Allow arbitrary meta properties on enum fields

This commit is contained in:
doyle 2019-04-01 00:51:14 +11:00
parent 40f72c576e
commit a6c05a950e
4 changed files with 438 additions and 609 deletions

View File

@ -43,182 +43,7 @@
// //
// ANNOTATION EXAMPLE // ANNOTATION EXAMPLE
// ================================================================================================= // =================================================================================================
// For full example see Data/DqnInspect_TestData.h // See Data/DqnInspect_TestData.h
/*
DQN_INSPECT enum struct OpenGLShader
{
Invalid,
Rect DQN_INSPECT_META(VertexShaderFilePath = "Rect.vert", FragmentShaderFilePath = "Rect.frag"),
Text DQN_INSPECT_META(VertexShaderFilePath = "Text.vert", FragmentShaderFilePath = "Text.frag"),
Count,
};
struct V4 { float test; };
template <typename T, int Size>
struct Array { T data[Size]; };
DQN_INSPECT struct OpenGLState
{
Array<V4, 32> camera_matrixes;
char **bitmaps;
int shaders[(int)OpenGLShader::Count];
void *win32_handle;
int ebo DQN_INSPECT_META(DisplayName = "Element Buffer Object"), vbo, vao DQN_INSPECT_META(DisplayName = "Vertex Array Object", OpenGLVersion = "330");
V4 draw_color DQN_INSPECT_META(DisplayName = "HelloWorld");
int draw_call_count;
};
//
// INSPECTION OUTPUT EXAMPLE
// =================================================================================================
// For full example see Data/DqnInspect_TestDataGenerated.cpp
// This is an auto generated file using Dqn_Inspect
//
// ..\Data\DqnInspect_TestData.h
//
#ifndef DQN_INSPECT_DQNINSPECT_TESTDATA_H
#define DQN_INSPECT_DQNINSPECT_TESTDATA_H
// NOTE: These macros are undefined at the end of the file so to not pollute namespace
#define ARRAY_COUNT(array) sizeof(array)/sizeof((array)[0])
#define CHAR_COUNT(str) (ARRAY_COUNT(str) - 1)
#define STR_AND_LEN(str) str, CHAR_COUNT(str)
char const *DqnInspect_OpenGLShader_Strings[] = {"Invalid", "Rect", "Text", "Count", };
char const *DqnInspect_EnumString(OpenGLShader val)
{
if (val == OpenGLShader::Invalid) return DqnInspect_OpenGLShader_Strings[0]; // "Invalid"
if (val == OpenGLShader::Rect) return DqnInspect_OpenGLShader_Strings[1]; // "Rect"
if (val == OpenGLShader::Text) return DqnInspect_OpenGLShader_Strings[2]; // "Text"
if (val == OpenGLShader::Count) return DqnInspect_OpenGLShader_Strings[3]; // "Count"
return nullptr;
}
char const *DqnInspect_VertexShaderFilePathMetadata(OpenGLShader val)
{
if (val == OpenGLShader::Rect) return "Rect.vert";
if (val == OpenGLShader::Text) return "Text.vert";
return nullptr;
}
char const *DqnInspect_FragmentShaderFilePathMetadata(OpenGLShader val)
{
if (val == OpenGLShader::Rect) return "Rect.frag";
if (val == OpenGLShader::Text) return "Text.frag";
return nullptr;
}
DqnInspect_StructMemberMetadata const DqnInspect_OpenGLState_ebo_StructMemberMetadata[] =
{
{
DqnInspect_StructMemberMetadataType::String,
STR_AND_LEN("DisplayName"), STR_AND_LEN("Element Buffer Object"),
},
};
DqnInspect_StructMemberMetadata const DqnInspect_OpenGLState_vao_StructMemberMetadata[] =
{
{
DqnInspect_StructMemberMetadataType::String,
STR_AND_LEN("DisplayName"), STR_AND_LEN("Vertex Array Object"),
},
{
DqnInspect_StructMemberMetadataType::String,
STR_AND_LEN("OpenGLVersion"), STR_AND_LEN("330"),
},
};
DqnInspect_StructMemberMetadata const DqnInspect_OpenGLState_draw_color_StructMemberMetadata[] =
{
{
DqnInspect_StructMemberMetadataType::String,
STR_AND_LEN("DisplayName"), STR_AND_LEN("HelloWorld"),
},
};
DqnInspect_StructMember const DqnInspect_OpenGLState_StructMembers[] =
{
{
STR_AND_LEN("Array"), STR_AND_LEN("camera_matrixes"),
STR_AND_LEN("V4, 3"), // template_expr
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("char"), STR_AND_LEN("bitmaps"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
2 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("shaders"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions
},
{
STR_AND_LEN("void"), STR_AND_LEN("win32_handle"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("ebo"),
nullptr, 0, // template_expr and template_expr_len
DqnInspect_OpenGLState_ebo_StructMemberMetadata, 1,
0 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("vbo"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("vao"),
nullptr, 0, // template_expr and template_expr_len
DqnInspect_OpenGLState_vao_StructMemberMetadata, 2,
0 // array_dimensions
},
{
STR_AND_LEN("V4"), STR_AND_LEN("draw_color"),
nullptr, 0, // template_expr and template_expr_len
DqnInspect_OpenGLState_draw_color_StructMemberMetadata, 1,
0 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("draw_call_count"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
};
DqnInspect_Struct const DqnInspect_OpenGLState_Struct =
{
STR_AND_LEN("OpenGLState"),
DqnInspect_OpenGLState_StructMembers, // members
ARRAY_COUNT(DqnInspect_OpenGLState_StructMembers) // members_len
};
DqnInspect_Struct const *DqnInspect_GetStruct(OpenGLState const *val)
{
(void)val;
DqnInspect_Struct const *result = &DqnInspect_OpenGLState_Struct;
return result;
}
#undef ARRAY_COUNT
#undef CHAR_COUNT
#undef STR_AND_LEN
#endif // DQN_INSPECT_DQNINSPECT_TESTDATA_H
*/
#define DQN_INSPECT #define DQN_INSPECT
#define DQN_INSPECT_META(...) #define DQN_INSPECT_META(...)
@ -251,8 +76,10 @@ struct DqnInspect_StructMember
char const *template_expr; char const *template_expr;
int template_expr_len; int template_expr_len;
#if 0 // TODO(doyle): Broken
DqnInspect_StructMemberMetadata const *metadata; DqnInspect_StructMemberMetadata const *metadata;
int metadata_len; int metadata_len;
#endif
int array_dimensions; // > 0 means array int array_dimensions; // > 0 means array
}; };
@ -266,8 +93,8 @@ struct DqnInspect_Struct
}; };
// NOTE(doyle): For compiler testing // NOTE(doyle): For compiler testing
// #include "../Data/DqnInspect_TestData.h" #include "../Data/DqnInspect_TestData.h"
// #include "../Data/DqnInspect_TestDataGenerated.cpp" #include "../Data/DqnInspect_TestDataGenerated.cpp"
#ifdef DQN_INSPECT_EXECUTABLE_IMPLEMENTATION #ifdef DQN_INSPECT_EXECUTABLE_IMPLEMENTATION
#define _CRT_SECURE_NO_WARNINGS #define _CRT_SECURE_NO_WARNINGS
@ -535,22 +362,6 @@ struct CPPToken
int len; int len;
}; };
struct CPPInspectMetadataEntry
{
StringLiteral key;
StringLiteral value;
};
using CPPInspectMetadataArray = FixedArray<CPPInspectMetadataEntry, 8>;
template <typename T>
struct CPPDeclLinkedList
{
CPPInspectMetadataArray metadata_array;
T value;
CPPDeclLinkedList *next;
};
struct CPPVariableDecl struct CPPVariableDecl
{ {
StringLiteral type; StringLiteral type;
@ -560,6 +371,14 @@ struct CPPVariableDecl
StringLiteral default_value; StringLiteral default_value;
}; };
template <typename T>
struct CPPDeclLinkedList
{
CPPDeclLinkedList<CPPVariableDecl> *metadata_list;
T value;
CPPDeclLinkedList *next;
};
struct CPPTokeniser struct CPPTokeniser
{ {
CPPToken *tokens; CPPToken *tokens;
@ -688,60 +507,230 @@ b32 ExpectToken(CPPToken token, CPPTokenType type)
// CPP Parsing Functions // CPP Parsing Functions
// //
CPPInspectMetadataArray ParseCPPInspectMeta(CPPTokeniser *tokeniser) #if 0
DQN_INSPECT enum struct EnumWithMetadata
{ {
CPPInspectMetadataArray result = {}; Rect DQN_INSPECT_META(char const *FilePath = "Rect.vert", V3 Coords = V3(1, 2, 3)),
CPPToken token = CPPTokeniser_NextToken(tokeniser); Square DQN_INSPECT_META(char *file_path = "Rect.vert"),
if (!ExpectToken(token, CPPTokenType::Identifier) || !IsIdentifierToken(token, STR_LITERAL("DQN_INSPECT_META"))) Count,
return result; };
#endif
token = CPPTokeniser_NextToken(tokeniser); int ConsumeAsterisks(CPPTokeniser *tokeniser, CPPToken *token = nullptr)
if (!ExpectToken(token, CPPTokenType::OpenParen)) return result; {
int result = 0;
for (token = CPPTokeniser_NextToken(tokeniser); CPPToken last_asterisks_token = {};
token.type != CPPTokenType::EndOfStream && token.type != CPPTokenType::CloseParen; for (CPPToken peek_token = CPPTokeniser_PeekToken(tokeniser);
token = CPPTokeniser_NextToken(tokeniser)) peek_token.type == CPPTokenType::Asterisks;
++result)
{ {
if (token.type == CPPTokenType::Identifier) last_asterisks_token = peek_token;
{ CPPTokeniser_NextToken(tokeniser);
auto metadata_key = StringLiteral(token.str, token.len); peek_token = CPPTokeniser_PeekToken(tokeniser);
CPPToken peek_token = CPPTokeniser_PeekToken(tokeniser);
if (!ExpectToken(peek_token, CPPTokenType::Equals))
continue;
token = CPPTokeniser_NextToken(tokeniser);
peek_token = CPPTokeniser_PeekToken(tokeniser);
if (peek_token.type == CPPTokenType::String || peek_token.type == CPPTokenType::Identifier)
{
token = CPPTokeniser_NextToken(tokeniser);
if (IsIdentifierToken(token, STR_LITERAL("nullptr"))) continue;
CPPInspectMetadataEntry *entry = FixedArray_Make(&result, 1);
entry->key = metadata_key;
entry->value = StringLiteral(token.str, token.len);
}
}
} }
while (token.type != CPPTokenType::EndOfStream && token.type != CPPTokenType::CloseParen) if (token && last_asterisks_token.type != CPPTokenType::EndOfStream) *token = last_asterisks_token;
token = CPPTokeniser_NextToken(tokeniser); return result;
}
b32 ConsumeConstIdentifier(CPPTokeniser *tokeniser, CPPToken *token = nullptr)
{
b32 result = false;
CPPToken last_const_token = {};
for (CPPToken peek_token = CPPTokeniser_PeekToken(tokeniser);
IsIdentifierToken(peek_token, STR_LITERAL("const"));
peek_token = CPPTokeniser_PeekToken(tokeniser))
{
last_const_token = peek_token;
result = true;
CPPTokeniser_NextToken(tokeniser);
}
if (token && last_const_token.type != CPPTokenType::EndOfStream) *token = last_const_token;
return result;
}
void SkipFunctionParam(CPPTokeniser *tokeniser)
{
CPPToken token = CPPTokeniser_PeekToken(tokeniser);
while (token.type != CPPTokenType::EndOfStream)
{
if (token.type == CPPTokenType::OpenParen)
{
for (int level = 1; level != 0;)
{
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
if (token.type == CPPTokenType::OpenParen) level++;
if (token.type == CPPTokenType::CloseParen) level--;
}
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
}
if (token.type == CPPTokenType::LeftBrace)
{
for (int level = 1; level != 0;)
{
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
if (token.type == CPPTokenType::LeftBrace) level++;
if (token.type == CPPTokenType::RightBrace) level--;
}
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
}
if (token.type == CPPTokenType::CloseParen)
break;
if (token.type == CPPTokenType::Comma)
break;
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
}
}
CPPDeclLinkedList<CPPVariableDecl> *ParseCPPInspectMeta(CPPTokeniser *tokeniser);
// NOTE(doyle): Doesn't parse the ending semicolon so we can reuse this function for parsing function arguments
CPPDeclLinkedList<CPPVariableDecl> *ParseCPPTypeAndVariableDecl(CPPTokeniser *tokeniser, b32 parse_function_param)
{
CPPDeclLinkedList<CPPVariableDecl> *result = nullptr;
CPPDeclLinkedList<CPPVariableDecl> *link_iterator = nullptr;
CPPToken token = CPPTokeniser_NextToken(tokeniser);
if (token.type != CPPTokenType::Identifier && token.type != CPPTokenType::VarArgs)
return result;
ConsumeConstIdentifier(tokeniser);
CPPToken variable_type = token;
for (int total_asterisks_count = 0;;)
{
StringLiteral variable_template_expr = {};
if (CPPTokeniser_AcceptTokenIfType(tokeniser, CPPTokenType::LessThan, &token))
{
int template_depth = 1;
while (template_depth != 0 && token.type != CPPTokenType::EndOfStream)
{
token = CPPTokeniser_NextToken(tokeniser);
if (token.type == CPPTokenType::LessThan)
template_depth++;
else if (token.type == CPPTokenType::GreaterThan)
template_depth--;
}
if (template_depth == 0)
{
char *expr_start = token.str + 1;
char *expr_end = token.str;
int expr_len = static_cast<int>(expr_end - expr_start);
variable_template_expr.str = expr_start;
variable_template_expr.len = expr_len;
}
}
CPPToken last_modifier_token = {};
total_asterisks_count = ConsumeAsterisks(tokeniser, &last_modifier_token);
if (ConsumeConstIdentifier(tokeniser, &last_modifier_token))
{
total_asterisks_count += ConsumeAsterisks(tokeniser, &last_modifier_token);
ConsumeConstIdentifier(tokeniser, &last_modifier_token);
}
CPPToken variable_name = {};
if (variable_type.type == CPPTokenType::Identifier)
{
token = CPPTokeniser_PeekToken(tokeniser);
variable_name = token;
if (variable_name.type != CPPTokenType::Identifier)
break;
CPPTokeniser_NextToken(tokeniser);
}
// Allocate A Member Declaration
auto *link = MEM_ARENA_ALLOC_STRUCT(&global_main_arena, CPPDeclLinkedList<CPPVariableDecl>);
*link = {};
if (!result) result = link; // Set result to first linked list entry
else link_iterator->next = link;
link_iterator = link;
int variable_type_len = variable_type.len;
if (last_modifier_token.type != CPPTokenType::EndOfStream)
variable_type_len = static_cast<int>(last_modifier_token.str - variable_type.str) + 1;
link->value.type = StringLiteral(variable_type.str, variable_type_len);
link->value.name = StringLiteral(variable_name.str, variable_name.len);
link->value.template_expr = variable_template_expr;
link->value.array_dimensions = total_asterisks_count;
for (token = CPPTokeniser_PeekToken(tokeniser);
token.type == CPPTokenType::LeftSqBracket && token.type != CPPTokenType::EndOfStream;
token = CPPTokeniser_NextToken(tokeniser))
{
// TODO(doyle): Parsing array size is difficult if it's an expression, so maybe don't do it at all
++link->value.array_dimensions;
while (token.type != CPPTokenType::RightSqBracket && token.type != CPPTokenType::EndOfStream)
token = CPPTokeniser_NextToken(tokeniser);
}
if (IsIdentifierToken(token, STR_LITERAL("DQN_INSPECT_META")))
{
link->metadata_list = ParseCPPInspectMeta(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
}
if (token.type == CPPTokenType::Equals)
{
token = CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
char *default_value_start = token.str;
if (token.type == CPPTokenType::String) // NOTE(doyle): Include the quotes in the param value
default_value_start--;
SkipFunctionParam(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
if (token.type != CPPTokenType::Comma && token.type != CPPTokenType::CloseParen)
continue;
char *default_value_end = token.str;
link->value.default_value = StringLiteral(default_value_start, static_cast<int>(default_value_end - default_value_start));
}
if (token.type == CPPTokenType::Comma)
{
if (parse_function_param)
{
CPPTokeniser_NextToken(tokeniser);
variable_type = CPPTokeniser_PeekToken(tokeniser);
}
token = CPPTokeniser_NextToken(tokeniser);
}
else
{
break;
}
}
return result; return result;
} }
struct CPPDeclToMetaValue CPPDeclLinkedList<CPPVariableDecl> *ParseCPPInspectMeta(CPPTokeniser *tokeniser)
{ {
StringLiteral cpp_decl; CPPToken token = CPPTokeniser_NextToken(tokeniser);
StringLiteral value; if (!ExpectToken(token, CPPTokenType::Identifier) || !IsIdentifierToken(token, STR_LITERAL("DQN_INSPECT_META")))
}; return nullptr;
// i.e. DataType cpp_decl DQN_INSPECT_META(key = value, key2 = value2, ...); token = CPPTokeniser_NextToken(tokeniser);
struct MetadataEntry if (!ExpectToken(token, CPPTokenType::OpenParen)) return nullptr;
{
StringLiteral key; CPPDeclLinkedList<CPPVariableDecl> *result = ParseCPPTypeAndVariableDecl(tokeniser, true);
FixedArray<CPPDeclToMetaValue, 32> cpp_decl_to_val; return result;
}; }
enum struct ParsedResultType enum struct ParsedResultType
{ {
@ -827,7 +816,7 @@ b32 ParseCPPEnum(CPPTokeniser *tokeniser, ParsedEnum *parsed_enum)
CPPToken peek_token = CPPTokeniser_PeekToken(tokeniser); CPPToken peek_token = CPPTokeniser_PeekToken(tokeniser);
if (IsIdentifierToken(peek_token, STR_LITERAL("DQN_INSPECT_META"))) if (IsIdentifierToken(peek_token, STR_LITERAL("DQN_INSPECT_META")))
{ {
link->metadata_array = ParseCPPInspectMeta(tokeniser); link->metadata_list = ParseCPPInspectMeta(tokeniser);
} }
} }
} }
@ -836,34 +825,6 @@ b32 ParseCPPEnum(CPPTokeniser *tokeniser, ParsedEnum *parsed_enum)
return true; return true;
} }
int ConsumeAsterisks(CPPTokeniser *tokeniser)
{
int result = 0;
for (CPPToken peek_token = CPPTokeniser_PeekToken(tokeniser);
peek_token.type == CPPTokenType::Asterisks;
++result)
{
CPPTokeniser_NextToken(tokeniser);
peek_token = CPPTokeniser_PeekToken(tokeniser);
}
return result;
}
b32 ConsumeConstIdentifier(CPPTokeniser *tokeniser)
{
b32 result = false;
for (CPPToken peek_token = CPPTokeniser_PeekToken(tokeniser);
IsIdentifierToken(peek_token, STR_LITERAL("const"));
peek_token = CPPTokeniser_PeekToken(tokeniser))
{
result = true;
CPPTokeniser_NextToken(tokeniser);
}
return result;
}
b32 ParseCPPVariableType(CPPTokeniser *tokeniser, StringLiteral *type) b32 ParseCPPVariableType(CPPTokeniser *tokeniser, StringLiteral *type)
{ {
CPPToken token = CPPTokeniser_NextToken(tokeniser); CPPToken token = CPPTokeniser_NextToken(tokeniser);
@ -931,110 +892,6 @@ b32 ParseCPPVariableType(CPPTokeniser *tokeniser, StringLiteral *type)
return true; return true;
} }
// NOTE(doyle): Doesn't parse the ending semicolon so we can reuse this function for parsing function arguments
CPPDeclLinkedList<CPPVariableDecl> *ParseCPPTypeAndVariableDecl(CPPTokeniser *tokeniser, b32 parse_function_param)
{
CPPDeclLinkedList<CPPVariableDecl> *result = nullptr;
CPPDeclLinkedList<CPPVariableDecl> *link_iterator = nullptr;
CPPToken token = CPPTokeniser_NextToken(tokeniser);
if (token.type != CPPTokenType::Identifier && token.type != CPPTokenType::VarArgs)
return result;
ConsumeConstIdentifier(tokeniser);
CPPToken variable_type = token;
for (int total_asterisks_count = 0;;)
{
CPPToken peek_token = {};
StringLiteral variable_template_expr = {};
if (CPPTokeniser_AcceptTokenIfType(tokeniser, CPPTokenType::LessThan, &peek_token))
{
int template_depth = 1;
while (template_depth != 0 && token.type != CPPTokenType::EndOfStream)
{
token = CPPTokeniser_NextToken(tokeniser);
if (token.type == CPPTokenType::LessThan)
template_depth++;
else if (token.type == CPPTokenType::GreaterThan)
template_depth--;
}
if (template_depth == 0)
{
char *expr_start = peek_token.str + 1;
char *expr_end = token.str;
int expr_len = static_cast<int>(expr_end - expr_start);
variable_template_expr.str = expr_start;
variable_template_expr.len = expr_len;
}
}
total_asterisks_count = ConsumeAsterisks(tokeniser);
if (ConsumeConstIdentifier(tokeniser))
{
total_asterisks_count += ConsumeAsterisks(tokeniser);
ConsumeConstIdentifier(tokeniser);
}
CPPToken variable_name = {};
if (variable_type.type == CPPTokenType::Identifier)
{
peek_token = CPPTokeniser_PeekToken(tokeniser);
variable_name = peek_token;
if (variable_name.type != CPPTokenType::Identifier)
break;
CPPTokeniser_NextToken(tokeniser);
}
// Allocate A Member Declaration
auto *link = MEM_ARENA_ALLOC_STRUCT(&global_main_arena, CPPDeclLinkedList<CPPVariableDecl>);
*link = {};
if (!result) result = link; // Set result to first linked list entry
else link_iterator->next = link;
link_iterator = link;
link->value.type = StringLiteral(variable_type.str, variable_type.len);
link->value.name = StringLiteral(variable_name.str, variable_name.len);
link->value.template_expr = variable_template_expr;
link->value.array_dimensions = total_asterisks_count;
for (peek_token = CPPTokeniser_PeekToken(tokeniser);
peek_token.type == CPPTokenType::LeftSqBracket && peek_token.type != CPPTokenType::EndOfStream;
peek_token = CPPTokeniser_NextToken(tokeniser))
{
// TODO(doyle): Parsing array size is difficult if it's an expression, so maybe don't do it at all
++link->value.array_dimensions;
while (token.type != CPPTokenType::RightSqBracket && token.type != CPPTokenType::EndOfStream)
token = CPPTokeniser_NextToken(tokeniser);
}
if (IsIdentifierToken(peek_token, STR_LITERAL("DQN_INSPECT_META")))
{
link->metadata_array = ParseCPPInspectMeta(tokeniser);
peek_token = CPPTokeniser_PeekToken(tokeniser);
}
if (peek_token.type == CPPTokenType::Comma)
{
if (parse_function_param)
{
CPPTokeniser_NextToken(tokeniser);
variable_type = CPPTokeniser_PeekToken(tokeniser);
}
token = CPPTokeniser_NextToken(tokeniser);
}
else
{
break;
}
}
return result;
}
b32 ParseCPPStruct(CPPTokeniser *tokeniser, ParsedStruct *parsed_struct) b32 ParseCPPStruct(CPPTokeniser *tokeniser, ParsedStruct *parsed_struct)
{ {
*parsed_struct = {}; *parsed_struct = {};
@ -1081,49 +938,6 @@ b32 ParseCPPStruct(CPPTokeniser *tokeniser, ParsedStruct *parsed_struct)
return true; return true;
} }
void SkipFunctionParam(CPPTokeniser *tokeniser)
{
CPPToken token = CPPTokeniser_PeekToken(tokeniser);
while (token.type != CPPTokenType::EndOfStream)
{
if (token.type == CPPTokenType::OpenParen)
{
for (int level = 1; level != 0;)
{
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
if (token.type == CPPTokenType::OpenParen) level++;
if (token.type == CPPTokenType::CloseParen) level--;
}
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
}
if (token.type == CPPTokenType::LeftBrace)
{
for (int level = 1; level != 0;)
{
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
if (token.type == CPPTokenType::LeftBrace) level++;
if (token.type == CPPTokenType::RightBrace) level--;
}
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
}
if (token.type == CPPTokenType::CloseParen)
break;
if (token.type == CPPTokenType::Comma)
break;
CPPTokeniser_NextToken(tokeniser);
token = CPPTokeniser_PeekToken(tokeniser);
}
}
b32 ParseCPPInspectPrototype(CPPTokeniser *tokeniser, ParsedFunctionPrototype *parsed_func) b32 ParseCPPInspectPrototype(CPPTokeniser *tokeniser, ParsedFunctionPrototype *parsed_func)
{ {
*parsed_func = {}; *parsed_func = {};
@ -1662,7 +1476,7 @@ int main(int argc, char *argv[])
// Write InspectEnumString Function // Write InspectEnumString Function
// //
{ {
CPPTokeniser_SprintfToFile(&tokeniser, "char const *DqnInspect_EnumString(%.*s val, int *len = nullptr)\n{\n", parsed_enum->name.len, parsed_enum->name.str); CPPTokeniser_SprintfToFile(&tokeniser, "char const *DqnInspectEnum_Stringify(%.*s val, int *len = nullptr)\n{\n", parsed_enum->name.len, parsed_enum->name.str);
tokeniser.indent_level++; tokeniser.indent_level++;
DEFER DEFER
{ {
@ -1728,17 +1542,33 @@ int main(int argc, char *argv[])
// Write User Annotated Metadata Getter Functions // Write User Annotated Metadata Getter Functions
// //
{ {
struct CPPDeclToMetaValue
{
StringLiteral cpp_decl;
StringLiteral value;
};
// i.e. DataType cpp_decl DQN_INSPECT_META(type1 name1 = value, type2 name2 = value2, ...);
struct MetadataEntry
{
StringLiteral type;
StringLiteral name;
FixedArray<CPPDeclToMetaValue, 32> cpp_decl_to_val;
};
FixedArray<MetadataEntry, 32> metadata_entries = {}; FixedArray<MetadataEntry, 32> metadata_entries = {};
for (CPPDeclLinkedList<StringLiteral> *link = parsed_enum->members; for (CPPDeclLinkedList<StringLiteral> *link = parsed_enum->members;
link; link;
link = link->next) link = link->next)
{ {
for (CPPInspectMetadataEntry const &inspect_entry : link->metadata_array) for (CPPDeclLinkedList<CPPVariableDecl> const *metadata_link = link->metadata_list;
metadata_link;
metadata_link = metadata_link->next)
{ {
MetadataEntry *metadata_entry_to_append_to = nullptr; MetadataEntry *metadata_entry_to_append_to = nullptr;
for (MetadataEntry &check_metadata_entry : metadata_entries) for (MetadataEntry &check_metadata_entry : metadata_entries)
{ {
if (StrCmp(check_metadata_entry.key, inspect_entry.key)) if (StrCmp(check_metadata_entry.type, metadata_link->value.type) && StrCmp(check_metadata_entry.name, metadata_link->value.name))
{ {
metadata_entry_to_append_to = &check_metadata_entry; metadata_entry_to_append_to = &check_metadata_entry;
break; break;
@ -1747,52 +1577,97 @@ int main(int argc, char *argv[])
if (!metadata_entry_to_append_to) if (!metadata_entry_to_append_to)
{ {
metadata_entry_to_append_to = FixedArray_Make(&metadata_entries, 1); metadata_entry_to_append_to = FixedArray_Make(&metadata_entries, 1);
metadata_entry_to_append_to->key = inspect_entry.key; metadata_entry_to_append_to->type = metadata_link->value.type;
metadata_entry_to_append_to->name = metadata_link->value.name;
} }
CPPDeclToMetaValue decl_to_val = {}; CPPDeclToMetaValue decl_to_val = {};
decl_to_val.cpp_decl = StringLiteral(link->value.str, link->value.len); decl_to_val.cpp_decl = StringLiteral(link->value.str, link->value.len);
decl_to_val.value = inspect_entry.value; decl_to_val.value = metadata_link->value.default_value;
FixedArray_Add(&metadata_entry_to_append_to->cpp_decl_to_val, decl_to_val); FixedArray_Add(&metadata_entry_to_append_to->cpp_decl_to_val, decl_to_val);
} }
} }
for (MetadataEntry const &metadata : metadata_entries) for (MetadataEntry const &metadata : metadata_entries)
{ {
CPPTokeniser_SprintfToFile(&tokeniser, StringLiteral const char_type = STR_LITERAL("char");
"char const *DqnInspect_%.*sMetadata(%.*s val)\n{\n", if (metadata.type.len >= char_type.len && strncmp(metadata.type.str, char_type.str, char_type.len) == 0)
metadata.key.len, metadata.key.str,
parsed_enum->name.len, parsed_enum->name.str);
tokeniser.indent_level++;
DEFER
{ {
CPPTokeniser_SprintfToFile(&tokeniser, "return nullptr;\n"); CPPTokeniser_SprintfToFile(&tokeniser,
tokeniser.indent_level--; "%.*s DqnInspectMetadata_%.*s(%.*s val)\n{\n",
CPPTokeniser_SprintfToFile(&tokeniser, "}\n\n"); metadata.type.len, metadata.type.str,
}; metadata.name.len, metadata.name.str,
parsed_enum->name.len, parsed_enum->name.str);
for (CPPDeclToMetaValue const &decl_to_val : metadata.cpp_decl_to_val) tokeniser.indent_level++;
{ DEFER
StringLiteral const *cpp_decl = &decl_to_val.cpp_decl; {
StringLiteral const *value = &decl_to_val.value; CPPTokeniser_SprintfToFile(&tokeniser, "return nullptr;\n");
tokeniser.indent_level--;
CPPTokeniser_SprintfToFile(&tokeniser, "}\n\n");
};
if (parsed_enum->struct_or_class_decl) for (CPPDeclToMetaValue const &decl_to_val : metadata.cpp_decl_to_val)
{ {
CPPTokeniser_SprintfToFile(&tokeniser, StringLiteral const *cpp_decl = &decl_to_val.cpp_decl;
"if (val == %.*s::%.*s) ", StringLiteral const *value = &decl_to_val.value;
parsed_enum->name.len, parsed_enum->name.str,
cpp_decl->len, cpp_decl->str); if (parsed_enum->struct_or_class_decl)
{
CPPTokeniser_SprintfToFile(&tokeniser,
"if (val == %.*s::%.*s) ",
parsed_enum->name.len, parsed_enum->name.str,
cpp_decl->len, cpp_decl->str);
}
else
{
CPPTokeniser_SprintfToFile(&tokeniser,
"if (val == %.*s) ",
cpp_decl->len, cpp_decl->str);
}
CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, "{ return %.*s; }\n", value->len, value->str);
} }
else
{
CPPTokeniser_SprintfToFile(&tokeniser,
"if (val == %.*s) ",
cpp_decl->len, cpp_decl->str);
}
CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, "return \"%.*s\";\n", value->len, value->str);
} }
else
{
CPPTokeniser_SprintfToFile(&tokeniser,
"bool DqnInspectMetadata_%.*s(%.*s val, %.*s *value)\n{\n",
metadata.name.len, metadata.name.str,
parsed_enum->name.len, parsed_enum->name.str,
metadata.type.len, metadata.type.str
);
tokeniser.indent_level++;
DEFER
{
CPPTokeniser_SprintfToFile(&tokeniser, "return false;\n");
tokeniser.indent_level--;
CPPTokeniser_SprintfToFile(&tokeniser, "}\n\n");
};
for (CPPDeclToMetaValue const &decl_to_val : metadata.cpp_decl_to_val)
{
StringLiteral const *cpp_decl = &decl_to_val.cpp_decl;
StringLiteral const *value = &decl_to_val.value;
if (parsed_enum->struct_or_class_decl)
{
CPPTokeniser_SprintfToFile(&tokeniser,
"if (val == %.*s::%.*s) ",
parsed_enum->name.len, parsed_enum->name.str,
cpp_decl->len, cpp_decl->str);
}
else
{
CPPTokeniser_SprintfToFile(&tokeniser,
"if (val == %.*s) ",
cpp_decl->len, cpp_decl->str);
}
CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, "{ *value = %.*s; return true; }\n", value->len, value->str);
}
}
} }
} }
} }
@ -1804,6 +1679,7 @@ int main(int argc, char *argv[])
// //
// NOTE: Write DqnInspect_StructMemberMetadata Definition // NOTE: Write DqnInspect_StructMemberMetadata Definition
// //
#if 0
for (CPPDeclLinkedList<CPPVariableDecl> const *member = parsed_struct->members; member; member = member->next) for (CPPDeclLinkedList<CPPVariableDecl> const *member = parsed_struct->members; member; member = member->next)
{ {
CPPVariableDecl const *decl = &member->value; CPPVariableDecl const *decl = &member->value;
@ -1837,6 +1713,7 @@ int main(int argc, char *argv[])
tokeniser.indent_level--; tokeniser.indent_level--;
CPPTokeniser_SprintfToFile(&tokeniser, "};\n\n"); CPPTokeniser_SprintfToFile(&tokeniser, "};\n\n");
} }
#endif
// //
// Write DqnInspect_StructMembers Definition // Write DqnInspect_StructMembers Definition
@ -1859,8 +1736,10 @@ int main(int argc, char *argv[])
else else
CPPTokeniser_SprintfToFile(&tokeniser, "STR_AND_LEN(\"%.*s\"), // template_expr\n", decl->template_expr.len, decl->template_expr.str); CPPTokeniser_SprintfToFile(&tokeniser, "STR_AND_LEN(\"%.*s\"), // template_expr\n", decl->template_expr.len, decl->template_expr.str);
#if 0
if (member->metadata_array.len <= 0) CPPTokeniser_SprintfToFile(&tokeniser, "nullptr, 0, // metadata and metadata_len\n"); if (member->metadata_array.len <= 0) CPPTokeniser_SprintfToFile(&tokeniser, "nullptr, 0, // metadata and metadata_len\n");
else CPPTokeniser_SprintfToFile(&tokeniser, "DqnInspect_%.*s_%.*s_StructMemberMetadata, %d,\n", parsed_struct->name.len, parsed_struct->name.str, decl->name.len, decl->name.str, member->metadata_array.len); else CPPTokeniser_SprintfToFile(&tokeniser, "DqnInspect_%.*s_%.*s_StructMemberMetadata, %d,\n", parsed_struct->name.len, parsed_struct->name.str, decl->name.len, decl->name.str, member->metadata_array.len);
#endif
CPPTokeniser_SprintfToFile(&tokeniser, "%d // array_dimensions\n", decl->array_dimensions); CPPTokeniser_SprintfToFile(&tokeniser, "%d // array_dimensions\n", decl->array_dimensions);
tokeniser.indent_level--; tokeniser.indent_level--;
@ -1925,6 +1804,7 @@ int main(int argc, char *argv[])
{ {
// TODO(doyle): HACK. We should parse ptrs into the CPPVariableDecl, fixed size arrays into the name and const-ness into the type // TODO(doyle): HACK. We should parse ptrs into the CPPVariableDecl, fixed size arrays into the name and const-ness into the type
CPPVariableDecl *decl = &param_link->value; CPPVariableDecl *decl = &param_link->value;
#if 0
StringLiteral *type = &decl->type; StringLiteral *type = &decl->type;
char *type_end = (decl->template_expr.len > 0) char *type_end = (decl->template_expr.len > 0)
? decl->template_expr.str + decl->template_expr.len + 1 // +1 for the ending ">" on the template ? decl->template_expr.str + decl->template_expr.len + 1 // +1 for the ending ">" on the template
@ -1938,13 +1818,13 @@ int main(int argc, char *argv[])
char *name_end = name->str + name->len; char *name_end = name->str + name->len;
hack_decl_name = StringLiteral(name_start, static_cast<int>(name_end - name_start)); hack_decl_name = StringLiteral(name_start, static_cast<int>(name_end - name_start));
} }
#endif
CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, "%.*s", type->len, type->str); CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, "%.*s", decl->type.len, decl->type.str);
if (decl->template_expr.len > 0) if (decl->template_expr.len > 0)
CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, "<%.*s>", decl->template_expr.len, decl->template_expr.str); CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, "<%.*s>", decl->template_expr.len, decl->template_expr.str);
if (hack_decl_name.len > 0) if (decl->name.len > 0)
CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, " %.*s", hack_decl_name.len, hack_decl_name.str); CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, " %.*s", decl->name.len, decl->name.str);
if (decl->default_value.len > 0) if (decl->default_value.len > 0)
CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, " = %.*s", decl->default_value.len, decl->default_value.str); CPPTokeniser_SprintfToFileNoIndenting(&tokeniser, " = %.*s", decl->default_value.len, decl->default_value.str);

View File

@ -1,10 +1,7 @@
DQN_INSPECT enum struct EnumWithMetadata struct V3 {
{ V3(float a, float b, float c) { (void)a; (void)b; (void)c; }
Rect DQN_INSPECT_META(FilePath = "Rect.vert", FilePath2 = "Rect.frag"), float a, b, c;
Count,
}; };
struct V3 { V3(float a, float b) { (void)a; (void)b; } float test; };
struct V4 { float test; }; struct V4 { float test; };
template <typename T, int Size> template <typename T, int Size>
@ -14,6 +11,8 @@ enum struct OpenGLShader { Vertex, Count, };
DQN_INSPECT struct SampleStruct DQN_INSPECT struct SampleStruct
{ {
// TODO(doyle): This shit not support yet, you can imagine why
int const *const b, c, *d, *e;
// #if 0 // #if 0
// #endif // #endif
Array<V3, 32> lights; Array<V3, 32> lights;
@ -27,7 +26,6 @@ DQN_INSPECT struct SampleStruct
int draw_call_count; int draw_call_count;
const int *const a; const int *const a;
int const *const b, c, *d, *e;
const int f; const int f;
int const g; int const g;
int *const h; int *const h;
@ -35,13 +33,20 @@ DQN_INSPECT struct SampleStruct
int *********const j, k, ******l, *m; int *********const j, k, ******l, *m;
}; };
DQN_INSPECT enum struct EnumWithMetadata
{
Rect DQN_INSPECT_META(char const *FilePath = "Rect.vert", V3 Coords = V3(1, 2, 3)),
Square DQN_INSPECT_META(char const *FilePath = "Square.vert"),
Count,
};
DQN_INSPECT_GENERATE_PROTOTYPE(b = {}, c = nullptr, e = false, f = 1, g = "Hello world") DQN_INSPECT_GENERATE_PROTOTYPE(b = {}, c = nullptr, e = false, f = 1, g = "Hello world")
void Function1(int a, float b, char const *c, bool e, int f, char *g) void Function1(int a, float b, char const *c, bool e, int f, char *g)
{ {
(void)a; (void)b; (void)c; (void)e; (void)f; (void)g; (void)a; (void)b; (void)c; (void)e; (void)f; (void)g;
} }
DQN_INSPECT_GENERATE_PROTOTYPE(foo = V3(10, 20), bar = {120, 150}) DQN_INSPECT_GENERATE_PROTOTYPE(foo = V3(10, 20, 50), bar = {120, 150, 20})
void *Function2(V3 foo, V3 bar, ...) { (void)foo; (void)bar; return nullptr; } void *Function2(V3 foo, V3 bar, ...) { (void)foo; (void)bar; return nullptr; }
DQN_INSPECT_GENERATE_PROTOTYPE() DQN_INSPECT_GENERATE_PROTOTYPE()

View File

@ -12,205 +12,126 @@
#define CHAR_COUNT(str) (ARRAY_COUNT(str) - 1) #define CHAR_COUNT(str) (ARRAY_COUNT(str) - 1)
#define STR_AND_LEN(str) str, CHAR_COUNT(str) #define STR_AND_LEN(str) str, CHAR_COUNT(str)
char const *DqnInspect_EnumWithMetadata_Strings[] = {"Rect", "Count", };
char const *DqnInspect_EnumString(EnumWithMetadata val)
{
if (val == EnumWithMetadata::Rect) return DqnInspect_EnumWithMetadata_Strings[0]; // "Rect"
if (val == EnumWithMetadata::Count) return DqnInspect_EnumWithMetadata_Strings[1]; // "Count"
return nullptr;
}
char const *DqnInspect_FilePathMetadata(EnumWithMetadata val)
{
if (val == EnumWithMetadata::Rect) return "Rect.vert";
return nullptr;
}
char const *DqnInspect_FilePath2Metadata(EnumWithMetadata val)
{
if (val == EnumWithMetadata::Rect) return "Rect.frag";
return nullptr;
}
DqnInspect_StructMemberMetadata const DqnInspect_SampleStruct_ebo_StructMemberMetadata[] =
{
{
DqnInspect_StructMemberMetadataType::String,
STR_AND_LEN("DisplayName"), STR_AND_LEN("Element Buffer Object"),
},
};
DqnInspect_StructMemberMetadata const DqnInspect_SampleStruct_vao_StructMemberMetadata[] =
{
{
DqnInspect_StructMemberMetadataType::String,
STR_AND_LEN("DisplayName"), STR_AND_LEN("Vertex Array Object"),
},
{
DqnInspect_StructMemberMetadataType::String,
STR_AND_LEN("OpenGLVersion"), STR_AND_LEN("330"),
},
};
DqnInspect_StructMemberMetadata const DqnInspect_SampleStruct_draw_color_StructMemberMetadata[] =
{
{
DqnInspect_StructMemberMetadataType::String,
STR_AND_LEN("DisplayName"), STR_AND_LEN("HelloWorld"),
},
};
DqnInspect_StructMember const DqnInspect_SampleStruct_StructMembers[] = DqnInspect_StructMember const DqnInspect_SampleStruct_StructMembers[] =
{ {
{ {
STR_AND_LEN("Array"), STR_AND_LEN("lights"), STR_AND_LEN("int const *c"), STR_AND_LEN("b"),
STR_AND_LEN("V3, 32"), // template_expr
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("Array"), STR_AND_LEN("camera_matrixes"),
STR_AND_LEN("V4, 32"), // template_expr
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("char"), STR_AND_LEN("bitmaps"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
2 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("shaders"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions
},
{
STR_AND_LEN("void"), STR_AND_LEN("win32_handle"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("ebo"),
nullptr, 0, // template_expr and template_expr_len
DqnInspect_SampleStruct_ebo_StructMemberMetadata, 1,
0 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("vbo"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("vao"),
nullptr, 0, // template_expr and template_expr_len
DqnInspect_SampleStruct_vao_StructMemberMetadata, 2,
0 // array_dimensions
},
{
STR_AND_LEN("V4"), STR_AND_LEN("draw_color"),
nullptr, 0, // template_expr and template_expr_len
DqnInspect_SampleStruct_draw_color_StructMemberMetadata, 1,
0 // array_dimensions
},
{
STR_AND_LEN("V3"), STR_AND_LEN("lighting_ambient_coeff"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("draw_call_count"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("const"), STR_AND_LEN("int"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("const"), STR_AND_LEN("a"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("b"),
nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions 1 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("c"), STR_AND_LEN("int"), STR_AND_LEN("c"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions 0 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("d"), STR_AND_LEN("int const *const b, c, *"), STR_AND_LEN("d"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions 1 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("e"), STR_AND_LEN("int const *const b, c, *d, *"), STR_AND_LEN("e"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions 1 // array_dimensions
}, },
{
STR_AND_LEN("Array"), STR_AND_LEN("lights"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{
STR_AND_LEN("Array"), STR_AND_LEN("camera_matrixes"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{
STR_AND_LEN("char **"), STR_AND_LEN("bitmaps"),
nullptr, 0, // template_expr and template_expr_len
2 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("shaders"),
nullptr, 0, // template_expr and template_expr_len
1 // array_dimensions
},
{
STR_AND_LEN("void *"), STR_AND_LEN("win32_handle"),
nullptr, 0, // template_expr and template_expr_len
1 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("ebo"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{
STR_AND_LEN("vao"), STR_AND_LEN("DQN_INSPECT_META"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{
STR_AND_LEN("V4"), STR_AND_LEN("draw_color"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{
STR_AND_LEN("V3"), STR_AND_LEN("lighting_ambient_coeff"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{
STR_AND_LEN("int"), STR_AND_LEN("draw_call_count"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{
STR_AND_LEN("const"), STR_AND_LEN("int"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{
STR_AND_LEN("const"), STR_AND_LEN("a"),
nullptr, 0, // template_expr and template_expr_len
0 // array_dimensions
},
{ {
STR_AND_LEN("const"), STR_AND_LEN("int"), STR_AND_LEN("const"), STR_AND_LEN("int"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions 0 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("g"), STR_AND_LEN("int"), STR_AND_LEN("g"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions 0 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("h"), STR_AND_LEN("int *c"), STR_AND_LEN("h"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions 1 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("i"), STR_AND_LEN("int const*"), STR_AND_LEN("i"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions 1 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("j"), STR_AND_LEN("int *********c"), STR_AND_LEN("j"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
9 // array_dimensions 9 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("k"), STR_AND_LEN("int"), STR_AND_LEN("k"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
0 // array_dimensions 0 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("l"), STR_AND_LEN("int *********const j, k, ******"), STR_AND_LEN("l"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
6 // array_dimensions 6 // array_dimensions
}, },
{ {
STR_AND_LEN("int"), STR_AND_LEN("m"), STR_AND_LEN("int *********const j, k, ******l, *"), STR_AND_LEN("m"),
nullptr, 0, // template_expr and template_expr_len nullptr, 0, // template_expr and template_expr_len
nullptr, 0, // metadata and metadata_len
1 // array_dimensions 1 // array_dimensions
}, },
}; };
@ -229,9 +150,32 @@ DqnInspect_Struct const *DqnInspect_GetStruct(SampleStruct const *val)
return result; return result;
} }
void Function1(int a, float b = {}, char const *c = nullptr, bool e = false, int f = 1, char *g = "Hello world"); char const *DqnInspect_EnumWithMetadata_Strings[] = {"Rect", "Square", "Count", };
void * Function2(V3 foo = V3(10, 20), V3 bar = {120, 150}, ...);
Array<int const *, 3> const *const Function3(Array<int, 32> const *foobar); char const *DqnInspectEnum_Stringify(EnumWithMetadata val, int *len = nullptr)
{
if (val == EnumWithMetadata::Rect) { if (len) *len = CHAR_COUNT("Rect"); return DqnInspect_EnumWithMetadata_Strings[0]; }
if (val == EnumWithMetadata::Square) { if (len) *len = CHAR_COUNT("Square"); return DqnInspect_EnumWithMetadata_Strings[1]; }
if (val == EnumWithMetadata::Count) { if (len) *len = CHAR_COUNT("Count"); return DqnInspect_EnumWithMetadata_Strings[2]; }
return nullptr;
}
char const * DqnInspectMetadata_FilePath(EnumWithMetadata val)
{
if (val == EnumWithMetadata::Rect) { return "Rect.vert"; }
if (val == EnumWithMetadata::Square) { return "Square.vert"; }
return nullptr;
}
bool DqnInspectMetadata_Coords(EnumWithMetadata val, V3 *value)
{
if (val == EnumWithMetadata::Rect) { *value = V3(1, 2, 3); return true; }
return false;
}
void Function1(int a, float b = {}, char const * c = nullptr, bool e = false, int f = 1, char * g = "Hello world");
void * Function2(V3 foo = V3(10, 20, 50), V3 bar = {120, 150, 20}, ...);
Array<int const *, 3> const *const Function3(Array<int, 32> const * foobar);
#undef ARRAY_COUNT #undef ARRAY_COUNT
#undef CHAR_COUNT #undef CHAR_COUNT

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@ -9,7 +9,7 @@ Project("{911E67C6-3D85-4FCE-B560-20A9C3E3FF48}") = "DqnInspect", "..\..\Bin\Dqn
Executable = F:\Home\Code\dqn\Bin\DqnInspect.exe Executable = F:\Home\Code\dqn\Bin\DqnInspect.exe
RemoteMachine = THAI-XPS13 RemoteMachine = THAI-XPS13
StartingDirectory = F:\Home\Code\dqn\Data\ StartingDirectory = F:\Home\Code\dqn\Data\
Arguments = generate_prototypes DqnInspect_TestData.h Arguments = DqnInspect_TestData.h
Environment = Default Environment = Default
LaunchingEngine = 00000000-0000-0000-0000-000000000000 LaunchingEngine = 00000000-0000-0000-0000-000000000000
UseLegacyDebugEngines = No UseLegacyDebugEngines = No