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53
README.md
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@ -1,45 +1,56 @@
<img src="https://raw.githubusercontent.com/sam-astro/Z-Sharp/master/ExtraResources/ZS-Gem-Icon-Small.png"/><img src="https://raw.githubusercontent.com/sam-astro/Z-Sharp/master/ExtraResources/ZS-Logo-Light-Small.png"/> <img src="https://raw.githubusercontent.com/sam-astro/Z-Sharp/master/ExtraResources/ZS-Gem-Icon-Small.png"/><img src="https://raw.githubusercontent.com/sam-astro/Z-Sharp/master/ExtraResources/ZS-Logo-Light-Small.png"/>
> Z-Sharp is no longer in development! This project was never meant to go beyond the scope of a simple thing I could make pong in, yet people continue to ask for features and fixes, and I continue to oblige. So sadly, even though this was a cool project in which I learned a lot, it will be ending now. I will eventually make some docs and standards for the syntax, and will still leave this repository open. This way anybody can make their own interpreter or compiler for it. I will also still accept pull requests for any changes to this repository.
## Introduction ## Introduction
Z-Sharp is a custom programming language I made because I don't like c++ very much (Z-Sharp's interpreter is written in c++ though). Z-Sharp scripts have the file extension .ZS. The base syntax and formatting I would say is quite similar to C# or Python, but differs as task complexity increases. It also has support for graphics using SDL2. Z-Sharp is a custom programming language I made because I don't like c++ very much (Z-Sharp's interpreter is written in c++ though). Z-Sharp scripts have the file extension .ZS. The base syntax and formatting I would say is quite similar to C# or Python, but differs as task complexity increases. It has support for graphics using SDL2, and by default is not enabled.
Before using Z#: Before using Z#:
There is ***no documentation***, ***strings*** barely work, ***performance*** isn't great, the syntax is ***very specific***, and most errors just cause it to ***crash without warning***. I am just a *single developer* working on this during my free time; between school, other projects, and YouTube. Z-Sharp will most likely never be finished, since it was really supposed to end when the video was published about it. There is ***no documentation***, ***strings*** barely work, ***performance*** isn't great, the syntax is ***very specific***, and most errors just cause it to ***crash without warning***. I am just a *single developer* working on this during my free time; between school, other projects, and YouTube. Z-Sharp will most likely never be finished, since it was really supposed to end when the video was published about it.
If you are trying to use a common programming language feature, ask yourself this: ***Is this feature required to play pong?*** If not, then most likely that feature ***has not been implemented yet***. I initially only made the language so I could create pong and make a video about it, so it really is the ***bare minimum***. If you are trying to use a common programming language feature, ask yourself this: ***Is this feature required to play pong?*** If not, then most likely that feature ***has not been implemented yet***. I initially only made the language so I could create pong and make a video about it, so it really is the ***bare minimum***.
## Documentation and getting started:
[The docs and tutorial](https://spazelectro.github.io/ZSharpDocs/#/README)
## Installation ## Installation
Downloading or installing is very simple, here is how depending on your version and operating system: Downloading or installing is very simple, here is how depending on your version and operating system:
### Windows ### Windows
1. Navigate to [the most recent release](https://github.com/sam-astro/Z-Sharp/releases) and download `ZSharp-Win-Installer.zip`. 1. Navigate to [the most recent release](https://github.com/sam-astro/Z-Sharp/releases) and download `ZSharp-Win-Installer.zip`.
2. Unzip `ZSharp-Win-Installer.zip` and open the unzipped folder. 2. Unzip `ZSharp-Win-Installer.zip` and open the unzipped folder.
3. Inside is a single file titled `ZSharp-Setup.exe`. Run it, and follow the setup instructions. 3. Inside is a single file titled `ZSharp-Setup.exe`. Run it, and follow the setup instructions.
4. If it fails to run, make sure the `MS Visual Runtime and MSVC C++ Redistribute` are installed. You can download them [here from Microsoft](https://docs.microsoft.com/en-us/cpp/windows/latest-supported-vc-redist) 4. Now that it is installed, there are a few ways to use it:
5. Now that it is installed, there are a few ways to use it:
* (recommended) Any ZSharp file that ends with .ZS will automatically be associated with the interpreter. Just double-click it, and the interpreter will run. * (recommended) Any ZSharp file that ends with .ZS will automatically be associated with the interpreter. Just double-click it, and the interpreter will run.
* Drag and drop any .ZS script directly onto the executable. * Drag and drop any .ZS script directly onto the executable.
* Use command line, providing path to interpreter and then to script like so: * Use command line, providing path to interpreter and then to script like so:
`> ./ZSharp.exe ./Pong-Example-Project/script.zs` `> ./ZSharp.exe ./Pong-Example-Project/script.zs`
6. Feel free to use and edit the `Pong-Example-Project`. It is a single script called `script.zs`, and you can open it with any of the methods above. It is also located on the releases page. 5. Feel free to use and edit the `Pong-Example-Project`. It is a single script called `script.zs`, and you can open it with any of the methods above. It is also located on the releases page.
> If you don't want to install ZSharp on your device, or you want easier acces to the executable and .DLLs, another version is provided called `ZS_Win_Base_Raw.zip`. This just contains all of the files the installer puts on your computer. > If you don't want to install ZSharp on your device, or you want easier acces to the executable and .DLLs, another version is provided called `ZS_Win_Base_Raw.zip`. This just contains all of the files the installer puts on your computer.
### Linux ### Linux
1. Install requirements: `SDL2, SDL2 Image, SDL2 TTF` Commands for `apt` and `pacman` below: 1. Install requirements:
* You need the package ***libsdl2-dev***.
#### Debian For Debian based operating systems you can install it with
```$ sudo apt install libsdl2-dev```
``` For Arch based operating systems you can install it with
$ sudo apt install libsdl2-dev libsdl2-image-dev libsdl2-ttf-dev
```
#### Arch ```$ sudo pacman -S sdl2```
* You also need the package ***libsdl2-image-dev***.
``` For Debian based operating systems you can install it with
$ sudo pacman -S sdl2 sdl2_image sdl2_ttf
``` ```$ sudo apt install libsdl2-image-dev```
For Arch based operating systems you can install it with
```$ sudo pacman -S sdl2_image```
* You also need the package ***libsdl2-ttf-dev***.
For Debian based operating systems you can install it with
```$ sudo apt install libsdl2-ttf-dev```
For Arch based operating systems you can install it with
```$ sudo pacman -S sdl2_ttf```
2. Navigate to [the most recent release](https://github.com/sam-astro/Z-Sharp/releases) and download `ZSharp-Linux.zip`. 2. Navigate to [the most recent release](https://github.com/sam-astro/Z-Sharp/releases) and download `ZSharp-Linux.zip`.
3. Unzip `ZSharp-Linux.zip` and open the unzipped folder. 3. Unzip `ZSharp-Linux.zip` and open the unzipped folder.
@ -73,7 +84,7 @@ func Main()
if s == "r" if s == "r"
{ {
Printl(s + " is r") print s + " is r"
} }
int functionNumber = ExampleFunction("A", s) int functionNumber = ExampleFunction("A", s)
@ -87,8 +98,8 @@ func Main()
/// be assigned at all on execute and can be left blank /// be assigned at all on execute and can be left blank
func ExampleFunction(inputA, inputB) func ExampleFunction(inputA, inputB)
{ {
Printl("In A is: " + inputA) print "In A is: " + inputA
Printl("In B is: " + inputB) print "In B is: " + inputB
// Return a value to the valling location // Return a value to the valling location
return 4 return 4

365
ZSharp/Main.cpp
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@ -2,10 +2,9 @@
#include <iostream> #include <iostream>
#include <fstream> #include <fstream>
#include <string> #include <string>
//bool DEVELOPER_MESSAGES = true;
#define DEVELOPER_MESSAGES false #define DEVELOPER_MESSAGES false
#define EXAMPLE_PROJECT false #define EXAMPLE_PROJECT false
#define NAMEVERSION "ZSharp v2.1.3-alpha" #define NAMEVERSION "ZSharp v2.1.0-alpha"
#if defined(__unix__) #if defined(__unix__)
#define UNIX true #define UNIX true
@ -78,13 +77,10 @@ boost::any GetVariableValue(const string& varName, const unordered_map<string, b
// Check if there is a variable with the specified name // Check if there is a variable with the specified name
bool IsVar(const string& varName, const unordered_map<string, boost::any>& variableValues) bool IsVar(const string& varName, const unordered_map<string, boost::any>& variableValues)
{ {
if (split(varName, '.')[0] == "ZS") if (variableValues.find(split(varName, '.')[0]) != variableValues.end() && split(varName, '.')[0] != "ZS")
return false;
if (variableValues.find(split(varName, '.')[0]) != variableValues.end())
return true; return true;
else
return false; return false;
} }
// Return a vector of values that correspond to a vector of input variable names // Return a vector of values that correspond to a vector of input variable names
@ -115,20 +111,6 @@ vector<boost::any> VarValues(const vector<string>& varNames, unordered_map<strin
return realValues; return realValues;
} }
void printVarValues(const vector<string>& vec, unordered_map<string, boost::any>& variableValues)
{
cout << "<";
for (int i = 0; i < vec.size(); i++)
{
cout << AnyAsString(GetVariableValue(vec.at(i), globalVariableValues));
cout << AnyAsString(GetVariableValue(vec.at(i), variableValues));
cout << " | ";
}
cout << ">";
cout << endl;
}
bool IsFunction(const string& funcName) bool IsFunction(const string& funcName)
{ {
if (functionValues.find(funcName) != functionValues.end()) if (functionValues.find(funcName) != functionValues.end())
@ -138,7 +120,10 @@ bool IsFunction(const string& funcName)
} }
bool IsZSFunction(const string& funcName) bool IsZSFunction(const string& funcName)
{ {
return startsWith(funcName, "ZS."); if (funcName[0] == 'Z' && funcName[1] == 'S' && funcName[2] == '.')
return true;
else
return false;
} }
boost::any EvalExpression(const string& ex, unordered_map<string, boost::any>& variableValues) boost::any EvalExpression(const string& ex, unordered_map<string, boost::any>& variableValues)
@ -161,26 +146,30 @@ boost::any EvalExpression(const string& ex, unordered_map<string, boost::any>& v
// start -> FuncCall(0, x, OtherFunc(a)) // start -> FuncCall(0, x, OtherFunc(a))
// changeto -> 0, x, OtherFunc(a) // changeto -> 0, x, OtherFunc(a)
string insideFunArgs = betweenChars(expression, '(', ')'); string insideFunArgs = betweenChars(expression, '(', ')');
#if DEVELOPER_MESSAGES == true
cout << insideFunArgs << endl;
#endif
vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')'); vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')');
#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
cout << split(expression, '(')[0] << " [" << unWrapVec(argList) << "]" << endl; cout << "[" << unWrapVec(argList) << "]" << endl;
printVarValues(argList, variableValues);
#endif #endif
vector<boost::any> funcArgs = VarValues(argList, variableValues); vector<boost::any> funcArgs = VarValues(argList, variableValues);
return ExecuteFunction(split(expression, '(')[0], funcArgs); return ExecuteFunction(trim(split(expression, '(')[0]), funcArgs);
} }
else if (isZS && !inQuotes) else if (isZS && !inQuotes)
{ {
// start -> FuncCall(0, x, OtherFunc(a)) // start -> FuncCall(0, x, OtherFunc(a))
// changeto -> 0, x, OtherFunc(a) // changeto -> 0, x, OtherFunc(a)
string insideFunArgs = betweenChars(expression, '(', ')'); string insideFunArgs = betweenChars(expression, '(', ')');
#if DEVELOPER_MESSAGES == true
cout << insideFunArgs << endl;
#endif
vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')'); vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')');
#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
cout << split(expression, '(')[0] << " [" << unWrapVec(argList) << "]" << endl; cout << "[" << unWrapVec(argList) << "]" << endl;
printVarValues(argList, variableValues);
#endif #endif
vector<boost::any> funcArgs = VarValues(argList, variableValues); vector<boost::any> funcArgs = VarValues(argList, variableValues);
return ZSFunction(split(expression, '(')[0], funcArgs); return ZSFunction(trim(split(expression, '(')[0]), funcArgs);
} }
else else
return GetVariableValue(expression, variableValues); return GetVariableValue(expression, variableValues);
@ -211,13 +200,15 @@ boost::any EvalExpression(const string& ex, unordered_map<string, boost::any>& v
// start -> FuncCall(0, x, OtherFunc(a)) // start -> FuncCall(0, x, OtherFunc(a))
// changeto -> 0, x, OtherFunc(a) // changeto -> 0, x, OtherFunc(a)
string insideFunArgs = betweenChars(expression, '(', ')'); string insideFunArgs = betweenChars(expression, '(', ')');
#if DEVELOPER_MESSAGES == true
cout << insideFunArgs << endl;
#endif
vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')'); vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')');
#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
cout << "[" << unWrapVec(argList) << "]" << endl; cout << unWrapVec(argList) << endl;
printVarValues(argList, variableValues);
#endif #endif
vector<boost::any> funcArgs = VarValues(argList, variableValues); vector<boost::any> funcArgs = VarValues(argList, variableValues);
string returnVal = AnyAsString(ExecuteFunction(split(expression, '(')[0], funcArgs)); string returnVal = AnyAsString(ExecuteFunction(trim(split(expression, '(')[0]), funcArgs));
newExpression += returnVal; newExpression += returnVal;
} }
else if (split(name, '.')[0] == "ZS" && !inQuotes) else if (split(name, '.')[0] == "ZS" && !inQuotes)
@ -225,13 +216,15 @@ boost::any EvalExpression(const string& ex, unordered_map<string, boost::any>& v
// start -> FuncCall(0, x, OtherFunc(a)) // start -> FuncCall(0, x, OtherFunc(a))
// changeto -> 0, x, OtherFunc(a) // changeto -> 0, x, OtherFunc(a)
string insideFunArgs = betweenChars(expression, '(', ')'); string insideFunArgs = betweenChars(expression, '(', ')');
#if DEVELOPER_MESSAGES == true
cout << insideFunArgs << endl;
#endif
vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')'); vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')');
#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
cout << "[" << unWrapVec(argList) << "]" << endl; cout << unWrapVec(argList) << endl;
printVarValues(argList, variableValues);
#endif #endif
vector<boost::any> funcArgs = VarValues(argList, variableValues); vector<boost::any> funcArgs = VarValues(argList, variableValues);
string returnVal = AnyAsString(ZSFunction(split(expression, '(')[0], funcArgs)); string returnVal = AnyAsString(ExecuteFunction(trim(split(expression, '(')[0]), funcArgs));
newExpression += returnVal; newExpression += returnVal;
} }
else else
@ -284,33 +277,27 @@ boost::any EvalExpression(const string& ex, unordered_map<string, boost::any>& v
return evaluate(newExpression); return evaluate(newExpression);
} }
bool BooleanLogic(const string& valA, const string& comparer, const string& valB, unordered_map<string, boost::any>& variableValues) bool BooleanLogic(const string& valA, const string& determinant, const string& valB, unordered_map<string, boost::any>& variableValues)
{ {
boost::any valARealValue; boost::any valARealValue = EvalExpression(valA, variableValues);
boost::any valBRealValue; boost::any valBRealValue = EvalExpression(valB, variableValues);
if (valA != "")
valARealValue = EvalExpression(valA, variableValues);
if (valB != "")
valBRealValue = EvalExpression(valB, variableValues);
#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
InterpreterLog(AnyAsString(valARealValue) + " " + comparer + " " + AnyAsString(valBRealValue) + " : " + AnyAsString(valA) + " " + comparer + " " + AnyAsString(valB) + " : " + to_string(AnyAsString(valARealValue) == AnyAsString(valBRealValue))); InterpreterLog(AnyAsString(valARealValue) + " " + determinant + " " + AnyAsString(valBRealValue) + " : " + AnyAsString(valA) + " " + determinant + " " + AnyAsString(valB) + " : " + to_string(AnyAsString(valARealValue) == AnyAsString(valBRealValue)));
#endif #endif
if (comparer == "==") if (determinant == "==")
return any_compare(valARealValue, valBRealValue); return any_compare(valARealValue, valBRealValue);
else if (comparer == "!=") else if (determinant == "!=")
return !any_compare(valARealValue, valBRealValue); return !any_compare(valARealValue, valBRealValue);
else if (comparer == ">=") else if (determinant == ">=")
return AnyAsFloat(valARealValue) >= AnyAsFloat(valBRealValue); return AnyAsFloat(valARealValue) >= AnyAsFloat(valBRealValue);
else if (comparer == "<=") else if (determinant == "<=")
return AnyAsFloat(valARealValue) <= AnyAsFloat(valBRealValue); return AnyAsFloat(valARealValue) <= AnyAsFloat(valBRealValue);
else if (comparer == ">") else if (determinant == ">")
return AnyAsFloat(valARealValue) > AnyAsFloat(valBRealValue); return AnyAsFloat(valARealValue) > AnyAsFloat(valBRealValue);
else if (comparer == "<") else if (determinant == "<")
return AnyAsFloat(valARealValue) < AnyAsFloat(valBRealValue); return AnyAsFloat(valARealValue) < AnyAsFloat(valBRealValue);
else if (comparer == "")
return AnyAsBool(valARealValue) == true;
else else
LogWarning("unrecognized comparer \'" + comparer + "\'"); LogWarning("unrecognized determinant \'" + determinant + "\'");
return false; return false;
} }
@ -397,12 +384,12 @@ int varOperation(const vector<string>& str, unordered_map<string, boost::any>& v
boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unordered_map<string, boost::any>& variableValues) boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unordered_map<string, boost::any>& variableValues)
{ {
//// Check if the first two chars are '//', which would make it a comment // Check if the first two chars are '//', which would make it a comment
//if (startsWith(words.at(lineNum).at(0), "//")) if (words.at(lineNum).at(0)[0] == '/' && words.at(lineNum).at(0)[1] == '/')
// return nullType; return nullType;
// If print statement (deprecated, now use ZS.System.Print() function) // If print statement (deprecated, now use ZS.System.Print() function)
if (words.at(lineNum).at(0) == "print") else if (words.at(lineNum).at(0) == "print")
{ {
cout << StringRaw(AnyAsString(EvalExpression(unWrapVec(vector<string>(words.at(lineNum).begin() + 1, words.at(lineNum).end())), variableValues))) << endl; cout << StringRaw(AnyAsString(EvalExpression(unWrapVec(vector<string>(words.at(lineNum).begin() + 1, words.at(lineNum).end())), variableValues))) << endl;
return nullType; return nullType;
@ -412,30 +399,32 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
else if (words.at(lineNum).at(0) == "return") else if (words.at(lineNum).at(0) == "return")
return EvalExpression(unWrapVec(vector<string>(words.at(lineNum).begin() + 1, words.at(lineNum).end())), variableValues); return EvalExpression(unWrapVec(vector<string>(words.at(lineNum).begin() + 1, words.at(lineNum).end())), variableValues);
// Check if it is ZS Builtin function call // Check if it is ZS Builtin function
else if (startsWith(words.at(lineNum).at(0), "ZS.")) else if (words.at(lineNum).at(0)[0] == 'Z' && words.at(lineNum).at(0)[1] == 'S' && words.at(lineNum).at(0)[2] == '.')
return EvalExpression(unWrapVec(words.at(lineNum)), variableValues); return EvalExpression(unWrapVec(words.at(lineNum)), variableValues);
// Check if it is function call // Check if it is function
else if (IsFunction(split(words.at(lineNum).at(0), '(')[0])) else if (IsFunction(trim(split(words.at(lineNum).at(0), '(')[0])))
{ {
// start -> FuncCall(0, x, OtherFunc(a)) // No args provided
// changeto -> 0, x, OtherFunc(a) if (count(words.at(lineNum).at(0), '(') > 0 && count(words.at(lineNum).at(0), ')') > 0)
string insideFunArgs = betweenChars(unWrapVec(words.at(lineNum)), '(', ')'); ExecuteFunction(trim(split(words.at(lineNum).at(0), '(')[0]), vector<boost::any>());
vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')'); else
#if DEVELOPER_MESSAGES == true { // Args provided, parse them first
cout << unWrapVec(argList) << endl; // start -> FuncCall(0, x, OtherFunc(a))
printVarValues(argList, variableValues); // changeto -> 0, x, OtherFunc(a)
#endif string insideFunArgs = betweenChars(unWrapVec(words.at(lineNum)), '(', ')');
vector<boost::any> funcArgs = VarValues(argList, variableValues); vector<string> argList = splitNoOverlap(insideFunArgs, ',', '(', ')');
ExecuteFunction(split(words.at(lineNum).at(0), '(')[0], funcArgs); vector<boost::any> funcArgs = VarValues(argList, variableValues);
ExecuteFunction(trim(split(words.at(lineNum).at(0), '(')[0]), funcArgs);
}
return nullType; return nullType;
} }
// Check if it is a SplitThread call // Check if it is a SplitThread call
else if (startsWith(words.at(lineNum).at(0), "SplitThread")) else if (startsWith(words.at(lineNum).at(0), "SplitThread"))
{ {
vector<string> lineContents = words.at(lineNum); vector<string> lineContents = removeTabs(words.at(lineNum), 10);
cout << "New Thread: " << words.at(lineNum).at(0) << endl; cout << "New Thread: " << words.at(lineNum).at(0) << endl;
//lineContents.at(0) = betweenChars(lineContents.at(0), '(', ')'); //lineContents.at(0) = betweenChars(lineContents.at(0), '(', ')');
@ -449,31 +438,18 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
} }
// Check if global variable declaration // Check if global variable declaration
else if (words.at(lineNum).at(0) == "global") else if (trim(words.at(lineNum).at(0)) == "global")
{ {
try globalVariableValues[words.at(lineNum).at(2)] = EvalExpression(unWrapVec(slice(words.at(lineNum), 4, -1)), variableValues);
{
globalVariableValues[words.at(lineNum).at(2)] = EvalExpression(unWrapVec(slice(words.at(lineNum), 4, -1)), variableValues);
}
catch (const std::exception&)
{
LogCriticalError("Error at line: " + to_string(lineNum) + ", " + unWrapVec(words.at(lineNum)) + ", couldn't initialize variable.");
}
return nullType; return nullType;
} }
// Iterate through all types to see if line inits or // Iterate through all types to see if line inits or
// re-inits a variable then store it with it's value // re-inits a variable then store it with it's value
else if (countInVector(types, words.at(lineNum).at(0)) > 0) else if (countInVector(types, trim(words.at(lineNum).at(0))) > 0)
{ {
try //cout << words.at(lineNum).at(1) << "=" << unWrapVec(slice(words.at(lineNum), 3, -1)) << "=" << AnyAsString(EvalExpression(unWrapVec(slice(words.at(lineNum), 3, -1)), variableValues)) << endl;
{ variableValues[words.at(lineNum).at(1)] = EvalExpression(unWrapVec(slice(words.at(lineNum), 3, -1)), variableValues);
variableValues[words.at(lineNum).at(1)] = EvalExpression(unWrapVec(slice(words.at(lineNum), 3, -1)), variableValues);
}
catch (const std::exception&)
{
LogCriticalError("Error at line: " + to_string(lineNum) + ", " + unWrapVec(words.at(lineNum)) + ", couldn't initialize variable.");
}
return nullType; return nullType;
} }
@ -502,7 +478,6 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
vector<vector<string>> whileContents; vector<vector<string>> whileContents;
vector<string> whileParameters; vector<string> whileParameters;
// Gather the parameters that must be == true for the loop to run
int numOfBrackets = 0; int numOfBrackets = 0;
for (int w = 1; w < (int)words.at(lineNum).size(); w++) { for (int w = 1; w < (int)words.at(lineNum).size(); w++) {
if (count(words.at(lineNum).at(w), '{') == 0) if (count(words.at(lineNum).at(w), '{') == 0)
@ -515,21 +490,7 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
} }
} }
// If the statement is already false, don't bother gathering the contents lineNum += 1;
if (BooleanLogic(whileParameters.at(0), whileParameters.at(1), whileParameters.at(2), variableValues) == false) {
lineNum++;
while (lineNum < (int)words.size())
{
numOfBrackets += countInVector(words.at(lineNum), "{") - countInVector(words.at(lineNum), "}");
if (numOfBrackets == 0)
break;
lineNum++;
}
return nullType;
}
// Gather the contents
lineNum++;
while (lineNum < (int)words.size()) while (lineNum < (int)words.size())
{ {
numOfBrackets += countInVector(words.at(lineNum), "{") - countInVector(words.at(lineNum), "}"); numOfBrackets += countInVector(words.at(lineNum), "{") - countInVector(words.at(lineNum), "}");
@ -539,30 +500,16 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
lineNum++; lineNum++;
} }
//whileContents = removeTabsWdArry(whileContents, 1); whileContents = removeTabsWdArry(whileContents, 1);
// Loop while true
while (BooleanLogic(whileParameters.at(0), whileParameters.at(1), whileParameters.at(2), variableValues)) while (BooleanLogic(whileParameters.at(0), whileParameters.at(1), whileParameters.at(2), variableValues))
{ {
//Iterate through all lines in while loop //Iterate through all lines in while loop
for (int lineNum = 0; lineNum < (int)whileContents.size(); lineNum++) for (int lineNum = 0; lineNum < (int)whileContents.size(); lineNum++)
{ {
if (whileContents.at(lineNum).at(0) == "continue")
break; // Stops iterating through lines and return to beginning
if (whileContents.at(lineNum).at(0) == "break")
return nullType; // Stops iterating through lines and leave while loop
boost::any returnVal = ProcessLine(whileContents, lineNum, variableValues); boost::any returnVal = ProcessLine(whileContents, lineNum, variableValues);
if (!returnVal.empty()) { if (!returnVal.empty())
try return returnVal;
{
BREAK t = any_cast<BREAK>(returnVal);
return nullType;
}
catch (boost::bad_any_cast)
{
return returnVal;
}
}
} }
} }
return nullType; return nullType;
@ -574,7 +521,6 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
vector<vector<string>> ifContents; vector<vector<string>> ifContents;
vector<string> ifParameters; vector<string> ifParameters;
// Gather the parameters that must be == true for the loop to run
int numOfBrackets = 0; int numOfBrackets = 0;
for (int w = 1; w < (int)words.at(lineNum).size(); w++) { for (int w = 1; w < (int)words.at(lineNum).size(); w++) {
if (count(words.at(lineNum).at(w), '{') == 0) if (count(words.at(lineNum).at(w), '{') == 0)
@ -587,20 +533,6 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
} }
} }
// If the statement is already false, don't bother gathering the contents
if (BooleanLogic(ifParameters.at(0), ifParameters.at(1), ifParameters.at(2), variableValues) == false) {
lineNum++;
while (lineNum < (int)words.size())
{
numOfBrackets += countInVector(words.at(lineNum), "{") - countInVector(words.at(lineNum), "}");
if (numOfBrackets == 0)
break;
lineNum++;
}
return nullType;
}
// Gather the contents
lineNum++; lineNum++;
while (lineNum < (int)words.size()) while (lineNum < (int)words.size())
{ {
@ -610,24 +542,22 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
ifContents.push_back(words.at(lineNum)); ifContents.push_back(words.at(lineNum));
lineNum++; lineNum++;
} }
//ifContents = removeTabsWdArry(ifContents, 1);
// Execute if true ifContents = removeTabsWdArry(ifContents, 1);
if (BooleanLogic(ifParameters.at(0), ifParameters.at(1), ifParameters.at(2), variableValues)) if (BooleanLogic(ifParameters.at(0), ifParameters.at(1), ifParameters.at(2), variableValues))
{ {
//Iterate through all lines in if statement //Iterate through all lines in if statement
for (int l = 0; l < (int)ifContents.size(); l++) for (int l = 0; l < (int)ifContents.size(); l++)
{ {
if (ifContents.at(l).at(0) == "break")
return breakReOp; // Stops iterating through lines and leave while loop
boost::any returnVal = ProcessLine(ifContents, l, variableValues); boost::any returnVal = ProcessLine(ifContents, l, variableValues);
if (!returnVal.empty()) if (!returnVal.empty())
return returnVal; return returnVal;
} }
} }
else if (words.size() > lineNum) else if (words.size() > lineNum + 1)
{ {
if (words[lineNum].at(0) == "else") if (words[lineNum + 1].at(0) == "else")
{ {
vector<vector<string>> elseContents; vector<vector<string>> elseContents;
vector<string> elseParameters; vector<string> elseParameters;
@ -651,9 +581,9 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
lineNum++; lineNum++;
} }
//elseContents = removeTabsWdArry(elseContents, 1); elseContents = removeTabsWdArry(elseContents, 1);
//Iterate through all lines in else statement //Iterate through all lines in if statement
for (int l = 0; l < (int)elseContents.size(); l++) for (int l = 0; l < (int)elseContents.size(); l++)
{ {
boost::any returnVal = ProcessLine(elseContents, l, variableValues); boost::any returnVal = ProcessLine(elseContents, l, variableValues);
@ -665,6 +595,12 @@ boost::any ProcessLine(const vector<vector<string>>& words, int& lineNum, unorde
} }
return nullType; return nullType;
} }
//// Gathers else statement contents
//if (words[lineNum][0] == "else")
//{
//
//}
return nullType; return nullType;
} }
@ -683,7 +619,7 @@ boost::any ExecuteFunction(const string& functionName, const vector<boost::any>&
{ {
variableValues[funcArgs[i]] = inputVarVals[i]; variableValues[funcArgs[i]] = inputVarVals[i];
#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
cout << "in " << functionName + " " << funcArgs[i] << " == " << AnyAsString(inputVarVals[i]) << endl; cout << functionName + " \x1B[33m" << funcArgs[i] << " == " << AnyAsString(inputVarVals[i]) << "\033[0m\t\t" << endl;
#endif #endif
} }
} }
@ -699,7 +635,6 @@ boost::any ExecuteFunction(const string& functionName, const vector<boost::any>&
} }
catch (const std::exception&) catch (const std::exception&)
{ {
LogCriticalError("Error at line: " + to_string(lineNum) + ", " + unWrapVec(words.at(lineNum)));
} }
} }
return nullType; return nullType;
@ -707,33 +642,21 @@ boost::any ExecuteFunction(const string& functionName, const vector<boost::any>&
int parseZSharp(string script) int parseZSharp(string script)
{ {
//script = replace(script, " ", "\t"); // Replace spaces with tabs (not really required, and will break purposefull whitespace in strings etc.) script = replace(script, " ", "\t"); // Replace spaces with tabs (not really required, and will break purposefull whitespace in strings etc.)
// Split the script by newline, signifying a line ending
vector<string> beforeProcessLines = split(script, '\n');
vector<string> lines;
for (int i = 0; i < (int)beforeProcessLines.size(); i++) { // Then split said lines into indiviual words
if (!startsWith(trim(beforeProcessLines.at(i)), "//") && trim(beforeProcessLines.at(i)) != "")
{ // dont include line if it is a comment or if it is blank
lines.push_back(trim(beforeProcessLines.at(i)));
}
}
#if DEVELOPER_MESSAGES #if DEVELOPER_MESSAGES
InterpreterLog("Contents:\n"); InterpreterLog("Contents:\n" + script);
#endif #endif
// Split the script by ;, signifying a line ending
vector<string> lines = split(script, '\n');
vector<vector<string>> words; vector<vector<string>> words;
for (int i = 0; i < (int)lines.size(); i++) // Then split said lines into indiviual words for (int i = 0; i < (int)lines.size(); i++) // Then split said lines into indiviual words
{
words.push_back(split(lines.at(i), ' ')); words.push_back(split(lines.at(i), ' '));
#if DEVELOPER_MESSAGES
cout << unWrapVec(words.at(i)) << endl;
#endif
}
#if DEVELOPER_MESSAGES #if DEVELOPER_MESSAGES
InterpreterLog("Gather variables & functions..."); InterpreterLog("Gather variables & functions...");
#endif #endif
// Go through entire script and iterate through all types to see if line is a variable // First go through entire script and iterate through all types to see if line is a variable
// or function declaration, then store it with it's value // or function declaration, then store it with it's value
for (int lineNum = 0; lineNum < (int)words.size(); lineNum++) for (int lineNum = 0; lineNum < (int)words.size(); lineNum++)
{ {
@ -747,35 +670,18 @@ int parseZSharp(string script)
InterpreterLog("Load script function " + functName + "..."); InterpreterLog("Load script function " + functName + "...");
#endif #endif
//string args = ""; string args = "";
//if (indexInStr(unWrapVec(words.at(lineNum)), ')') - indexInStr(unWrapVec(words.at(lineNum)), '(') > 1) if (indexInStr(unWrapVec(words.at(lineNum)), ')') - indexInStr(unWrapVec(words.at(lineNum)), '(') > 1)
// for (int w = 0; w < (int)words.at(lineNum).size(); w++) // Get all words from the instantiation line: these are the args for (int w = 1; w < (int)words.at(lineNum).size(); w++) // Get all words from the instantiation line: these are the args
// { {
// if (count(words.at(lineNum).at(w), '{') == 0) if (count(words.at(lineNum).at(w), '{') == 0)
// args += replace(replace(words.at(lineNum).at(w), "(", " "), ")", ""); args += replace(replace(words.at(lineNum).at(w), "(", " "), ")", "");
// } }
string args = betweenChars(unWrapVec(words.at(lineNum)), '(', ')');
//cout << functName << "<" << args << ">" << endl;
//args = trim(replace(args, functName, "")); args = trim(replace(args, functName + " ", ""));
functionContents.push_back(split(replace(args, " ", ""), ',')); functionContents.push_back(split(args, ','));
int numOfBrackets = 0;
int numOfBrackets = countInVector(words.at(lineNum), "{") - countInVector(words.at(lineNum), "}");
// Gather the contents
lineNum++;
while (lineNum < (int)words.size())
{
numOfBrackets += countInVector(words.at(lineNum), "{") - countInVector(words.at(lineNum), "}");
if (numOfBrackets == 0)
break;
functionContents.push_back(words.at(lineNum));
//cout << functName << "<" << args << ">" << endl;
lineNum++;
}
//functionContents = removeTabsWdArry(functionContents, 1);
/*int numOfBrackets = 0;
for (int w = 1; w < (int)words.at(lineNum).size(); w++) { for (int w = 1; w < (int)words.at(lineNum).size(); w++) {
if (count(words.at(lineNum).at(w), '{') != 0) { if (count(words.at(lineNum).at(w), '{') != 0) {
numOfBrackets = 1; numOfBrackets = 1;
@ -789,7 +695,7 @@ int parseZSharp(string script)
if (numOfBrackets == 0) if (numOfBrackets == 0)
break; break;
functionContents.push_back(removeTabs(words.at(p), 1)); functionContents.push_back(removeTabs(words.at(p), 1));
}*/ }
functionValues[functName] = functionContents; functionValues[functName] = functionContents;
} }
else else
@ -830,34 +736,26 @@ int parseZSharp(string script)
InterpreterLog("Load script variable " + words.at(lineNum).at(1) + "..."); InterpreterLog("Load script variable " + words.at(lineNum).at(1) + "...");
#endif #endif
} }
else if (words.at(lineNum).at(0) == "int") {
// Iterate through all types to see if line inits or globalVariableValues[words.at(lineNum).at(1)] = stoi(words.at(lineNum).at(3));
// re-inits a variable then store it with it's value #if DEVELOPER_MESSAGES == true
else if (countInVector(types, trim(words.at(lineNum).at(0))) > 0) InterpreterLog("Load script variable " + words.at(lineNum).at(1) + "...");
{ #endif
//cout << words.at(lineNum).at(1) << "=" << unWrapVec(slice(words.at(lineNum), 3, -1)) << "=" << AnyAsString(EvalExpression(unWrapVec(slice(words.at(lineNum), 3, -1)), variableValues)) << endl;
globalVariableValues[words.at(lineNum).at(1)] = EvalExpression(unWrapVec(slice(words.at(lineNum), 3, -1)), globalVariableValues);
} }
// else if (words.at(lineNum).at(0) == "int") { else if (words.at(lineNum).at(0) == "float") {
// globalVariableValues[words.at(lineNum).at(1)] = stoi(words.at(lineNum).at(3)); globalVariableValues[words.at(lineNum).at(1)] = stof(words.at(lineNum).at(3));
//#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
// InterpreterLog("Load script variable " + words.at(lineNum).at(1) + "..."); InterpreterLog("Load script variable " + words.at(lineNum).at(1) + "...");
//#endif #endif
// } }
// else if (words.at(lineNum).at(0) == "float") { else if (words.at(lineNum).at(0) == "bool") {
// globalVariableValues[words.at(lineNum).at(1)] = stof(words.at(lineNum).at(3)); globalVariableValues[words.at(lineNum).at(1)] = stob(words.at(lineNum).at(3));
//#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
// InterpreterLog("Load script variable " + words.at(lineNum).at(1) + "..."); InterpreterLog("Load script variable " + words.at(lineNum).at(1) + "...");
//#endif #endif
// } }
// else if (words.at(lineNum).at(0) == "bool") { /*else
// globalVariableValues[words.at(lineNum).at(1)] = stob(words.at(lineNum).at(3)); LogWarning("unrecognized type \'" + words.at(lineNum).at(0) + "\' on line: " + to_string(lineNum));*/
//#if DEVELOPER_MESSAGES == true
// InterpreterLog("Load script variable " + words.at(lineNum).at(1) + "...");
//#endif
// }
else
LogWarning("unrecognized type \'" + words.at(lineNum).at(0) + "\' on line: " + to_string(lineNum));
} }
} }
@ -871,9 +769,9 @@ int main(int argc, char* argv[])
cout << endl << endl; cout << endl << endl;
// Gathers builtin functions and variables // Gathers builtin functions and variables
parseZSharp(ZSContents); GetBuiltins(ZSContents);
//functionValues = builtinFunctionValues; functionValues = builtinFunctionValues;
//globalVariableValues = builtinVarVals; globalVariableValues = builtinVarVals;
std::string scriptTextContents; std::string scriptTextContents;
@ -882,7 +780,7 @@ int main(int argc, char* argv[])
{ {
std::string scriptPath; std::string scriptPath;
if (EXAMPLE_PROJECT) if (EXAMPLE_PROJECT)
scriptPath = "D:\\Code\\Z-Sharp\\examples\\Platformer\\script.zs"; scriptPath = "D:\\Code\\Z-Sharp\\Releases\\ZS-Win-x64-Base\\Pong-Example-Project\\script.zs";
else else
scriptPath = argv[1]; scriptPath = argv[1];
#if DEVELOPER_MESSAGES #if DEVELOPER_MESSAGES
@ -906,11 +804,12 @@ int main(int argc, char* argv[])
int chErr = chdir(projectDirectory.c_str()); int chErr = chdir(projectDirectory.c_str());
if (chErr < 0) if (chErr < 0)
LogCriticalError("Failed to change directory to: \"" + projectDirectory + "\", error num: " + to_string(chErr)); LogCriticalError("Failed to change directory to: \"" + projectDirectory + "\", error num: " + to_string(chErr));
#if DEVELOPER_MESSAGES #if DEVELOPER_MESSAGES
InterpreterLog("Changed directory to " + projectDirectory + "..."); InterpreterLog("Changed directory to " + projectDirectory + "...");
#endif #endif
#if DEVELOPER_MESSAGES
string newPath = filesystem::current_path();
#endif
#elif WINDOWS #elif WINDOWS
// Get script contents as single string // Get script contents as single string
ifstream script(scriptPath); ifstream script(scriptPath);
@ -932,9 +831,9 @@ int main(int argc, char* argv[])
#endif #endif
} }
else else
{ // If no script is provided as an argument throw error { // If no script is provided as an argument then throw error
LogWarning("No script provided! Please drag and drop .ZS file over interpreter executable file, or provide it's path as a command-line argument."); LogWarning("No script provided! Please drag and drop .ZS file over interpreter executable file, or provide it's path as a command-line argument.");
InterpreterLog("Press Enter to Exit..."); cout << "Press Enter to Continue";
cin.ignore(); cin.ignore();
exit(1); exit(1);
} }
@ -959,7 +858,7 @@ int main(int argc, char* argv[])
// Entire script has been run, exit. // Entire script has been run, exit.
#if DEVELOPER_MESSAGES // If built with developer messages, then verify exit #if DEVELOPER_MESSAGES // If built with developer messages, then verify exit
InterpreterLog("Press Enter to Exit..."); cout << "Press Enter to Continue";
cin.ignore(); cin.ignore();
exit(1); exit(1);
#else #else
@ -971,17 +870,11 @@ int main(int argc, char* argv[])
if (a == "-ve") // If the '-ve' (verify exit) option is used, ask for verification on exit if (a == "-ve") // If the '-ve' (verify exit) option is used, ask for verification on exit
{ {
InterpreterLog("Press Enter to Exit..."); cout << "Press Enter to Continue";
cin.ignore(); cin.ignore();
exit(1); exit(1);
} }
} }
else if (AnyAsBool(GetVariableValue("EXIT_WHEN_DONE", globalVariableValues)) == false)
{
InterpreterLog("Press Enter to Exit...");
cin.ignore();
exit(1);
}
#endif // Else exit automatically #endif // Else exit automatically
return 0; return 0;
} }

95
ZSharp/ZS.h
View File

@ -3,18 +3,11 @@
using namespace std; using namespace std;
std::string ZSContents = R"( std::string ZSContents = R"(
////////////////////////////////////////////////////////////////////////////////
// BUILTIN
////////////////////////////////////////////////////////////////////////////////
// Default variables, can be overwritten // Default variables, can be overwritten
// if re-initialized or changed // if re-initialized or changed
float PI = 3.14159265358979323846264338 float PI = 3.14159265358979323846264338
float EulersNumber = 2.71828183 float EulersNumber = 2.71828183
// This variable tells the interpreter if it should close the console window when the program has finished running.
bool EXIT_WHEN_DONE = true
// Trigonometric function Sin // Trigonometric function Sin
func Sin(input) func Sin(input)
{ {
@ -107,15 +100,15 @@ func SetPixel(x, y, r, g, b)
} }
// Prints input value to console // Prints input value to console
func Print(strToPrint) func Print(in)
{ {
ZS.System.Print(strToPrint) ZS.System.Print(in)
} }
// Prints input value to console with appended newline '\n' // Prints input value to console with appended newline '\n'
func Printl(strToPrint) func Printl(in)
{ {
ZS.System.PrintLine(strToPrint) ZS.System.PrintLine(in)
} }
// Creates new sprite class // Creates new sprite class
@ -145,79 +138,9 @@ func GetKey(keyName)
return b return b
} }
//////////////////////////// //func SplitThread(function)
// ↓ MADE BY KAPUTCHINO ↓ // //{
//////////////////////////// // ZS.System.SplitThread(function)
//}
// Return the number of combinations
func Comb(n, r)
{
return Perm(n, r) / Fac(r)
}
// Return the factorial of a number
func Fac(x)
{
int r = 1
while x > 1
{
r = r * x
x = x - 1
}
return r
}
// Return exp(x) by using the taylor method, not extremly accurate
func TaylorExp(x)
{
float sum = 0
float term = 1
int i = 1
float sumterm = 1
while sum != sumterm
{
sum = sumterm
term = term * x / i
i = i + 1
sumterm = sumterm + term
}
return sum
}
// Return the number of permutations
func Perm(n, r)
{
if n < 0
{
ZS.System.PrintLine("n must be superior or equal to 0")
return -1
}
if r < 0
{
ZS.System.PrintLine("r must be superior or equal to 0")
return -1
}
if r > n
{
ZS.System.PrintLine("r must be inferior or equal to n")
return -1
}
return Fac(n) / Fac(n - r)
}
//////////////////////////////////////////
// ↓ MADE BY CONCHETUMARE_PRODUCTIONS ↓ //
//////////////////////////////////////////
func GetPercent(value, percent)
{
float temp = value * percent / 100
return temp
}
//gets 100% of number
func PercentToHundred(value, percent)
{
float temp = value * 100 / percent
return temp
}
)" )"
; ;

18
ZSharp/ZSharpInstallerMakerInnoSetup.iss
View File

@ -2,7 +2,7 @@
; SEE THE DOCUMENTATION FOR DETAILS ON CREATING INNO SETUP SCRIPT FILES! ; SEE THE DOCUMENTATION FOR DETAILS ON CREATING INNO SETUP SCRIPT FILES!
#define MyAppName "Z-Sharp" #define MyAppName "Z-Sharp"
#define MyAppVersion "2.1.3-alpha" #define MyAppVersion "2.1.0-alpha"
#define MyAppPublisher "AstroSam" #define MyAppPublisher "AstroSam"
#define MyAppURL "https://github.com/sam-astro/Z-Sharp" #define MyAppURL "https://github.com/sam-astro/Z-Sharp"
#define MyAppExeName "ZSharp.exe" #define MyAppExeName "ZSharp.exe"
@ -25,7 +25,6 @@ DefaultDirName={autopf}\ZSharp
DisableDirPage=yes DisableDirPage=yes
ChangesAssociations=yes ChangesAssociations=yes
DisableProgramGroupPage=yes DisableProgramGroupPage=yes
ChangesEnvironment=true
LicenseFile=D:\Code\Z-Sharp\LICENSE LicenseFile=D:\Code\Z-Sharp\LICENSE
; Uncomment the following line to run in non administrative install mode (install for current user only.) ; Uncomment the following line to run in non administrative install mode (install for current user only.)
;PrivilegesRequired=lowest ;PrivilegesRequired=lowest
@ -37,21 +36,6 @@ Compression=lzma
SolidCompression=yes SolidCompression=yes
WizardStyle=modern WizardStyle=modern
[Tasks]
Name: modifypath; Description: Add application directory to your environmental path (This allows you to easily use from command line); Flags: unchecked
[Code]
const
ModPathName = 'modifypath';
ModPathType = 'system';
function ModPathDir(): TArrayOfString;
begin
setArrayLength(Result, 1)
Result[0] := ExpandConstant('{app}');
end;
#include "modpath.iss"
[Languages] [Languages]
Name: "english"; MessagesFile: "compiler:Default.isl" Name: "english"; MessagesFile: "compiler:Default.isl"
Name: "armenian"; MessagesFile: "compiler:Languages\Armenian.isl" Name: "armenian"; MessagesFile: "compiler:Languages\Armenian.isl"

258
ZSharp/builtin.h
View File

@ -1,14 +1,6 @@
#ifndef BUILTIN_H #ifndef BUILTIN_H
#define BUILTIN_H #define BUILTIN_H
#if defined(__unix__)
#define UNIX true
#define WINDOWS false
#elif defined(_MSC_VER)
#define UNIX false
#define WINDOWS true
#endif
#include <iostream> #include <iostream>
#include <fstream> #include <fstream>
#include <string> #include <string>
@ -21,7 +13,6 @@
#include <ctime> #include <ctime>
#include <math.h> #include <math.h>
#include <sys/stat.h> #include <sys/stat.h>
#include <cstdlib> // for console command printing
#include "strops.h" #include "strops.h"
#include "graphics.h" #include "graphics.h"
@ -37,8 +28,8 @@ using namespace boost;
vector<string> types = { "int", "float", "string", "bool", "void", "null", "Sprite", "Vec2", "Text" }; vector<string> types = { "int", "float", "string", "bool", "void", "null", "Sprite", "Vec2", "Text" };
//unordered_map<string, vector<vector<string>>> builtinFunctionValues; unordered_map<string, vector<vector<string>>> builtinFunctionValues;
//unordered_map<string, boost::any> builtinVarVals; unordered_map<string, boost::any> builtinVarVals;
// Foreground colors // Foreground colors
const std::string blackFGColor = "\x1B[30m"; const std::string blackFGColor = "\x1B[30m";
@ -81,13 +72,8 @@ class NullType {
public: public:
string type = "NULL"; string type = "NULL";
}; };
class BREAK {
public:
string type = "BREAK";
};
boost::any nullType; boost::any nullType;
boost::any breakReOp;
float clamp(float v, float min, float max) float clamp(float v, float min, float max)
{ {
@ -155,7 +141,7 @@ void PrintColored(std::string text, std::string fgColor, std::string bgColor, bo
int LogWarning(const string& warningText) int LogWarning(const string& warningText)
{ {
PrintColored("WARNING: ", yellowFGColor, "", true); PrintColored("WARNING: ", yellowFGColor, "", true);
PrintColored(escaped(warningText), yellowFGColor, "", true); PrintColored(warningText, yellowFGColor, "", true);
cerr << std::endl; cerr << std::endl;
//cout << "\x1B[33mWARNING: " << warningText << "\033[0m\t\t" << endl; //cout << "\x1B[33mWARNING: " << warningText << "\033[0m\t\t" << endl;
return 1; return 1;
@ -171,15 +157,7 @@ int InterpreterLog(const string& logText)
tm bt{}; tm bt{};
#if UNIX #if UNIX
time_t currentTime; //localtime_r(&timer, &bt);
struct tm* localTime;
time(&currentTime); // Get the current time
localTime = localtime(&currentTime); // Convert the current time to the local time
Hour = localTime->tm_hour;
Min = localTime->tm_min;
Sec = localTime->tm_sec;
#elif WINDOWS #elif WINDOWS
localtime_s(&bt, &timer); localtime_s(&bt, &timer);
Hour = bt.tm_hour; Hour = bt.tm_hour;
@ -193,7 +171,7 @@ int InterpreterLog(const string& logText)
PrintColored("[" + to_string(Hour) + ":" + to_string(Min) + ":" + to_string(Sec) + "] ", blueFGColor, "", true); PrintColored("[" + to_string(Hour) + ":" + to_string(Min) + ":" + to_string(Sec) + "] ", blueFGColor, "", true);
PrintColored("ZSharp: ", yellowFGColor, "", true); PrintColored("ZSharp: ", yellowFGColor, "", true);
PrintColored(escaped(logText), greenFGColor, "", true); PrintColored(logText, greenFGColor, "", true);
cout << std::endl; cout << std::endl;
//cout << "\x1B[34m[" + to_string(Hour) + ":" + to_string(Min) + ":" + to_string(Sec) + "] \x1B[33mZSharp: \x1B[32m" << logText << "\033[0m\t\t" << endl; //cout << "\x1B[34m[" + to_string(Hour) + ":" + to_string(Min) + ":" + to_string(Sec) + "] \x1B[33mZSharp: \x1B[32m" << logText << "\033[0m\t\t" << endl;
return 1; return 1;
@ -207,17 +185,9 @@ int LogCriticalError(const string& errorText)
time_t timer = time(0); time_t timer = time(0);
tm bt{}; tm bt{};
#if UNIX #if defined(__unix__)
time_t currentTime; //localtime_r(&timer, &bt);
struct tm* localTime; #elif defined(_MSC_VER)
time(&currentTime); // Get the current time
localTime = localtime(&currentTime); // Convert the current time to the local time
Hour = localTime->tm_hour;
Min = localTime->tm_min;
Sec = localTime->tm_sec;
#elif WINDOWS
localtime_s(&bt, &timer); localtime_s(&bt, &timer);
Hour = bt.tm_hour; Hour = bt.tm_hour;
Min = bt.tm_min; Min = bt.tm_min;
@ -230,9 +200,9 @@ int LogCriticalError(const string& errorText)
PrintColored("[" + to_string(Hour) + ":" + to_string(Min) + ":" + to_string(Sec) + "] ", blueFGColor, "", true); PrintColored("[" + to_string(Hour) + ":" + to_string(Min) + ":" + to_string(Sec) + "] ", blueFGColor, "", true);
PrintColored("ZSharp: ", yellowFGColor, "", true); PrintColored("ZSharp: ", yellowFGColor, "", true);
PrintColored(escaped(errorText), redFGColor, "", true); PrintColored(errorText, redFGColor, "", true);
cerr << std::endl; cerr << std::endl;
InterpreterLog("Press Enter to Exit..."); cout << "Press Enter to Continue";
cin.ignore(); cin.ignore();
exit(1); exit(1);
//cerr << "\x1B[34m[" + to_string(Hour) + ":" + to_string(Min) + ":" + to_string(Sec) + "] \x1B[33mZSharp: \x1B[31mERROR: " << errorText << "\033[0m\t\t" << endl; //cerr << "\x1B[34m[" + to_string(Hour) + ":" + to_string(Min) + ":" + to_string(Sec) + "] \x1B[33mZSharp: \x1B[31mERROR: " << errorText << "\033[0m\t\t" << endl;
@ -306,90 +276,90 @@ bool AxisAlignedCollision(const Sprite& a, const Sprite& b) // AABB - AABB colli
return collisionX && collisionY; return collisionX && collisionY;
} }
//// Initial script processing, which loads variables and functions from builtin // Initial script processing, which loads variables and functions from builtin
//int GetBuiltins(std::string s) int GetBuiltins(std::string s)
//{ {
// std::string script = replace(s, " ", "\t"); std::string script = replace(s, " ", "\t");
//
// vector<string> lines = split(script, '\n'); vector<string> lines = split(script, '\n');
// vector<vector<string>> words; vector<vector<string>> words;
// for (int i = 0; i < (int)lines.size(); i++) for (int i = 0; i < (int)lines.size(); i++)
// { {
// words.push_back(split(lines.at(i), ' ')); words.push_back(split(lines.at(i), ' '));
// } }
//
// // Go through entire script and iterate through all types to see if line is a // Go through entire script and iterate through all types to see if line is a
// // function declaration, then store it with it's value // function declaration, then store it with it's value
// for (int lineNum = 0; lineNum < (int)words.size(); lineNum++) for (int lineNum = 0; lineNum < (int)words.size(); lineNum++)
// { {
// //Checks if it is function //Checks if it is function
// if (words.at(lineNum).at(0) == "func") if (words.at(lineNum).at(0) == "func")
// { {
// vector<vector<string>> functionContents; vector<vector<string>> functionContents;
//
// string functName = split(words.at(lineNum).at(1), '(')[0]; string functName = split(words.at(lineNum).at(1), '(')[0];
//
//#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
// InterpreterLog("Load builtin function " + functName + "..."); InterpreterLog("Load builtin function " + functName + "...");
//#endif #endif
//
// string args = ""; string args = "";
// for (int w = 1; w < (int)words.at(lineNum).size(); w++) // Get all words from the instantiation line: these are the args for (int w = 1; w < (int)words.at(lineNum).size(); w++) // Get all words from the instantiation line: these are the args
// { {
// args += replace(replace(words.at(lineNum).at(w), "(", " "), ")", ""); args += replace(replace(words.at(lineNum).at(w), "(", " "), ")", "");
// } }
//
// args = replace(args, functName + " ", ""); args = replace(args, functName + " ", "");
// functionContents.push_back(split(args, ',')); functionContents.push_back(split(args, ','));
//
// int numOfBrackets = 1; int numOfBrackets = 1;
// for (int p = lineNum + 2; p < (int)words.size(); p++) for (int p = lineNum + 2; p < (int)words.size(); p++)
// { {
// numOfBrackets += countInVector(words.at(p), "{") - countInVector(words.at(p), "}"); numOfBrackets += countInVector(words.at(p), "{") - countInVector(words.at(p), "}");
// if (numOfBrackets == 0) if (numOfBrackets == 0)
// break; break;
// functionContents.push_back(removeTabs(words.at(p), 1)); functionContents.push_back(removeTabs(words.at(p), 1));
// } }
// builtinFunctionValues[functName] = functionContents; builtinFunctionValues[functName] = functionContents;
// //cout << functName << " is \n" << Vec2Str(functionContents) << endl << endl; //cout << functName << " is \n" << Vec2Str(functionContents) << endl << endl;
// } }
// else else
// { {
// if (words.at(lineNum).at(0) == "string") if (words.at(lineNum).at(0) == "string")
// { {
// builtinVarVals[words.at(lineNum).at(1)] = StringRaw(words.at(lineNum).at(3)); builtinVarVals[words.at(lineNum).at(1)] = StringRaw(words.at(lineNum).at(3));
//#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
// InterpreterLog("Load builtin variable " + words.at(lineNum).at(1) + "..."); InterpreterLog("Load builtin variable " + words.at(lineNum).at(1) + "...");
//#endif #endif
// } }
// else if (words.at(lineNum).at(0) == "int") else if (words.at(lineNum).at(0) == "int")
// { {
// builtinVarVals[words.at(lineNum).at(1)] = stoi(words.at(lineNum).at(3)); builtinVarVals[words.at(lineNum).at(1)] = stoi(words.at(lineNum).at(3));
//#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
// InterpreterLog("Load builtin variable " + words.at(lineNum).at(1) + "..."); InterpreterLog("Load builtin variable " + words.at(lineNum).at(1) + "...");
//#endif #endif
// } }
// else if (words.at(lineNum).at(0) == "float") else if (words.at(lineNum).at(0) == "float")
// { {
// builtinVarVals[words.at(lineNum).at(1)] = stof(words.at(lineNum).at(3)); builtinVarVals[words.at(lineNum).at(1)] = stof(words.at(lineNum).at(3));
//#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
// InterpreterLog("Load builtin variable " + words.at(lineNum).at(1) + "..."); InterpreterLog("Load builtin variable " + words.at(lineNum).at(1) + "...");
//#endif #endif
// } }
// else if (words.at(lineNum).at(0) == "bool") else if (words.at(lineNum).at(0) == "bool")
// { {
// builtinVarVals[words.at(lineNum).at(1)] = stob(words.at(lineNum).at(3)); builtinVarVals[words.at(lineNum).at(1)] = stob(words.at(lineNum).at(3));
//#if DEVELOPER_MESSAGES == true #if DEVELOPER_MESSAGES == true
// InterpreterLog("Load builtin variable " + words.at(lineNum).at(1) + "..."); InterpreterLog("Load builtin variable " + words.at(lineNum).at(1) + "...");
//#endif #endif
// } }
// //else //else
// // LogWarning("unrecognized type \'" + words[lineNum][0] + "\' on line: " + to_string(lineNum)); // LogWarning("unrecognized type \'" + words[lineNum][0] + "\' on line: " + to_string(lineNum));
// } }
// } }
//
// return 0; return 0;
//} }
// Executes // Executes
boost::any ZSFunction(const string& name, const vector<boost::any>& args) boost::any ZSFunction(const string& name, const vector<boost::any>& args)
@ -418,44 +388,23 @@ boost::any ZSFunction(const string& name, const vector<boost::any>& args)
} }
else if (name == "ZS.Graphics.Sprite") else if (name == "ZS.Graphics.Sprite")
{ {
string path = StringRaw(AnyAsString(args.at(0))); if (!fileExists(StringRaw(AnyAsString(args.at(0)))))
if (count(path, '/') == 0) LogCriticalError("Failed to create 'Sprite' object: \"" + StringRaw(AnyAsString(args.at(0))) + "\"");
path = "./" + path;
if (!fileExists(path))
LogCriticalError("Failed to create 'Sprite' object: \"" + path + "\"");
Sprite s(StringRaw(AnyAsString(args.at(0))), any_cast<Vec2>(args.at(1)), any_cast<Vec2>(args.at(2)), AnyAsFloat(args.at(3))); Sprite s(StringRaw(AnyAsString(args.at(0))), any_cast<Vec2>(args.at(1)), any_cast<Vec2>(args.at(2)), AnyAsFloat(args.at(3)));
return s; return s;
} }
else if (name == "ZS.Graphics.DrawPixel")
{
SDL_SetRenderDrawColor(gRenderer, AnyAsInt(args.at(2)), AnyAsInt(args.at(3)), AnyAsInt(args.at(4)), 255);
SDL_RenderDrawPoint(gRenderer, AnyAsInt(args.at(0)), AnyAsInt(args.at(1)));
SDL_SetRenderDrawColor(gRenderer, 0, 0, 0, 0);
}
//DrawPixel(AnyAsInt(args.at(0)), AnyAsInt(args.at(1)), AnyAsInt(args.at(2)), AnyAsInt(args.at(3)), AnyAsInt(args.at(4)));
else if (name == "ZS.Graphics.Draw") else if (name == "ZS.Graphics.Draw")
any_cast<Sprite>(args.at(0)).Draw(); any_cast<Sprite>(args.at(0)).Draw();
else if (name == "ZS.Graphics.Load") else if (name == "ZS.Graphics.Load")
any_cast<Sprite>(args.at(0)).Load(); any_cast<Sprite>(args.at(0)).Load();
else if (name == "ZS.Graphics.Text") else if (name == "ZS.Graphics.Text")
{ {
string path = StringRaw(AnyAsString(args.at(1))); if (!fileExists(StringRaw(AnyAsString(args.at(1)))))
if (count(path, '/') == 0) LogCriticalError("Failed to create 'Text' object: \"" + StringRaw(AnyAsString(args.at(1))) + "\"");
path = "./" + path;
if (!fileExists(path))
LogCriticalError("Failed to create 'Text' object: \"" + path + "\"");
if (args.size() <= 8) Text t(StringRaw(AnyAsString(args.at(0))), StringRaw(AnyAsString(args.at(1))), any_cast<Vec2>(args.at(2)), AnyAsFloat(args.at(3)), AnyAsFloat(args.at(4)), (Uint8)AnyAsFloat(args.at(5)), (Uint8)AnyAsFloat(args.at(6)), (Uint8)AnyAsFloat(args.at(7)));
{ return t;
Text t(StringRaw(AnyAsString(args.at(0))), path, any_cast<Vec2>(args.at(2)), AnyAsFloat(args.at(3)), AnyAsFloat(args.at(4)), (Uint8)AnyAsFloat(args.at(5)), (Uint8)AnyAsFloat(args.at(6)), (Uint8)AnyAsFloat(args.at(7)), true);
return t;
}
else
{
Text t(StringRaw(AnyAsString(args.at(0))), path, any_cast<Vec2>(args.at(2)), AnyAsFloat(args.at(3)), AnyAsFloat(args.at(4)), (Uint8)AnyAsFloat(args.at(5)), (Uint8)AnyAsFloat(args.at(6)), (Uint8)AnyAsFloat(args.at(7)), AnyAsBool(args.at(8)));
return t;
}
} }
else if (name == "ZS.Graphics.DrawText") else if (name == "ZS.Graphics.DrawText")
any_cast<Text>(args.at(0)).Draw(); any_cast<Text>(args.at(0)).Draw();
@ -476,13 +425,6 @@ boost::any ZSFunction(const string& name, const vector<boost::any>& args)
Vec2 v(AnyAsFloat(args.at(0)), AnyAsFloat(args.at(1))); Vec2 v(AnyAsFloat(args.at(0)), AnyAsFloat(args.at(1)));
return v; return v;
} }
else if (name == "ZS.System.Command"){
string command = StringRaw(AnyAsString(args.at(0)));
//int command_len = command.length();
//char* command_char_arr=new char[command_len + 1];
//strcpy(command_char_arr, command.c_str()); // string into char arr
int k = system(command.c_str());
}
else else
LogWarning("ZS function \'" + name + "\' does not exist."); LogWarning("ZS function \'" + name + "\' does not exist.");

33
ZSharp/graphics.h
View File

@ -523,8 +523,8 @@ public:
class Text class Text
{ {
public: public:
Text(std::string content, std::string pathToFont, Vec2 position, float fontSize, double angle, Uint8 r, Uint8 g, Uint8 b, bool antialias) Text(std::string content, std::string pathToFont, Vec2 position, float fontSize, double angle, Uint8 r, Uint8 g, Uint8 b)
: position(position), angle(angle), content(content), pathToFont(pathToFont), fontSize(fontSize), r(r), g(g), b(b), antialias(antialias) : position(position), angle(angle), content(content), pathToFont(pathToFont), fontSize(fontSize), r(r), g(g), b(b)
{ {
rect.x = position.x; rect.x = position.x;
rect.y = position.y; rect.y = position.y;
@ -538,12 +538,8 @@ public:
{ {
SDL_Color color = { r, g, b }; SDL_Color color = { r, g, b };
SDL_Surface* surface; SDL_Surface* surface = TTF_RenderText_Blended(font, content.c_str(), color);
if (antialias)
surface = TTF_RenderText_Blended(font, content.c_str(), color);
else
surface = TTF_RenderText_Solid(font, content.c_str(), color);
texture = SDL_CreateTextureFromSurface(gRenderer, surface); texture = SDL_CreateTextureFromSurface(gRenderer, surface);
TTF_SizeText(font, content.c_str(), &rect.w, &rect.h); TTF_SizeText(font, content.c_str(), &rect.w, &rect.h);
@ -563,11 +559,7 @@ public:
{ {
SDL_Color color = { r, g, b }; SDL_Color color = { r, g, b };
SDL_Surface* surface; SDL_Surface* surface = TTF_RenderText_Blended(font, content.c_str(), color);
if (antialias)
surface = TTF_RenderText_Blended(font, content.c_str(), color);
else
surface = TTF_RenderText_Solid(font, content.c_str(), color);
SDL_DestroyTexture(texture); SDL_DestroyTexture(texture);
texture = SDL_CreateTextureFromSurface(gRenderer, surface); texture = SDL_CreateTextureFromSurface(gRenderer, surface);
@ -612,8 +604,6 @@ public:
return content; return content;
if (componentName == "pathToFont") if (componentName == "pathToFont")
return pathToFont; return pathToFont;
if (componentName == "antialias")
return antialias;
return 0; return 0;
} }
@ -721,19 +711,12 @@ public:
else if (oper == "+=") else if (oper == "+=")
content += AnyAsString(otherVal); content += AnyAsString(otherVal);
} }
else if (componentName == "antialias")
{
if (oper == "=")
antialias = AnyAsBool(otherVal);
}
// Updates changes to text // Updates changes to text
Update(); Update();
return *this; return *this;
} }
bool antialias = true;
Vec2 position; Vec2 position;
Vec2 scale; Vec2 scale;
float fontSize; float fontSize;
@ -761,12 +744,6 @@ int cleanupGraphics()
return 0; return 0;
} }
//void DrawPixel(int x, int y, int r, int g, int b) {
// SDL_SetRenderDrawColor(gRenderer, r, g, b, 255);
// SDL_RenderDrawPoint(gRenderer, x, y);
// SDL_SetRenderDrawColor(gRenderer, 0, 0, 0, 0);
//}
int updateLoop() int updateLoop()
{ {

219
ZSharp/modpath.iss
View File

@ -1,219 +0,0 @@
// ----------------------------------------------------------------------------
//
// Inno Setup Ver: 5.4.2
// Script Version: 1.4.2
// Author: Jared Breland <jbreland@legroom.net>
// Homepage: http://www.legroom.net/software
// License: GNU Lesser General Public License (LGPL), version 3
// http://www.gnu.org/licenses/lgpl.html
//
// Script Function:
// Allow modification of environmental path directly from Inno Setup installers
//
// Instructions:
// Copy modpath.iss to the same directory as your setup script
//
// Add this statement to your [Setup] section
// ChangesEnvironment=true
//
// Add this statement to your [Tasks] section
// You can change the Description or Flags
// You can change the Name, but it must match the ModPathName setting below
// Name: modifypath; Description: &Add application directory to your environmental path; Flags: unchecked
//
// Add the following to the end of your [Code] section
// ModPathName defines the name of the task defined above
// ModPathType defines whether the 'user' or 'system' path will be modified;
// this will default to user if anything other than system is set
// setArrayLength must specify the total number of dirs to be added
// Result[0] contains first directory, Result[1] contains second, etc.
// const
// ModPathName = 'modifypath';
// ModPathType = 'user';
//
// function ModPathDir(): TArrayOfString;
// begin
// setArrayLength(Result, 1);
// Result[0] := ExpandConstant('{app}');
// end;
// #include "modpath.iss"
// ----------------------------------------------------------------------------
procedure ModPath();
var
oldpath: String;
newpath: String;
updatepath: Boolean;
pathArr: TArrayOfString;
aExecFile: String;
aExecArr: TArrayOfString;
i, d: Integer;
pathdir: TArrayOfString;
regroot: Integer;
regpath: String;
begin
// Get constants from main script and adjust behavior accordingly
// ModPathType MUST be 'system' or 'user'; force 'user' if invalid
if ModPathType = 'system' then begin
regroot := HKEY_LOCAL_MACHINE;
regpath := 'SYSTEM\CurrentControlSet\Control\Session Manager\Environment';
end else begin
regroot := HKEY_CURRENT_USER;
regpath := 'Environment';
end;
// Get array of new directories and act on each individually
pathdir := ModPathDir();
for d := 0 to GetArrayLength(pathdir)-1 do begin
updatepath := true;
// Modify WinNT path
if UsingWinNT() = true then begin
// Get current path, split into an array
RegQueryStringValue(regroot, regpath, 'Path', oldpath);
oldpath := oldpath + ';';
i := 0;
while (Pos(';', oldpath) > 0) do begin
SetArrayLength(pathArr, i+1);
pathArr[i] := Copy(oldpath, 0, Pos(';', oldpath)-1);
oldpath := Copy(oldpath, Pos(';', oldpath)+1, Length(oldpath));
i := i + 1;
// Check if current directory matches app dir
if pathdir[d] = pathArr[i-1] then begin
// if uninstalling, remove dir from path
if IsUninstaller() = true then begin
continue;
// if installing, flag that dir already exists in path
end else begin
updatepath := false;
end;
end;
// Add current directory to new path
if i = 1 then begin
newpath := pathArr[i-1];
end else begin
newpath := newpath + ';' + pathArr[i-1];
end;
end;
// Append app dir to path if not already included
if (IsUninstaller() = false) AND (updatepath = true) then
newpath := newpath + ';' + pathdir[d];
// Write new path
RegWriteStringValue(regroot, regpath, 'Path', newpath);
// Modify Win9x path
end else begin
// Convert to shortened dirname
pathdir[d] := GetShortName(pathdir[d]);
// If autoexec.bat exists, check if app dir already exists in path
aExecFile := 'C:\AUTOEXEC.BAT';
if FileExists(aExecFile) then begin
LoadStringsFromFile(aExecFile, aExecArr);
for i := 0 to GetArrayLength(aExecArr)-1 do begin
if IsUninstaller() = false then begin
// If app dir already exists while installing, skip add
if (Pos(pathdir[d], aExecArr[i]) > 0) then
updatepath := false;
break;
end else begin
// If app dir exists and = what we originally set, then delete at uninstall
if aExecArr[i] = 'SET PATH=%PATH%;' + pathdir[d] then
aExecArr[i] := '';
end;
end;
end;
// If app dir not found, or autoexec.bat didn't exist, then (create and) append to current path
if (IsUninstaller() = false) AND (updatepath = true) then begin
SaveStringToFile(aExecFile, #13#10 + 'SET PATH=%PATH%;' + pathdir[d], True);
// If uninstalling, write the full autoexec out
end else begin
SaveStringsToFile(aExecFile, aExecArr, False);
end;
end;
end;
end;
// Split a string into an array using passed delimeter
procedure MPExplode(var Dest: TArrayOfString; Text: String; Separator: String);
var
i: Integer;
begin
i := 0;
repeat
SetArrayLength(Dest, i+1);
if Pos(Separator,Text) > 0 then begin
Dest[i] := Copy(Text, 1, Pos(Separator, Text)-1);
Text := Copy(Text, Pos(Separator,Text) + Length(Separator), Length(Text));
i := i + 1;
end else begin
Dest[i] := Text;
Text := '';
end;
until Length(Text)=0;
end;
procedure CurStepChanged(CurStep: TSetupStep);
var
taskname: String;
begin
taskname := ModPathName;
if CurStep = ssPostInstall then
if IsTaskSelected(taskname) then
ModPath();
end;
procedure CurUninstallStepChanged(CurUninstallStep: TUninstallStep);
var
aSelectedTasks: TArrayOfString;
i: Integer;
taskname: String;
regpath: String;
regstring: String;
appid: String;
begin
// only run during actual uninstall
if CurUninstallStep = usUninstall then begin
// get list of selected tasks saved in registry at install time
appid := '{#emit SetupSetting("AppId")}';
if appid = '' then appid := '{#emit SetupSetting("AppName")}';
regpath := ExpandConstant('Software\Microsoft\Windows\CurrentVersion\Uninstall\'+appid+'_is1');
RegQueryStringValue(HKLM, regpath, 'Inno Setup: Selected Tasks', regstring);
if regstring = '' then RegQueryStringValue(HKCU, regpath, 'Inno Setup: Selected Tasks', regstring);
// check each task; if matches modpath taskname, trigger patch removal
if regstring <> '' then begin
taskname := ModPathName;
MPExplode(aSelectedTasks, regstring, ',');
if GetArrayLength(aSelectedTasks) > 0 then begin
for i := 0 to GetArrayLength(aSelectedTasks)-1 do begin
if comparetext(aSelectedTasks[i], taskname) = 0 then
ModPath();
end;
end;
end;
end;
end;
function NeedRestart(): Boolean;
var
taskname: String;
begin
taskname := ModPathName;
if IsTaskSelected(taskname) and not UsingWinNT() then begin
Result := True;
end else begin
Result := False;
end;
end;

75
ZSharp/strops.cpp
View File

@ -8,8 +8,7 @@
//#include "builtin.h" //#include "builtin.h"
using namespace std; using namespace std;
const string WHITESPACE = " \t\f"; const string WHITESPACE = " \n\r\t\f\v";
//const string WHITESPACE = " \n\r\t\f\v";
bool isNumber(const string& str) bool isNumber(const string& str)
@ -26,51 +25,6 @@ bool stob(const string& str)
return b; return b;
} }
string unescape(const string& s)
{
string res;
string::const_iterator it = s.begin();
while (it != s.end())
{
char c = *it++;
if (c == '\\' && it != s.end())
{
switch (*it++) {
case '\\': c = '\\'; break;
case 'n': c = '\n'; break;
case 't': c = '\t'; break;
// all other escapes
default:
// invalid escape sequence - skip it. alternatively you can copy it as is, throw an exception...
continue;
}
}
res += c;
}
return res;
}
std::string escaped(const std::string& input)
{
std::string output;
output.reserve(input.size());
for (const char c : input) {
switch (c) {
case '\a': output += "\\a"; break;
case '\b': output += "\\b"; break;
case '\f': output += "\\f"; break;
case '\n': output += "\\n"; break;
case '\r': output += "\\r"; break;
case '\t': output += "\\t"; break;
case '\v': output += "\\v"; break;
default: output += c; break;
}
}
return output;
}
string StringRaw(const string& s) string StringRaw(const string& s)
{ {
string str = trim(s); string str = trim(s);
@ -88,7 +42,7 @@ string StringRaw(const string& s)
if (str[str.size() - 1] != '\"') if (str[str.size() - 1] != '\"')
withoutQuotes += str[str.size() - 1]; withoutQuotes += str[str.size() - 1];
return unescape(withoutQuotes); return withoutQuotes;
} }
string Quoted(const string& s) string Quoted(const string& s)
@ -236,25 +190,20 @@ string betweenChars(const string& str, const char& openChar, const char& closeCh
{ {
string content = ""; string content = "";
int startPos = 0; int waitingForClose = 0;
int endPos = (int)str.size();
for (int i = 0; i < (int)str.size(); i++) for (int i = 0; i < (int)str.size(); i++)
{ {
if (str[i] == openChar){ if (waitingForClose > 0 && !(str[i] == closeChar && waitingForClose == 1))
startPos = i+1; content += str[i];
break;
} if (str[i] == openChar)
} waitingForClose++;
for (int i = (int)str.size()-1; i >=0; i--) else if (str[i] == closeChar)
{ waitingForClose--;
if (str[i] == closeChar){
endPos = i-(startPos); // or startPos-1 idk I cant do math right now
break;
}
} }
return str.substr(startPos, endPos); return content;
} }
bool startsWith(const string& str, const string& lookFor) bool startsWith(const string& str, const string& lookFor)
@ -471,4 +420,4 @@ bool isEscaped(const string& str, int curChar)
return true; return true;
return false; return false;
} }

2
ZSharp/strops.h
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@ -69,6 +69,4 @@ bool isEscaped(const string& str, int curChar);
bool startsWith(const string& str, const string& lookFor); bool startsWith(const string& str, const string& lookFor);
std::string escaped(const std::string& input);
#endif #endif

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examples/Benchmark/mariostill.png
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157
examples/Benchmark/script.zs
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@ -1,157 +0,0 @@
int g_screenw = 256
int g_screenh = 224
int g_resolutionScale = 3
float g_playerWalkSpeed = 150
float g_playerRunSpeed = 210
float g_jumpHeight = 200
float g_currPlayerSpeed = 400
bool g_running = false
bool g_colliding = false
float g_gravitySpeed = 86
bool g_jumping = false
float g_jumpingTime = 0
//include "./extra-include.zs"
func Main()
{
//SplitThread(ThreadedFunction())
EXIT_WHEN_DONE = false
// Immediately creates the window, then runs Start(), then the game loop. The game loop calls Update() every frame
ZS.Graphics.Init("Platformer game", g_screenw, g_screenh, g_resolutionScale)
}
func Start()
{
float centerX = g_screenw / 2
float centerY = g_screenh / 2
global Vec2 v_aa = NVec2(g_screenw / 2 + -40, g_screenh / 2 + -40)
global Sprite s_aa = ZS.Graphics.Sprite("./mariostill.png", v_aa, NVec2(16, 16), 0)
global Vec2 v_ab = NVec2(g_screenw / 2 + -30, g_screenh / 2 + -40)
global Sprite s_ab = ZS.Graphics.Sprite("./mariostill.png", v_ab, NVec2(16, 16), 0)
global Vec2 v_ac = NVec2(g_screenw / 2 + -20, g_screenh / 2 + -40)
global Sprite s_ac = ZS.Graphics.Sprite("./mariostill.png", v_ac, NVec2(16, 16), 0)
global Vec2 v_ad = NVec2(g_screenw / 2 + -10, g_screenh / 2 + -40)
global Sprite s_ad = ZS.Graphics.Sprite("./mariostill.png", v_ad, NVec2(16, 16), 0)
global Vec2 v_ae = NVec2(g_screenw / 2 + -0, g_screenh / 2 + -40)
global Sprite s_ae = ZS.Graphics.Sprite("./mariostill.png", v_ae, NVec2(16, 16), 0)
global Vec2 v_af = NVec2(g_screenw / 2 + 10, g_screenh / 2 + -40)
global Sprite s_af = ZS.Graphics.Sprite("./mariostill.png", v_af, NVec2(16, 16), 0)
global Vec2 v_ag = NVec2(g_screenw / 2 + 20, g_screenh / 2 + -40)
global Sprite s_ag = ZS.Graphics.Sprite("./mariostill.png", v_ag, NVec2(16, 16), 0)
global Vec2 v_ah = NVec2(g_screenw / 2 + 30, g_screenh / 2 + -40)
global Sprite s_ah = ZS.Graphics.Sprite("./mariostill.png", v_ah, NVec2(16, 16), 0)
global Vec2 v_ai = NVec2(g_screenw / 2 + 40, g_screenh / 2 + -40)
global Sprite s_ai = ZS.Graphics.Sprite("./mariostill.png", v_ai, NVec2(16, 16), 0)
global Vec2 v_aj = NVec2(g_screenw / 2 + -40, g_screenh / 2 + -30)
global Sprite s_aj = ZS.Graphics.Sprite("./mariostill.png", v_aj, NVec2(16, 16), 0)
global Vec2 v_ak = NVec2(g_screenw / 2 + -30, g_screenh / 2 + -30)
global Sprite s_ak = ZS.Graphics.Sprite("./mariostill.png", v_ak, NVec2(16, 16), 0)
global Vec2 v_al = NVec2(g_screenw / 2 + -20, g_screenh / 2 + -30)
global Sprite s_al = ZS.Graphics.Sprite("./mariostill.png", v_al, NVec2(16, 16), 0)
}
func Update(deltaTime)
{
float fps = 1 / deltaTime
Printl("FPS: " + fps)
// // Shift key lets you sprint
// g_running = GetKey("SHIFT_L")
// if g_running == true
// {
// g_currPlayerSpeed = g_playerRunSpeed
// }
// if g_running == false
// {
// g_currPlayerSpeed = g_playerWalkSpeed
// }
// // Move Left And Right
// if GetKey("D") == true
// {
// g_playerTargetPosition.x += g_currPlayerSpeed * deltaTime
// }
// if GetKey("A") == true
// {
// g_playerTargetPosition.x -= g_currPlayerSpeed * deltaTime
// }
// // Apply gravity
// g_colliding = Colliding(g_playerSprite, g_groundSprite)
// if g_colliding == false
// {
// if g_jumping == false
// {
// g_playerTargetPosition.y += deltaTime * g_gravitySpeed
// }
// if g_jumping == true
// {
// g_playerTargetPosition.y -= (g_jumpHeight * deltaTime) + (deltaTime * g_gravitySpeed * -g_jumpingTime * 5)
// }
// }
// if g_colliding == true
// {
// if GetKey("SPACE") == false
// {
// if g_jumpingTime > 1
// {
// g_jumping = false
// }
// }
// if GetKey("SPACE") == true
// {
// g_jumping = true
// g_jumpingTime = 0
// g_playerTargetPosition.y -= 2
// }
// }
// // Lerps from old position to destination smoothly
// float stopSpeed = deltaTime * 15
// float lerpedX = Lerp(g_playerSprite.position.x, g_playerTargetPosition.x, stopSpeed)
// s_aa.position = NVec2(lerpedX, g_playerTargetPosition.y)
// Finally draws all of the sprites
ZS.Graphics.Draw(s_aa)
ZS.Graphics.Draw(s_ab)
ZS.Graphics.Draw(s_ac)
ZS.Graphics.Draw(s_ad)
ZS.Graphics.Draw(s_ae)
ZS.Graphics.Draw(s_af)
ZS.Graphics.Draw(s_ag)
ZS.Graphics.Draw(s_ah)
ZS.Graphics.Draw(s_ai)
ZS.Graphics.Draw(s_aj)
ZS.Graphics.Draw(s_ak)
ZS.Graphics.Draw(s_al)
}
func Colliding(a, b)
{
bool bo = ZS.Physics.AxisAlignedCollision(a, b)
return bo
}

102
examples/Platformer/extra-include.zs
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@ -1,103 +1,5 @@
// This is an "included" ZS file, which can keep your main script
// tidier and more organized or easily share the same functions
// across multiple programs.
func TestInclude() func TestInclude()
{ {
Printl("Hello World!") print "Hello World!"
} }
//////////////////////////////////////////////////////////////////////////////
// Benchmark, to check if performance suffers from too many functions/variables
//////////////////////////////////////////////////////////////////////////////
func b1()
{
Printl("Hello World!")
}
func b2()
{
Printl("Hello World!")
}
func b3()
{
Printl("Hello World!")
}
func b4()
{
Printl("Hello World!")
}
func b5()
{
Printl("Hello World!")
}
func b6()
{
Printl("Hello World!")
}
func b7()
{
Printl("Hello World!")
}
func b8()
{
Printl("Hello World!")
}
func b9()
{
Printl("Hello World!")
}
func b10()
{
Printl("Hello World!")
}
func b11()
{
Printl("Hello World!")
}
func b12()
{
Printl("Hello World!")
}
func b13()
{
Printl("Hello World!")
}
func b14()
{
Printl("Hello World!")
}
func b15()
{
Printl("Hello World!")
}
func b16()
{
Printl("Hello World!")
}
int a = 4
int b = 4
int c = 4
int d = 4
int e = 4
int f = 4
int g = 4
int h = 4
int i = 4
int j = 4
int k = 4
int l = 4
int m = 4
int n = 4
int o = 4
int p = 4
int q = 4
int r = 4
int s = 4
int t = 4
int u = 4
int v = 4
int w = 4
int x = 4
int y = 4
int z = 4

113
examples/Platformer/script.zs
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@ -2,127 +2,108 @@ int g_screenw = 256
int g_screenh = 224 int g_screenh = 224
int g_resolutionScale = 3 int g_resolutionScale = 3
float g_playerWalkSpeed = 150 float g_playerWalkSpeed = 400
float g_playerRunSpeed = 210 float g_playerRunSpeed = 700
float g_jumpHeight = 200 float g_jumpHeight = 20
float g_currPlayerSpeed = 400 float g_currPlayerSpeed = 400
bool g_running = false bool g_running = false
bool g_colliding = false
float g_gravitySpeed = 86 float g_gravitySpeed = -86
bool g_jumping = false include "./extra-include.zs"
float g_jumpingTime = 0
//include "./extra-include.zs"
func Main() func Main()
{ {
//SplitThread(ThreadedFunction()) //SplitThread(ThreadedFunction())
EXIT_WHEN_DONE = false
// Immediately creates the window, then runs Start(), then the game loop. The game loop calls Update() every frame // Immediately creates the window, then Start(), then the game loop. The game loop calls Update() every frame
ZS.Graphics.Init("Platformer game", g_screenw, g_screenh, g_resolutionScale) ZS.Graphics.Init("Platformer game", g_screenw, g_screenh, g_resolutionScale)
} }
func ThreadedFunction() func ThreadedFunction()
{ {
Printl("threaded:") print "threaded:"
} }
func Start() func Start()
{ {
float centerX = g_screenw / 2 float centerX = g_screenw / 2
float centerY = g_screenh / 2 float centerY = g_screenh / 2
global Vec2 g_screencenter = NVec2(g_screenw / 2, g_screenh / 2) global Vec2 g_screencenter = NVec2(centerX, centerY)
global Sprite g_playerSprite = ZS.Graphics.Sprite("./mariostill.png", g_screencenter, NVec2(16, 16), 0) Vec2 playerPos = g_screencenter
Vec2 playerScale = NVec2(16, 16)
global Sprite g_playerSprite = ZS.Graphics.Sprite("./mariostill.png", playerPos, playerScale, 0)
global Sprite g_groundSprite = ZS.Graphics.Sprite("./square.png", NVec2(g_screencenter.x, 192), NVec2(256, 16), 0) Vec2 groundPos = NVec2(g_screencenter.x, 192)
Vec2 groundScale = NVec2(256, 16)
global Sprite g_groundSprite = ZS.Graphics.Sprite("./square.png", groundPos, groundScale, 0)
global Text g_instructionsText = ZS.Graphics.Text("Use Arrow Keys or WASD to Move and Spacebar to Jump", "./arial.ttf", NVec2(g_screencenter.x, g_screencenter.y), 8, 0, 255, 255, 255) Vec2 instructionsPos = NVec2(centerOfScreen.x, centerOfScreen.y)
g_instructionsText.antialias = false global Text g_instructionsText = ZS.Graphics.Text("Use Arrow Keys or WASD to Move, and Spacebar to Jump", "./arial.ttf", instructionsPos, 20, 0, 255, 255, 255)
global Vec2 g_playerTargetPosition = g_screencenter global Vec2 g_playerTargetPosition = playerPos
int i = 0
while i < 10 {
i += 1
print "while iter : " + i
}
} }
func Update(deltaTime) func Update(deltaTime) {
{
float fps = 1 / deltaTime float fps = 1 / deltaTime
g_jumpingTime += deltaTime print "FPS: " + fps
Printl("FPS: " + fps)
//TestInclude() //TestInclude()
//// Test automatic conversion from bool to int
//int c = GetKey("A")
//print "Test: " + c
// Shift key lets you sprint // Shift key lets you sprint
g_running = GetKey("SHIFT_L") g_running = GetKey("SHIFT_L")
if g_running == true if g_running == true{
{
g_currPlayerSpeed = g_playerRunSpeed g_currPlayerSpeed = g_playerRunSpeed
} }
if g_running == false if g_running == false
{ {
g_currPlayerSpeed = g_playerWalkSpeed g_currPlayerSpeed = g_playerWalkSpeed
} }
// Move Left And Right // Move Left And Right
if GetKey("D") == true
{
g_playerTargetPosition.x += g_currPlayerSpeed * deltaTime
}
if GetKey("A") == true if GetKey("A") == true
{ {
g_playerTargetPosition.x -= g_currPlayerSpeed * deltaTime float newY = g_playerSprite.position.y
float newX = g_playerTargetPosition.x - g_currPlayerSpeed * deltaTime
g_playerTargetPosition = NVec2(newX, newY)
} }
if GetKey("D") == true
// Apply gravity
g_colliding = Colliding(g_playerSprite, g_groundSprite)
if g_colliding == false
{ {
if g_jumping == false float newY = g_playerSprite.position.y
{
g_playerTargetPosition.y += deltaTime * g_gravitySpeed float newX = g_playerTargetPosition.x + g_currPlayerSpeed * deltaTime
} g_playerTargetPosition = NVec2(newX, newY)
if g_jumping == true
{
g_playerTargetPosition.y -= (g_jumpHeight * deltaTime) + (deltaTime * g_gravitySpeed * -g_jumpingTime * 5)
}
} }
if g_colliding == true
{
if GetKey("SPACE") == false
{
if g_jumpingTime > 1
{
g_jumping = false
}
}
if GetKey("SPACE") == true
{
g_jumping = true
g_jumpingTime = 0
g_playerTargetPosition.y -= 2
}
}
// Lerps from old position to destination smoothly // Lerps from old position to destination smoothly
float stopSpeed = deltaTime * 15 float oldX = g_playerSprite.position.x
float lerpedX = Lerp(g_playerSprite.position.x, g_playerTargetPosition.x, stopSpeed) float newX = g_playerTargetPosition.x
g_playerSprite.position = NVec2(lerpedX, g_playerTargetPosition.y) float stopSpeed = deltaTime * 7
float lerpedX = Lerp(oldX, newX, stopSpeed)
g_playerSprite.position = NVec2(lerpedX, newY)
// Finally draws all of the sprites // Finally draws all of the sprites
ZS.Graphics.Draw(g_playerSprite) ZS.Graphics.Draw(g_playerSprite)
ZS.Graphics.Draw(g_groundSprite) ZS.Graphics.Draw(g_groundSprite)
// Draw the text
ZS.Graphics.DrawText(g_instructionsText) ZS.Graphics.DrawText(g_instructionsText)
} }
func Colliding(a, b) func Colliding(a, b)
{ {
bool bo = ZS.Physics.AxisAlignedCollision(a, b) bool b = ZS.Physics.AxisAlignedCollision(a, b)
return bo return b
} }

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examples/Pong-Example-Project/ball.png
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8
examples/Pong-Example-Project/script.zs
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@ -16,8 +16,6 @@ bool aiOn = false
// so if you never call ZS.Graphics.Init, then Start won't run // so if you never call ZS.Graphics.Init, then Start won't run
func Main() func Main()
{ {
EXIT_WHEN_DONE = false
// Immediately creates the window, then Start(), then the game loop. The game loop calls Update() every frame // Immediately creates the window, then Start(), then the game loop. The game loop calls Update() every frame
ZS.Graphics.Init("This is a pong game", SCREENW, SCREENH) ZS.Graphics.Init("This is a pong game", SCREENW, SCREENH)
} }
@ -41,7 +39,7 @@ func Start()
Vec2 rPaddlePosition = NVec2(rOffset, yPosPaddle) Vec2 rPaddlePosition = NVec2(rOffset, yPosPaddle)
global Vec2 rPaddleTargetPosition = NVec2(rOffset, yPosPaddle) global Vec2 rPaddleTargetPosition = NVec2(rOffset, yPosPaddle)
global Sprite ballSpr = ZS.Graphics.Sprite("./ball.png", ballPos, ballScale, 0) global Sprite ballSpr = ZS.Graphics.Sprite("./square.png", ballPos, ballScale, 0)
global Sprite lPaddle = ZS.Graphics.Sprite("./square.png", lPaddlePosition, paddleScale, 0) global Sprite lPaddle = ZS.Graphics.Sprite("./square.png", lPaddlePosition, paddleScale, 0)
global Sprite rPaddle = ZS.Graphics.Sprite("./square.png", rPaddlePosition, paddleScale, 0) global Sprite rPaddle = ZS.Graphics.Sprite("./square.png", rPaddlePosition, paddleScale, 0)
@ -64,7 +62,7 @@ func Start()
func Update(deltaTime) func Update(deltaTime)
{ {
//float FPS = 1 / deltaTime //float FPS = 1 / deltaTime
//Printl("FPS: " + FPS) //print "FPS: " + FPS
// Handles Left Paddle Movement // Handles Left Paddle Movement
// //
@ -239,7 +237,7 @@ func HandleBallBounce()
difference -= ballY difference -= ballY
float paddleHeight = rPaddle.scale.y float paddleHeight = rPaddle.scale.y
float normalizedRelativeIntersectionY = difference / (paddleHeight / 2) float normalizedRelativeIntersectionY = difference / (paddleHeight / 2)
float bounceAngle = normalizedRelativeIntersectionY * -0.523599 float bounceAngle = normalizedRelativeIntersectionY * 0.523599
float ballVx = ballSpeed float ballVx = ballSpeed
ballVx *= Cos(bounceAngle) ballVx *= Cos(bounceAngle)
ballVx *= -1 ballVx *= -1

5
examples/console_application.zs
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@ -1,5 +0,0 @@
func Main()
{
Printl("this is a test:")
ZS.System.Command("cls")
}