src/gpu/GrSKSLPrettyPrint.cpp - platform/external/skia - Gitiles

 /*
  * Copyright 2014 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #include "GrSKSLPrettyPrint.h"

 namespace GrSKSLPrettyPrint {

 class GLSLPrettyPrint {
 public:
     GLSLPrettyPrint() {}

     SkString prettify(const char** strings, int* lengths, int count, bool countlines) {
         fCountlines = countlines;
         fTabs = 0;
         fLinecount = 1;
         fFreshline = true;

         // If a string breaks while in the middle 'parse until' we need to continue parsing on the
         // next string
         fInParseUntilNewline = false;
         fInParseUntil = false;

         int parensDepth = 0;

         // number 1st line
         this->lineNumbering();
         for (int i = 0; i < count; i++) {
             // setup pretty state
             fIndex = 0;
             fLength = lengths[i];
             fInput = strings[i];

             while (fLength > fIndex) {
                 /* the heart and soul of our prettification algorithm.  The rules should hopefully
                  * be self explanatory.  For '#' and '//' tokens we parse until we reach a newline.
                  *
                  * For long style comments like this one, we search for the ending token.  We also
                  * preserve whitespace in these comments WITH THE CAVEAT that we do the newlines
                  * ourselves.  This allows us to remain in control of line numbers, and matching
                  * tabs Existing tabs in the input string are copied over too, but this will look
                  *  funny
                  *
                  * '{' and '}' are handled in basically the same way.  We add a newline if we aren't
                  * on a fresh line, dirty the line, then add a second newline, ie braces are always
                  * on their own lines indented properly.  The one funkiness here is structs print
                  * with the semicolon on its own line.  Its not a problem for a glsl compiler though
                  *
                  * '(' and ')' are basically ignored, except as a sign we need to ignore ';' ala
                  * in for loops.
                  *
                  * ';' means add a new line
                  *
                  * '\t' and '\n' are ignored in general parsing for backwards compatability with
                  * existing shader code and we also have a special case for handling whitespace
                  * at the beginning of fresh lines.
                  *
                  * Otherwise just add the new character to the pretty string, indenting if
                  * necessary.
                  */
                 if (fInParseUntilNewline) {
                     this->parseUntilNewline();
                 } else if (fInParseUntil) {
                     this->parseUntil(fInParseUntilToken);
                 } else if (this->hasToken("#") || this->hasToken("//")) {
                     this->parseUntilNewline();
                 } else if (this->hasToken("/*")) {
                     this->parseUntil("*/");
                 } else if ('{' == fInput[fIndex]) {
                     this->newline();
                     this->appendChar('{');
                     fTabs++;
                     this->newline();
                 } else if ('}' == fInput[fIndex]) {
                     fTabs--;
                     this->newline();
                     this->appendChar('}');
                     this->newline();
                 } else if (this->hasToken(")")) {
                     parensDepth--;
                 } else if (this->hasToken("(")) {
                     parensDepth++;
                 } else if (!parensDepth && this->hasToken(";")) {
                     this->newline();
                 } else if ('\t' == fInput[fIndex] || '\n' == fInput[fIndex] ||
                            (fFreshline && ' ' == fInput[fIndex])) {
                     fIndex++;
                 } else {
                     this->appendChar(fInput[fIndex]);
                 }
             }
         }
         return fPretty;
     }

 private:
     void appendChar(char c) {
         this->tabString();
         fPretty.appendf("%c", fInput[fIndex++]);
         fFreshline = false;
     }

     // hasToken automatically consumes the next token, if it is a match, and then tabs
     // if necessary, before inserting the token into the pretty string
     bool hasToken(const char* token) {
         size_t i = fIndex;
         for (size_t j = 0; token[j] && fLength > i; i++, j++) {
             if (token[j] != fInput[i]) {
                 return false;
             }
         }
         this->tabString();
         fIndex = i;
         fPretty.append(token);
         fFreshline = false;
         return true;
     }

     void parseUntilNewline() {
         while (fLength > fIndex) {
             if ('\n' == fInput[fIndex]) {
                 fIndex++;
                 this->newline();
                 fInParseUntilNewline = false;
                 break;
             }
             fPretty.appendf("%c", fInput[fIndex++]);
             fInParseUntilNewline = true;
         }
     }

     // this code assumes it is not actually searching for a newline.  If you need to search for a
     // newline, then use the function above.  If you do search for a newline with this function
     // it will consume the entire string and the output will certainly not be prettified
     void parseUntil(const char* token) {
         while (fLength > fIndex) {
             // For embedded newlines,  this code will make sure to embed the newline in the
             // pretty string, increase the linecount, and tab out the next line to the appropriate
             // place
             if ('\n' == fInput[fIndex]) {
                 this->newline();
                 this->tabString();
                 fIndex++;
             }
             if (this->hasToken(token)) {
                 fInParseUntil = false;
                 break;
             }
             fFreshline = false;
             fPretty.appendf("%c", fInput[fIndex++]);
             fInParseUntil = true;
             fInParseUntilToken = token;
         }
     }

     // We only tab if on a newline, otherwise consider the line tabbed
     void tabString() {
         if (fFreshline) {
             for (int t = 0; t < fTabs; t++) {
                 fPretty.append("\t");
             }
         }
     }

     // newline is really a request to add a newline, if we are on a fresh line there is no reason
     // to add another newline
     void newline() {
         if (!fFreshline) {
             fFreshline = true;
             fPretty.append("\n");
             this->lineNumbering();
         }
     }

     void lineNumbering() {
         if (fCountlines) {
             fPretty.appendf("%4d\t", fLinecount++);
         }
     }

     bool fCountlines, fFreshline;
     int fTabs, fLinecount;
     size_t fIndex, fLength;
     const char* fInput;
     SkString fPretty;

     // Some helpers for parseUntil when we go over a string length
     bool fInParseUntilNewline;
     bool fInParseUntil;
     const char* fInParseUntilToken;
 };

 SkString PrettyPrint(const char** strings, int* lengths, int count, bool countlines) {
     GLSLPrettyPrint pp;
     return pp.prettify(strings, lengths, count, countlines);
 }

 }  // namespace GrSKSLPrettyPrint
	/*
	* Copyright 2014 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#include "GrSKSLPrettyPrint.h"

	namespace GrSKSLPrettyPrint {

	class GLSLPrettyPrint {
	public:
	GLSLPrettyPrint() {}

	SkString prettify(const char** strings, int* lengths, int count, bool countlines) {
	fCountlines = countlines;
	fTabs = 0;
	fLinecount = 1;
	fFreshline = true;

	// If a string breaks while in the middle 'parse until' we need to continue parsing on the
	// next string
	fInParseUntilNewline = false;
	fInParseUntil = false;

	int parensDepth = 0;

	// number 1st line
	this->lineNumbering();
	for (int i = 0; i < count; i++) {
	// setup pretty state
	fIndex = 0;
	fLength = lengths[i];
	fInput = strings[i];

	while (fLength > fIndex) {
	/* the heart and soul of our prettification algorithm. The rules should hopefully
	* be self explanatory. For '#' and '//' tokens we parse until we reach a newline.
	*
	* For long style comments like this one, we search for the ending token. We also
	* preserve whitespace in these comments WITH THE CAVEAT that we do the newlines
	* ourselves. This allows us to remain in control of line numbers, and matching
	* tabs Existing tabs in the input string are copied over too, but this will look
	* funny
	*
	* '{' and '}' are handled in basically the same way. We add a newline if we aren't
	* on a fresh line, dirty the line, then add a second newline, ie braces are always
	* on their own lines indented properly. The one funkiness here is structs print
	* with the semicolon on its own line. Its not a problem for a glsl compiler though
	*
	* '(' and ')' are basically ignored, except as a sign we need to ignore ';' ala
	* in for loops.
	*
	* ';' means add a new line
	*
	* '\t' and '\n' are ignored in general parsing for backwards compatability with
	* existing shader code and we also have a special case for handling whitespace
	* at the beginning of fresh lines.
	*
	* Otherwise just add the new character to the pretty string, indenting if
	* necessary.
	*/
	if (fInParseUntilNewline) {
	this->parseUntilNewline();
	} else if (fInParseUntil) {
	this->parseUntil(fInParseUntilToken);
	} else if (this->hasToken("#") \|\| this->hasToken("//")) {
	this->parseUntilNewline();
	} else if (this->hasToken("/*")) {
	this->parseUntil("*/");
	} else if ('{' == fInput[fIndex]) {
	this->newline();
	this->appendChar('{');
	fTabs++;
	this->newline();
	} else if ('}' == fInput[fIndex]) {
	fTabs--;
	this->newline();
	this->appendChar('}');
	this->newline();
	} else if (this->hasToken(")")) {
	parensDepth--;
	} else if (this->hasToken("(")) {
	parensDepth++;
	} else if (!parensDepth && this->hasToken(";")) {
	this->newline();
	} else if ('\t' == fInput[fIndex] \|\| '\n' == fInput[fIndex] \|\|
	(fFreshline && ' ' == fInput[fIndex])) {
	fIndex++;
	} else {
	this->appendChar(fInput[fIndex]);
	}
	}
	}
	return fPretty;
	}

	private:
	void appendChar(char c) {
	this->tabString();
	fPretty.appendf("%c", fInput[fIndex++]);
	fFreshline = false;
	}

	// hasToken automatically consumes the next token, if it is a match, and then tabs
	// if necessary, before inserting the token into the pretty string
	bool hasToken(const char* token) {
	size_t i = fIndex;
	for (size_t j = 0; token[j] && fLength > i; i++, j++) {
	if (token[j] != fInput[i]) {
	return false;
	}
	}
	this->tabString();
	fIndex = i;
	fPretty.append(token);
	fFreshline = false;
	return true;
	}

	void parseUntilNewline() {
	while (fLength > fIndex) {
	if ('\n' == fInput[fIndex]) {
	fIndex++;
	this->newline();
	fInParseUntilNewline = false;
	break;
	}
	fPretty.appendf("%c", fInput[fIndex++]);
	fInParseUntilNewline = true;
	}
	}

	// this code assumes it is not actually searching for a newline. If you need to search for a
	// newline, then use the function above. If you do search for a newline with this function
	// it will consume the entire string and the output will certainly not be prettified
	void parseUntil(const char* token) {
	while (fLength > fIndex) {
	// For embedded newlines, this code will make sure to embed the newline in the
	// pretty string, increase the linecount, and tab out the next line to the appropriate
	// place
	if ('\n' == fInput[fIndex]) {
	this->newline();
	this->tabString();
	fIndex++;
	}
	if (this->hasToken(token)) {
	fInParseUntil = false;
	break;
	}
	fFreshline = false;
	fPretty.appendf("%c", fInput[fIndex++]);
	fInParseUntil = true;
	fInParseUntilToken = token;
	}
	}

	// We only tab if on a newline, otherwise consider the line tabbed
	void tabString() {
	if (fFreshline) {
	for (int t = 0; t < fTabs; t++) {
	fPretty.append("\t");
	}
	}
	}

	// newline is really a request to add a newline, if we are on a fresh line there is no reason
	// to add another newline
	void newline() {
	if (!fFreshline) {
	fFreshline = true;
	fPretty.append("\n");
	this->lineNumbering();
	}
	}

	void lineNumbering() {
	if (fCountlines) {
	fPretty.appendf("%4d\t", fLinecount++);
	}
	}

	bool fCountlines, fFreshline;
	int fTabs, fLinecount;
	size_t fIndex, fLength;
	const char* fInput;
	SkString fPretty;

	// Some helpers for parseUntil when we go over a string length
	bool fInParseUntilNewline;
	bool fInParseUntil;
	const char* fInParseUntilToken;
	};

	SkString PrettyPrint(const char** strings, int* lengths, int count, bool countlines) {
	GLSLPrettyPrint pp;
	return pp.prettify(strings, lengths, count, countlines);
	}

	} // namespace GrSKSLPrettyPrint