint32_t next, enum LexS
lvNext->uintValue = next;
lvNext = LexVectorAppend(lv);
lvNext->type = TOKEN_CLOSE_PAREN_TYPE;
*state = LEX_EXPECT_OPERATOR;
*state = LEX_ROOT;
break;
case ' ':
case '\t':
lvNext = LexVectorAppend(lv);
lvNext->type = TOKEN_UINT_TYPE;
lvNext->uintValue = next;
*state = LEX_EXPECT_OPERATOR;
*state = LEX_ROOT;
break;
default:
*state = LEX_ERROR;
@ -264,21 +241,30 @@ size_t lexExpression(struct LexVector* lv, const char* string, size_t length, co
state = LEX_EXPECT_HEX_FIRST;
next = 0;
break;
case '%':
state = LEX_EXPECT_BINARY_FIRST;
next = 0;
break;
case '(':
state = LEX_ROOT;
lvNext = LexVectorAppend(lv);
lvNext->type = TOKEN_OPEN_PAREN_TYPE;
break;
case '!':
case '=':
case '+':
case '-':
case '~':
case '*':
case '/':
case '%':
case '&':
case '|':
case '^':
case '<':
case '>':
case '!':
case '~':
_lexOperator(lv, token, &state);
break;
case ')':
lvNext = LexVectorAppend(lv);
lvNext->type = TOKEN_CLOSE_PAREN_TYPE;
break;
case ' ':
case '\t':
break;
@ -305,6 +291,7 @@ size_t lexExpression(struct LexVector* lv, const char* string, size_t length, co
case '<':
case '>':
case '!':
case '~':
lvNext = LexVectorAppend(lv);
lvNext->type = TOKEN_IDENTIFIER_TYPE;
lvNext->identifierValue = strndup(tokenStart, string - tokenStart - 1);
@ -316,14 +303,14 @@ size_t lexExpression(struct LexVector* lv, const char* string, size_t length, co
lvNext->identifierValue = strndup(tokenStart, string - tokenStart - 1);
lvNext = LexVectorAppend(lv);
lvNext->type = TOKEN_CLOSE_PAREN_TYPE;
state = LEX_EXPECT_OPERATOR;
state = LEX_ROOT;
break;
case ' ':
case '\t':
lvNext = LexVectorAppend(lv);
lvNext->type = TOKEN_IDENTIFIER_TYPE;
lvNext->identifierValue = strndup(tokenStart, string - tokenStart - 1);
state = LEX_EXPECT_OPERATOR;
state = LEX_ROOT;
break;
default:
break;
@ -446,33 +433,6 @@ size_t lexExpression(struct LexVector* lv, const char* string, size_t length, co
break;
}
break;
case LEX_EXPECT_OPERATOR:
switch (token) {
case '=':
case '+':
case '-':
case '*':
case '/':
case '%':
case '&':
case '|':
case '^':
case '<':
case '>':
case '!':
_lexOperator(lv, token, &state);
break;
case ')':
lvNext = LexVectorAppend(lv);
lvNext->type = TOKEN_CLOSE_PAREN_TYPE;
break;
case ' ':
case '\t':
break;
default:
state = LEX_ERROR;
}
break;
case LEX_ERROR:
// This shouldn't be reached
break;
@ -494,7 +454,6 @@ size_t lexExpression(struct LexVector* lv, const char* string, size_t length, co
lvNext->identifierValue = strndup(tokenStart, string - tokenStart);
break;
case LEX_ROOT:
case LEX_EXPECT_OPERATOR:
case LEX_EXPECT_OPERATOR2:
break;
case LEX_EXPECT_BINARY_FIRST:
@ -568,9 +527,6 @@ static size_t _parseExpression(struct ParseTree* tree, struct LexVector* lv, siz
tree->rhs = _parseTreeCreate();
tree->token.type = TOKEN_SEGMENT_TYPE;
i = _parseExpression(tree->rhs, lv, i + 1, precedence, openParens);
if (tree->token.type == TOKEN_ERROR_TYPE) {
tree->token.type = TOKEN_ERROR_TYPE;
}
break;
case TOKEN_OPEN_PAREN_TYPE:
++*openParens;
@ -583,6 +539,21 @@ static size_t _parseExpression(struct ParseTree* tree, struct LexVector* lv, siz
--*openParens;
return i + 1;
case TOKEN_OPERATOR_TYPE:
if (tree->token.type == TOKEN_ERROR_TYPE) {
switch (token->operatorValue) {
case OP_SUBTRACT:
token->operatorValue = OP_NEGATE;
break;
case OP_MULTIPLY:
token->operatorValue = OP_DEREFERENCE;
break;
case OP_NOT:
case OP_FLIP:
break;
default:
break;
}
}
newPrecedence = _operatorPrecedence[token->operatorValue];
if (newPrecedence < precedence) {
newTree = _parseTreeCreate();

196
src/debugger/test/lexer.c
View File

@ -59,14 +59,6 @@ M_TEST_DEFINE(lexBinary) {
assert_int_equal(LexVectorGetPointer(lv, 0)->uintValue, 2);
}
M_TEST_DEFINE(lexSigilBinary) {
LEX("%10");
assert_int_equal(LexVectorSize(lv), 1);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->uintValue, 2);
}
M_TEST_DEFINE(lexHex) {
LEX("0x10");
@ -111,13 +103,6 @@ M_TEST_DEFINE(lexTruncatedBinary) {
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexTruncatedSigilBinary) {
LEX("%");
assert_int_equal(LexVectorSize(lv), 1);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexTruncatedSigilHex) {
LEX("$");
@ -350,6 +335,38 @@ M_TEST_DEFINE(lexIdentifierGreaterOperator) {
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_GREATER);
}
M_TEST_DEFINE(lexNotOperator) {
LEX("!1");
assert_int_equal(LexVectorSize(lv), 2);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->operatorValue, OP_NOT);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->uintValue, 1);
}
M_TEST_DEFINE(lexNotNotOperator) {
LEX("!!1");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->operatorValue, OP_NOT);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_NOT);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 2)->uintValue, 1);
}
M_TEST_DEFINE(lexFlipOperator) {
LEX("~1");
assert_int_equal(LexVectorSize(lv), 2);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->operatorValue, OP_FLIP);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->uintValue, 1);
}
M_TEST_DEFINE(lexEqualsOperator) {
LEX("1==");
@ -510,138 +527,6 @@ M_TEST_DEFINE(lexIdentifierShiftROperator) {
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_SHIFT_R);
}
M_TEST_DEFINE(lexEqualsInvalidOperator) {
LEX("1=|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->uintValue, 1);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_ASSIGN);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexIdentifierEqualsInvalidOperator) {
LEX("x=|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_IDENTIFIER_TYPE);
assert_string_equal(LexVectorGetPointer(lv, 0)->identifierValue, "x");
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_ASSIGN);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexNotInvalidOperator) {
LEX("1!|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->uintValue, 1);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_NOT);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexIdentifierNotInvalidOperator) {
LEX("x!|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_IDENTIFIER_TYPE);
assert_string_equal(LexVectorGetPointer(lv, 0)->identifierValue, "x");
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_NOT);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexLessInvalidOperator) {
LEX("1<|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->uintValue, 1);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_LESS);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexIdentifierLessInvalidOperator) {
LEX("x<|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_IDENTIFIER_TYPE);
assert_string_equal(LexVectorGetPointer(lv, 0)->identifierValue, "x");
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_LESS);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexGreaterInvalidOperator) {
LEX("1>|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->uintValue, 1);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_GREATER);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexIdentifierGreaterInvalidOperator) {
LEX("x>|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_IDENTIFIER_TYPE);
assert_string_equal(LexVectorGetPointer(lv, 0)->identifierValue, "x");
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_GREATER);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexAndInvalidOperator) {
LEX("1&|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->uintValue, 1);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_AND);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexIdentifierAndInvalidOperator) {
LEX("x&|");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_IDENTIFIER_TYPE);
assert_string_equal(LexVectorGetPointer(lv, 0)->identifierValue, "x");
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_AND);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexOrInvalidOperator) {
LEX("1|>");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_UINT_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 0)->uintValue, 1);
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_OR);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexIdentifierOrInvalidOperator) {
LEX("x|>");
assert_int_equal(LexVectorSize(lv), 3);
assert_int_equal(LexVectorGetPointer(lv, 0)->type, TOKEN_IDENTIFIER_TYPE);
assert_string_equal(LexVectorGetPointer(lv, 0)->identifierValue, "x");
assert_int_equal(LexVectorGetPointer(lv, 1)->type, TOKEN_OPERATOR_TYPE);
assert_int_equal(LexVectorGetPointer(lv, 1)->operatorValue, OP_OR);
assert_int_equal(LexVectorGetPointer(lv, 2)->type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(lexSimpleExpression) {
LEX("1+1");
@ -782,7 +667,6 @@ M_TEST_SUITE_DEFINE_SETUP_TEARDOWN(Lexer,
cmocka_unit_test(lexInt),
cmocka_unit_test(lexDecimal),
cmocka_unit_test(lexBinary),
cmocka_unit_test(lexSigilBinary),
cmocka_unit_test(lexHex),
cmocka_unit_test(lexSigilHex),
cmocka_unit_test(lexSigilSegmentHex),
@ -792,7 +676,6 @@ M_TEST_SUITE_DEFINE_SETUP_TEARDOWN(Lexer,
cmocka_unit_test(lexTruncatedHex),
cmocka_unit_test(lexTruncatedSigilHex),
cmocka_unit_test(lexTruncatedBinary),
cmocka_unit_test(lexTruncatedSigilBinary),
cmocka_unit_test(lexIdentifier),
cmocka_unit_test(lexAddOperator),
cmocka_unit_test(lexIdentifierAddOperator),
@ -814,6 +697,9 @@ M_TEST_SUITE_DEFINE_SETUP_TEARDOWN(Lexer,
cmocka_unit_test(lexIdentifierLessOperator),
cmocka_unit_test(lexGreaterOperator),
cmocka_unit_test(lexIdentifierGreaterOperator),
cmocka_unit_test(lexNotOperator),
cmocka_unit_test(lexNotNotOperator),
cmocka_unit_test(lexFlipOperator),
cmocka_unit_test(lexEqualsOperator),
cmocka_unit_test(lexIdentifierEqualsOperator),
cmocka_unit_test(lexNotEqualsOperator),
@ -830,18 +716,6 @@ M_TEST_SUITE_DEFINE_SETUP_TEARDOWN(Lexer,
cmocka_unit_test(lexIdentifierShiftLOperator),
cmocka_unit_test(lexShiftROperator),
cmocka_unit_test(lexIdentifierShiftROperator),
cmocka_unit_test(lexEqualsInvalidOperator),
cmocka_unit_test(lexIdentifierEqualsInvalidOperator),
cmocka_unit_test(lexNotInvalidOperator),
cmocka_unit_test(lexIdentifierNotInvalidOperator),
cmocka_unit_test(lexLessInvalidOperator),
cmocka_unit_test(lexIdentifierLessInvalidOperator),
cmocka_unit_test(lexGreaterInvalidOperator),
cmocka_unit_test(lexIdentifierGreaterInvalidOperator),
cmocka_unit_test(lexAndInvalidOperator),
cmocka_unit_test(lexIdentifierAndInvalidOperator),
cmocka_unit_test(lexOrInvalidOperator),
cmocka_unit_test(lexIdentifierOrInvalidOperator),
cmocka_unit_test(lexSimpleExpression),
cmocka_unit_test(lexOpenParen),
cmocka_unit_test(lexCloseParen),

32
src/debugger/test/parser.c
View File

@ -56,6 +56,12 @@ M_TEST_DEFINE(parseLexError) {
assert_int_equal(tree->token.type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(parseError) {
PARSE("1 2");
assert_int_equal(tree->token.type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(parseSimpleExpression) {
PARSE("1+2");
@ -108,11 +114,35 @@ M_TEST_DEFINE(parseParentheticalAddMultplyExpression) {
assert_int_equal(tree->rhs->token.uintValue, 3);
}
M_TEST_DEFINE(parseIsolatedOperator) {
PARSE("+");
assert_int_equal(tree->token.type, TOKEN_OPERATOR_TYPE);
assert_int_equal(tree->lhs->token.type, TOKEN_ERROR_TYPE);
assert_int_equal(tree->rhs->token.type, TOKEN_ERROR_TYPE);
}
M_TEST_DEFINE(parseUnaryChainedOperator) {
PARSE("1+*2");
assert_int_equal(tree->token.type, TOKEN_OPERATOR_TYPE);
assert_int_equal(tree->token.operatorValue, OP_ADD);
assert_int_equal(tree->lhs->token.type, TOKEN_UINT_TYPE);
assert_int_equal(tree->lhs->token.uintValue, 1);
assert_int_equal(tree->rhs->token.type, TOKEN_OPERATOR_TYPE);
assert_int_equal(tree->rhs->token.operatorValue, OP_DEREFERENCE);
assert_int_equal(tree->rhs->rhs->token.type, TOKEN_UINT_TYPE);
assert_int_equal(tree->rhs->rhs->token.uintValue, 2);
}
M_TEST_SUITE_DEFINE_SETUP_TEARDOWN(Parser,
cmocka_unit_test(parseEmpty),
cmocka_unit_test(parseInt),
cmocka_unit_test(parseLexError),
cmocka_unit_test(parseError),
cmocka_unit_test(parseSimpleExpression),
cmocka_unit_test(parseAddMultplyExpression),
cmocka_unit_test(parseParentheticalExpression),
cmocka_unit_test(parseParentheticalAddMultplyExpression))
cmocka_unit_test(parseParentheticalAddMultplyExpression),
cmocka_unit_test(parseIsolatedOperator),
cmocka_unit_test(parseUnaryChainedOperator))

9
src/gb/io.c
View File

@ -576,6 +576,15 @@ static uint8_t _readKeysFiltered(struct GB* gb) {
uint8_t GBIORead(struct GB* gb, unsigned address) {
switch (address) {
case REG_JOYP:
{
size_t c;
for (c = 0; c < mCoreCallbacksListSize(&gb->coreCallbacks); ++c) {
struct mCoreCallbacks* callbacks = mCoreCallbacksListGetPointer(&gb->coreCallbacks, c);
if (callbacks->keysRead) {
callbacks->keysRead(callbacks->context);
}
}
}
return _readKeysFiltered(gb);
case REG_IE:
return gb->memory.ie;

15
src/gba/io.c
View File

@ -461,19 +461,19 @@ void GBAIOWrite(struct GBA* gba, uint32_t address, uint16_t value) {
break;
case REG_DMA0CNT_LO:
GBADMAWriteCNT_LO(gba, 0, value);
GBADMAWriteCNT_LO(gba, 0, value & 0x3FFF);
break;
case REG_DMA0CNT_HI:
value = GBADMAWriteCNT_HI(gba, 0, value);
break;
case REG_DMA1CNT_LO:
GBADMAWriteCNT_LO(gba, 1, value);
GBADMAWriteCNT_LO(gba, 1, value & 0x3FFF);
break;
case REG_DMA1CNT_HI:
value = GBADMAWriteCNT_HI(gba, 1, value);
break;
case REG_DMA2CNT_LO:
GBADMAWriteCNT_LO(gba, 2, value);
GBADMAWriteCNT_LO(gba, 2, value & 0x3FFF);
break;
case REG_DMA2CNT_HI:
value = GBADMAWriteCNT_HI(gba, 2, value);
@ -725,6 +725,15 @@ uint16_t GBAIORead(struct GBA* gba, uint32_t address) {
break;
case REG_KEYINPUT:
{
size_t c;
for (c = 0; c < mCoreCallbacksListSize(&gba->coreCallbacks); ++c) {
struct mCoreCallbacks* callbacks = mCoreCallbacksListGetPointer(&gba->coreCallbacks, c);
if (callbacks->keysRead) {
callbacks->keysRead(callbacks->context);
}
}
}
if (gba->rr && gba->rr->isPlaying(gba->rr)) {
return 0x3FF ^ gba->rr->queryInput(gba->rr);
} else {

8
src/gba/renderers/video-software.c
View File

@ -567,6 +567,14 @@ static void GBAVideoSoftwareRendererDrawScanline(struct GBAVideoRenderer* render
dirty = true;
}
if (GBARegisterDISPCNTGetMode(softwareRenderer->dispcnt) != 0) {
if (softwareRenderer->cache[y].scale[0][0] != softwareRenderer->bg[2].sx ||
softwareRenderer->cache[y].scale[0][1] != softwareRenderer->bg[2].sy ||
softwareRenderer->cache[y].scale[1][0] != softwareRenderer->bg[3].sx ||
softwareRenderer->cache[y].scale[1][1] != softwareRenderer->bg[3].sy) {
dirty = true;
}
}
softwareRenderer->cache[y].scale[0][0] = softwareRenderer->bg[2].sx;
softwareRenderer->cache[y].scale[0][1] = softwareRenderer->bg[2].sy;
softwareRenderer->cache[y].scale[1][0] = softwareRenderer->bg[3].sx;

16
src/platform/qt/SettingsView.cpp
View File

@ -180,12 +180,22 @@ SettingsView::SettingsView(ConfigController* controller, InputController* inputC
m_ui.cameraDriver->addItem(tr("None (Still Image)"), static_cast<int>(InputController::CameraDriver::NONE));
if (cameraDriver.isNull() || cameraDriver.toInt() == static_cast<int>(InputController::CameraDriver::NONE)) {
m_ui.cameraDriver->setCurrentIndex(m_ui.cameraDriver->count() - 1);
m_ui.camera->setEnabled(false);
}
#ifdef BUILD_QT_MULTIMEDIA
m_ui.cameraDriver->addItem(tr("Qt Multimedia"), static_cast<int>(InputController::CameraDriver::QT_MULTIMEDIA));
if (!cameraDriver.isNull() && cameraDriver.toInt() == static_cast<int>(InputController::CameraDriver::QT_MULTIMEDIA)) {
m_ui.cameraDriver->setCurrentIndex(m_ui.cameraDriver->count() - 1);
m_ui.camera->setEnabled(true);
}
QList<QPair<QByteArray, QString>> cameras = inputController->listCameras();
QByteArray currentCamera = m_controller->getQtOption("camera").toByteArray();
for (const auto& camera : cameras) {
m_ui.camera->addItem(camera.second, camera.first);
if (camera.first == currentCamera) {
m_ui.camera->setCurrentIndex(m_ui.camera->count() - 1);
}
}
#endif
@ -447,6 +457,12 @@ void SettingsView::updateConfig() {
emit cameraDriverChanged();
}
QVariant camera = m_ui.camera->itemData(m_ui.camera->currentIndex());
if (camera != m_controller->getQtOption("camera")) {
m_controller->setQtOption("camera", camera);
emit cameraChanged(camera.toByteArray());
}
QLocale language = m_ui.languages->itemData(m_ui.languages->currentIndex()).toLocale();
if (language != m_controller->getQtOption("language").toLocale() && !(language.bcp47Name() == QLocale::system().bcp47Name() && m_controller->getQtOption("language").isNull())) {
m_controller->setQtOption("language", language.bcp47Name());

1
src/platform/qt/SettingsView.h
View File

@ -40,6 +40,7 @@ signals:
void audioDriverChanged();
void displayDriverChanged();
void cameraDriverChanged();
void cameraChanged(const QByteArray&);
void pathsChanged();
void languageChanged();
void libraryCleared();

26
src/platform/qt/SettingsView.ui
View File

@ -1341,7 +1341,7 @@
<item row="0" column="0">
<widget class="QLabel" name="label_29">
<property name="text">
<string>Game Boy model</string>
<string>Game Boy model:</string>
</property>
</widget>
</item>
@ -1377,7 +1377,7 @@
<item row="1" column="0">
<widget class="QLabel" name="label_32">
<property name="text">
<string>Super Game Boy model</string>
<string>Super Game Boy model:</string>
</property>
</widget>
</item>
@ -1413,7 +1413,7 @@
<item row="2" column="0">
<widget class="QLabel" name="label_33">
<property name="text">
<string>Game Boy Color model</string>
<string>Game Boy Color model:</string>
</property>
</widget>
</item>
@ -1752,6 +1752,26 @@
</property>
</widget>
</item>
<item row="11" column="0">
<widget class="QLabel" name="label_35">
<property name="text">
<string>Camera:</string>
</property>
</widget>
</item>
<item row="11" column="1">
<widget class="QComboBox" name="camera">
<property name="enabled">
<bool>false</bool>
</property>
<property name="sizePolicy">
<sizepolicy hsizetype="Expanding" vsizetype="Fixed">
<horstretch>0</horstretch>
<verstretch>0</verstretch>
</sizepolicy>
</property>
</widget>
</item>
</layout>
</widget>
</widget>

1
src/platform/qt/Window.cpp
View File

@ -489,6 +489,7 @@ void Window::openSettingsWindow() {
connect(settingsWindow, &SettingsView::displayDriverChanged, this, &Window::reloadDisplayDriver);
connect(settingsWindow, &SettingsView::audioDriverChanged, this, &Window::reloadAudioDriver);
connect(settingsWindow, &SettingsView::cameraDriverChanged, this, &Window::mustRestart);
connect(settingsWindow, &SettingsView::cameraChanged, &m_inputController, &InputController::setCamera);
connect(settingsWindow, &SettingsView::languageChanged, this, &Window::mustRestart);
connect(settingsWindow, &SettingsView::pathsChanged, this, &Window::reloadConfig);
#ifdef USE_SQLITE3

33
src/platform/qt/input/InputController.cpp
View File

@ -20,7 +20,7 @@
#include <QTimer>
#include <QWidget>
#ifdef BUILD_QT_MULTIMEDIA
#include <QCamera>
#include <QCameraInfo>
#include <QVideoSurfaceFormat>
#endif
@ -188,6 +188,10 @@ void InputController::setPlatform(mPlatform platform) {
}
#ifdef BUILD_QT_MULTIMEDIA
if (image->p->m_config->getQtOption("cameraDriver").toInt() == static_cast<int>(CameraDriver::QT_MULTIMEDIA)) {
QByteArray camera = image->p->m_config->getQtOption("camera").toByteArray();
if (!camera.isNull()) {
QMetaObject::invokeMethod(image->p, "setCamera", Q_ARG(QByteArray, camera));
}
QMetaObject::invokeMethod(image->p, "setupCam");
}
#endif
@ -960,6 +964,17 @@ void InputController::setCamImage(const QImage& image) {
m_image.outOfDate = true;
}
QList<QPair<QByteArray, QString>> InputController::listCameras() const {
QList<QPair<QByteArray, QString>> out;
#ifdef BUILD_QT_MULTIMEDIA
QList<QCameraInfo> cams = QCameraInfo::availableCameras();
for (const auto& cam : cams) {
out.append(qMakePair(cam.deviceName().toLatin1(), cam.description()));
}
#endif
return out;
}
void InputController::increaseLuminanceLevel() {
setLuminanceLevel(m_luxLevel + 1);
}
@ -994,7 +1009,7 @@ void InputController::setupCam() {
#ifdef BUILD_QT_MULTIMEDIA
if (!m_camera) {
m_camera = std::make_unique<QCamera>();
connect(m_camera.get(), &QCamera::statusChanged, this, &InputController::prepareCamSettings);
connect(m_camera.get(), &QCamera::statusChanged, this, &InputController::prepareCamSettings, Qt::QueuedConnection);
}
m_camera->setCaptureMode(QCamera::CaptureVideo);
m_camera->setViewfinder(&m_videoDumper);
@ -1052,3 +1067,17 @@ void InputController::teardownCam() {
}
#endif
}
void InputController::setCamera(const QByteArray& name) {
#ifdef BUILD_QT_MULTIMEDIA
bool needsRestart = false;
if (m_camera) {
needsRestart = m_camera->state() == QCamera::ActiveState;
}
m_camera = std::make_unique<QCamera>(name);
connect(m_camera.get(), &QCamera::statusChanged, this, &InputController::prepareCamSettings, Qt::QueuedConnection);
if (needsRestart) {
setupCam();
}
#endif
}

4
src/platform/qt/input/InputController.h
View File

@ -112,6 +112,8 @@ public:
void stealFocus(QWidget* focus);
void releaseFocus(QWidget* focus);
QList<QPair<QByteArray, QString>> listCameras() const;
mRumble* rumble();
mRotationSource* rotationSource();
mImageSource* imageSource() { return &m_image; }
@ -141,6 +143,8 @@ public slots:
void loadCamImage(const QString& path);
void setCamImage(const QImage& image);
void setCamera(const QByteArray& id);
protected:
bool eventFilter(QObject*, QEvent*) override;